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

Comparing ray/src/util/rmatrix.c (file contents):
Revision 2.61 by greg, Mon Nov 27 22:04:45 2023 UTC vs.
Revision 2.72 by greg, Tue Dec 5 21:45:39 2023 UTC

#	Line 31 \| Line 31 \| rmx_new(int nr, int nc, int n)
31		return(NULL);
32
33		dnew = (RMATRIX *)calloc(1, sizeof(RMATRIX));
34	<	if (dnew) {
35	<	dnew->dtype = DTdouble;
36	<	dnew->nrows = nr;
37	<	dnew->ncols = nc;
38	<	dnew->ncomp = n;
39	<	setcolor(dnew->cexp, 1.f, 1.f, 1.f);
40	<	memcpy(dnew->wlpart, WLPART, sizeof(dnew->wlpart));
41	<	}
34	>	if (!dnew)
35	>	return(NULL);
36	>
37	>	dnew->dtype = DTdouble;
38	>	dnew->nrows = nr;
39	>	dnew->ncols = nc;
40	>	dnew->ncomp = n;
41	>	setcolor(dnew->cexp, 1.f, 1.f, 1.f);
42	>	memcpy(dnew->wlpart, WLPART, sizeof(dnew->wlpart));
43	>
44		return(dnew);
45		}
46
#	Line 68 \| Line 70 \| rmx_alloc(int nr, int nc, int n)
70		return(dnew);
71		}
72
73	<	/* Free a RMATRIX array */
73	>	/* Clear state by freeing info and matrix data */
74		void
75	<	rmx_free(RMATRIX *rm)
75	>	rmx_reset(RMATRIX *rm)
76		{
77		if (!rm) return;
78	<	if (rm->info)
78	>	if (rm->info) {
79		free(rm->info);
80	+	rm->info = NULL;
81	+	}
82	+	if (rm->mtx) {
83		#ifdef MAP_FILE
84	<	if (rm->mapped)
85	<	munmap(rm->mapped, mapped_size(rm));
86	<	else
84	>	if (rm->mapped) {
85	>	munmap(rm->mapped, mapped_size(rm));
86	>	rm->mapped = NULL;
87	>	} else
88		#endif
89	<	free(rm->mtx);
89	>	free(rm->mtx);
90	>	rm->mtx = NULL;
91	>	}
92	>	}
93	>
94	>	/* Free an RMATRIX struct and data */
95	>	void
96	>	rmx_free(RMATRIX *rm)
97	>	{
98	>	if (!rm) return;
99	>	rmx_reset(rm);
100		free(rm);
101		}
102
#	Line 172 \| Line 188 \| *get_dminfo(char s, void p)*
188		}
189
190		static int
191	<	rmx_load_ascii(RMATRIX rm, FILE fp)
191	>	rmx_load_ascii(double drp, const RMATRIX rm, FILE *fp)
192		{
193	<	int i, j, k;
193	>	int j, k;
194
195	<	if (!rmx_prepare(rm))
196	<	return(0);
197	<	for (i = 0; i < rm->nrows; i++)
198	<	for (j = 0; j < rm->ncols; j++) {
183	<	double *dp = rmx_lval(rm,i,j);
184	<	for (k = 0; k < rm->ncomp; k++)
185	<	if (fscanf(fp, "%lf", &dp[k]) != 1)
186	<	return(0);
187	<	}
195	>	for (j = 0; j < rm->ncols; j++)
196	>	for (k = rm->ncomp; k-- > 0; )
197	>	if (fscanf(fp, "%lf", drp++) != 1)
198	>	return(0);
199		return(1);
200		}
201
202		static int
203	<	rmx_load_float(RMATRIX rm, FILE fp)
203	>	rmx_load_float(double drp, const RMATRIX rm, FILE *fp)
204		{
205	<	int i, j, k;
205	>	int j, k;
206		float val[100];
207
208		if (rm->ncomp > 100) {
209		fputs("Unsupported # components in rmx_load_float()\n", stderr);
210		exit(1);
211		}
212	<	if (!rmx_prepare(rm))
202	<	return(0);
203	<	for (i = 0; i < rm->nrows; i++)
204	<	for (j = 0; j < rm->ncols; j++) {
205	<	double *dp = rmx_lval(rm,i,j);
212	>	for (j = 0; j < rm->ncols; j++) {
213		if (getbinary(val, sizeof(val[0]), rm->ncomp, fp) != rm->ncomp)
214	<	return(0);
214	>	return(0);
215		if (rm->swapin)
216	<	swap32((char *)val, rm->ncomp);
217	<	for (k = rm->ncomp; k--; )
218	<	dp[k] = val[k];
219	<	}
216	>	swap32((char *)val, rm->ncomp);
217	>	for (k = 0; k < rm->ncomp; k++)
218	>	*drp++ = val[k];
219	>	}
220		return(1);
221		}
222
223		static int
224	<	rmx_load_double(RMATRIX rm, FILE fp)
224	>	rmx_load_double(double drp, const RMATRIX rm, FILE *fp)
225		{
226	<	int i;
220	<	#ifdef MAP_FILE
221	<	long pos; /* map memory for file > 1MB if possible */
222	<	if (!rm->swapin && array_size(rm) >= 1L<<20 &&
223	<	(pos = ftell(fp)) >= 0 && !(pos % sizeof(double))) {
224	<	rm->mapped = mmap(NULL, array_size(rm)+pos, PROT_READ\|PROT_WRITE,
225	<	MAP_PRIVATE, fileno(fp), 0);
226	<	if (rm->mapped != MAP_FAILED) {
227	<	rm->mtx = (double *)rm->mapped + pos/sizeof(double);
228	<	return(1);
229	<	} /* else fall back on reading into memory */
230	<	rm->mapped = NULL;
231	<	}
232	<	#endif
233	<	if (!rmx_prepare(rm))
226	>	if (getbinary(drp, sizeof(drp)rm->ncomp, rm->ncols, fp) != rm->ncols)
227		return(0);
228	<	for (i = 0; i < rm->nrows; i++) {
229	<	if (getbinary(rmx_lval(rm,i,0), sizeof(double)*rm->ncomp,
237	<	rm->ncols, fp) != rm->ncols)
238	<	return(0);
239	<	if (rm->swapin)
240	<	swap64((char )rmx_lval(rm,i,0), rm->ncolsrm->ncomp);
241	<	}
228	>	if (rm->swapin)
229	>	swap64((char )drp, rm->ncolsrm->ncomp);
230		return(1);
231		}
232
233		static int
234	<	rmx_load_rgbe(RMATRIX rm, FILE fp)
234	>	rmx_load_rgbe(double drp, const RMATRIX rm, FILE *fp)
235		{
236	<	COLOR scan = (COLOR )malloc(sizeof(COLOR)*rm->ncols);
237	<	int i, j;
236	>	COLR *scan;
237	>	COLOR col;
238	>	int j;
239
240	+	if (rm->ncomp != 3)
241	+	return(0);
242	+	scan = (COLR )tempbuffer(sizeof(COLR)rm->ncols);
243		if (!scan)
244		return(0);
245	<	if (!rmx_prepare(rm)) {
254	<	free(scan);
245	>	if (freadcolrs(scan, rm->ncols, fp) < 0)
246		return(0);
247	+	for (j = 0; j < rm->ncols; j++) {
248	+	colr_color(col, scan[j]);
249	+	*drp++ = colval(col,RED);
250	+	*drp++ = colval(col,GRN);
251	+	*drp++ = colval(col,BLU);
252		}
257	–	for (i = 0; i < rm->nrows; i++) {
258	–	double *dp = rmx_lval(rm,i,0);
259	–	if (freadscan(scan, rm->ncols, fp) < 0) {
260	–	free(scan);
261	–	return(0);
262	–	}
263	–	for (j = 0; j < rm->ncols; j++, dp += 3) {
264	–	dp[0] = colval(scan[j],RED);
265	–	dp[1] = colval(scan[j],GRN);
266	–	dp[2] = colval(scan[j],BLU);
267	–	}
268	–	}
269	–	free(scan);
253		return(1);
254		}
255
256		static int
257	<	rmx_load_spec(RMATRIX rm, FILE fp)
257	>	rmx_load_spec(double drp, const RMATRIX rm, FILE *fp)
258		{
259		uby8 *scan;
260		SCOLOR scol;
261	<	int i, j, k;
261	>	int j, k;
262
263	<	if (rm->ncomp < 3)
263	>	if ((rm->ncomp < 3) \| (rm->ncomp > MAXCSAMP))
264		return(0);
265	<	scan = (uby8 )malloc((rm->ncomp+1)rm->ncols);
265	>	scan = (uby8 )tempbuffer((rm->ncomp+1)rm->ncols);
266		if (!scan)
267		return(0);
268	<	if (!rmx_prepare(rm)) {
286	<	free(scan);
268	>	if (freadscolrs(scan, rm->ncomp, rm->ncols, fp) < 0)
269		return(0);
270	+	for (j = 0; j < rm->ncols; j++) {
271	+	scolr2scolor(scol, scan+j*(rm->ncomp+1), rm->ncomp);
272	+	for (k = 0; k < rm->ncomp; k++)
273	+	*drp++ = scol[k];
274		}
275	<	for (i = 0; i < rm->nrows; i++) {
276	<	double *dp = rmx_lval(rm,i,0);
277	<	if (freadscolrs(scan, rm->ncomp, rm->ncols, fp) < 0) {
278	<	free(scan);
275	>	return(1);
276	>	}
277	>
278	>	/* Read matrix header from input stream (cannot be XML) */
279	>	int
280	>	rmx_load_header(RMATRIX rm, FILE fp)
281	>	{
282	>	if (!rm \| !fp)
283		return(0);
284	<	}
285	<	for (j = 0; j < rm->ncols; j++) {
286	<	scolr2scolor(scol, scan+j*(rm->ncomp+1), rm->ncomp);
287	<	for (k = 0; k < rm->ncomp; k++)
288	<	*dp++ = scol[k];
289	<	}
284	>	rmx_reset(rm); /* clear state */
285	>	if (rm->nrows \| rm->ncols \| !rm->dtype) {
286	>	rm->nrows = rm->ncols = 0;
287	>	rm->ncomp = 3;
288	>	setcolor(rm->cexp, 1.f, 1.f, 1.f);
289	>	memcpy(rm->wlpart, WLPART, sizeof(rm->wlpart));
290	>	rm->swapin = 0;
291		}
292	<	free(scan);
292	>	rm->dtype = DTascii; /* assumed w/o FORMAT */
293	>	if (getheader(fp, get_dminfo, rm) < 0) {
294	>	fputs("Unrecognized matrix format\n", stderr);
295	>	return(0);
296	>	}
297	>	if ((rm->dtype == DTrgbe) \| (rm->dtype == DTxyze) &&
298	>	rm->ncomp != 3)
299	>	return(0);
300	>	if (rm->ncols <= 0 && /* resolution string? */
301	>	!fscnresolu(&rm->ncols, &rm->nrows, fp))
302	>	return(0);
303	>	if (rm->dtype == DTascii) /* set file type (WINDOWS) */
304	>	SET_FILE_TEXT(fp);
305	>	else
306	>	SET_FILE_BINARY(fp);
307		return(1);
308		}
309
310	+	/* Load next row as double (cannot be XML) */
311	+	int
312	+	rmx_load_row(double drp, const RMATRIX rm, FILE *fp)
313	+	{
314	+	switch (rm->dtype) {
315	+	case DTascii:
316	+	return(rmx_load_ascii(drp, rm, fp));
317	+	case DTfloat:
318	+	return(rmx_load_float(drp, rm, fp));
319	+	case DTdouble:
320	+	return(rmx_load_double(drp, rm, fp));
321	+	case DTrgbe:
322	+	case DTxyze:
323	+	return(rmx_load_rgbe(drp, rm, fp));
324	+	case DTspec:
325	+	return(rmx_load_spec(drp, rm, fp));
326	+	default:
327	+	fputs("Unsupported data type in rmx_load_row()\n", stderr);
328	+	}
329	+	return(0);
330	+	}
331	+
332	+	/* Allocate & load post-header data from stream given type set in rm->dtype */
333	+	int
334	+	rmx_load_data(RMATRIX rm, FILE fp)
335	+	{
336	+	int i;
337	+	#ifdef MAP_FILE
338	+	long pos; /* map memory for file > 1MB if possible */
339	+	if ((rm->dtype == DTdouble) & !rm->swapin && array_size(rm) >= 1L<<20 &&
340	+	(pos = ftell(fp)) >= 0 && !(pos % sizeof(double))) {
341	+	rm->mapped = mmap(NULL, array_size(rm)+pos, PROT_READ\|PROT_WRITE,
342	+	MAP_PRIVATE, fileno(fp), 0);
343	+	if (rm->mapped != MAP_FAILED) {
344	+	rm->mtx = (double *)rm->mapped + pos/sizeof(double);
345	+	return(1);
346	+	} /* else fall back on reading into memory */
347	+	rm->mapped = NULL;
348	+	}
349	+	#endif
350	+	if (!rmx_prepare(rm)) { /* need in-core matrix array */
351	+	fprintf(stderr, "Cannot allocate %g MByte matrix array\n",
352	+	(1./(1L<<20))*(double)array_size(rm));
353	+	return(0);
354	+	}
355	+	for (i = 0; i < rm->nrows; i++)
356	+	if (!rmx_load_row(rmx_lval(rm,i,0), rm, fp))
357	+	return(0);
358	+	return(1);
359	+	}
360	+
361		/* Load matrix from supported file type */
362		RMATRIX *
363		rmx_load(const char *inspec, RMPref rmp)
364		{
365		FILE *fp;
366		RMATRIX *dnew;
367	+	int ok;
368
369		if (!inspec)
370		inspec = stdin_name;
371		else if (!*inspec)
372		return(NULL);
373	<	if (inspec == stdin_name) { /* reading from stdin? */
373	>	if (inspec == stdin_name) /* reading from stdin? */
374		fp = stdin;
375	<	} else if (inspec[0] == '!') {
376	<	if (!(fp = popen(inspec+1, "r")))
377	<	return(NULL);
321	<	} else {
375	>	else if (inspec[0] == '!')
376	>	fp = popen(inspec+1, "r");
377	>	else {
378		const char sp = inspec; / check suffix */
379		while (*sp)
380		++sp;
381		while (sp > inspec && sp[-1] != '.')
382		--sp;
383		if (!strcasecmp(sp, "XML")) { /* assume it's a BSDF */
384	<	CMATRIX *cm = rmp==RMPtrans ? cm_loadBTDF(inspec) :
384	>	CMATRIX cm = rmp==RMPnone ? (CMATRIX )NULL :
385	>	rmp==RMPtrans ? cm_loadBTDF(inspec) :
386		cm_loadBRDF(inspec, rmp==RMPreflB) ;
387		if (!cm)
388		return(NULL);
389		dnew = rmx_from_cmatrix(cm);
390		cm_free(cm);
391		dnew->dtype = DTascii;
392	<	return(dnew);
393	<	}
394	<	/* else open it ourselves */
338	<	if (!(fp = fopen(inspec, "r")))
339	<	return(NULL);
392	>	return(dnew); /* return here */
393	>	} /* else open it ourselves */
394	>	fp = fopen(inspec, "r");
395		}
396	<	SET_FILE_BINARY(fp);
396	>	if (!fp)
397	>	return(NULL);
398		#ifdef getc_unlocked
399		flockfile(fp);
400		#endif
401	<	if (!(dnew = rmx_new(0,0,3))) {
402	<	fclose(fp);
401	>	SET_FILE_BINARY(fp); /* load header info */
402	>	if (!rmx_load_header(dnew = rmx_new(0,0,3), fp)) {
403	>	fprintf(stderr, "Bad header in: %s\n", inspec);
404	>	if (inspec[0] == '!') pclose(fp);
405	>	else fclose(fp);
406	>	rmx_free(dnew);
407		return(NULL);
408		}
409	<	dnew->dtype = DTascii; /* assumed w/o FORMAT */
410	<	if (getheader(fp, get_dminfo, dnew) < 0) {
411	<	fclose(fp);
352	<	return(NULL);
353	<	}
354	<	if ((dnew->nrows <= 0) \| (dnew->ncols <= 0)) {
355	<	if (!fscnresolu(&dnew->ncols, &dnew->nrows, fp)) {
356	<	fclose(fp);
357	<	return(NULL);
358	<	}
359	<	if ((dnew->dtype == DTrgbe) \| (dnew->dtype == DTxyze) &&
360	<	dnew->ncomp != 3) {
361	<	fclose(fp);
362	<	return(NULL);
363	<	}
364	<	}
365	<	switch (dnew->dtype) {
366	<	case DTascii:
367	<	SET_FILE_TEXT(fp);
368	<	if (!rmx_load_ascii(dnew, fp))
369	<	goto loaderr;
370	<	dnew->dtype = DTascii; /* should leave double? */
371	<	break;
372	<	case DTfloat:
373	<	if (!rmx_load_float(dnew, fp))
374	<	goto loaderr;
375	<	dnew->dtype = DTfloat;
376	<	break;
377	<	case DTdouble:
378	<	if (!rmx_load_double(dnew, fp))
379	<	goto loaderr;
380	<	dnew->dtype = DTdouble;
381	<	break;
382	<	case DTrgbe:
383	<	case DTxyze:
384	<	if (!rmx_load_rgbe(dnew, fp))
385	<	goto loaderr;
386	<	break;
387	<	case DTspec:
388	<	if (!rmx_load_spec(dnew, fp))
389	<	goto loaderr;
390	<	break;
391	<	default:
392	<	goto loaderr;
393	<	}
394	<	if (fp != stdin) {
409	>	ok = rmx_load_data(dnew, fp); /* allocate & load data */
410	>
411	>	if (fp != stdin) { /* close input stream */
412		if (inspec[0] == '!')
413		pclose(fp);
414		else
#	Line 401 \| Line 418 \| *rmx_load(const char inspec, RMPref rmp)**
418		else
419		funlockfile(fp);
420		#endif
421	+	if (!ok) { /* load failure? */
422	+	fprintf(stderr, "Error loading data from: %s\n", inspec);
423	+	rmx_free(dnew);
424	+	return(NULL);
425	+	}
426		/* undo exposure? */
427		if ((dnew->cexp[0] != 1.f) \|
428		(dnew->cexp[1] != 1.f) \| (dnew->cexp[2] != 1.f)) {
#	Line 409 \| Line 431 \| *rmx_load(const char inspec, RMPref rmp)**
431		cmlt[0] = 1./dnew->cexp[0];
432		cmlt[1] = 1./dnew->cexp[1];
433		cmlt[2] = 1./dnew->cexp[2];
434	<	if (dnew->ncomp > MAXCSAMP)
435	<	goto loaderr;
434	>	if (dnew->ncomp > MAXCSAMP) {
435	>	fprintf(stderr, "Excess spectral components in: %s\n",
436	>	inspec);
437	>	rmx_free(dnew);
438	>	return(NULL);
439	>	}
440		for (i = dnew->ncomp; i-- > 3; )
441		cmlt[i] = cmlt[1];
442		rmx_scale(dnew, cmlt);
443		setcolor(dnew->cexp, 1.f, 1.f, 1.f);
444		}
445		return(dnew);
420	–	loaderr: /* should report error? */
421	–	if (inspec[0] == '!')
422	–	pclose(fp);
423	–	else
424	–	fclose(fp);
425	–	rmx_free(dnew);
426	–	return(NULL);
446		}
447
448		static int
449	<	rmx_write_ascii(const RMATRIX rm, FILE fp)
449	>	rmx_write_ascii(const double dp, int nc, int len, FILE fp)
450		{
451	<	const char *fmt = (rm->dtype == DTfloat) ? " %.7e" :
452	<	(rm->dtype == DTrgbe) \| (rm->dtype == DTxyze) \|
453	<	(rm->dtype == DTspec) ? " %.3e" : " %.15e" ;
454	<	int i, j, k;
436	<
437	<	for (i = 0; i < rm->nrows; i++) {
438	<	for (j = 0; j < rm->ncols; j++) {
439	<	const double *dp = rmx_lval(rm,i,j);
440	<	for (k = 0; k < rm->ncomp; k++)
441	<	fprintf(fp, fmt, dp[k]);
451	>	while (len-- > 0) {
452	>	int k = nc;
453	>	while (k-- > 0)
454	>	fprintf(fp, " %.7e", *dp++);
455		fputc('\t', fp);
443	–	}
444	–	fputc('\n', fp);
456		}
457	<	return(1);
457	>	return(fputc('\n', fp) != EOF);
458		}
459
460		static int
461	<	rmx_write_float(const RMATRIX rm, FILE fp)
461	>	rmx_write_float(const double dp, int len, FILE fp)
462		{
463	<	int i, j, k;
453	<	float val[100];
463	>	float val;
464
465	<	if (rm->ncomp > 100) {
466	<	fputs("Unsupported # components in rmx_write_float()\n", stderr);
467	<	exit(1);
458	<	}
459	<	for (i = 0; i < rm->nrows; i++)
460	<	for (j = 0; j < rm->ncols; j++) {
461	<	const double *dp = rmx_lval(rm,i,j);
462	<	for (k = rm->ncomp; k--; )
463	<	val[k] = (float)dp[k];
464	<	if (putbinary(val, sizeof(float), rm->ncomp, fp) != rm->ncomp)
465	>	while (len--) {
466	>	val = *dp++;
467	>	if (putbinary(&val, sizeof(float), 1, fp) != 1)
468		return(0);
469	<	}
469	>	}
470		return(1);
471		}
472
473		static int
474	<	rmx_write_double(const RMATRIX rm, FILE fp)
474	>	rmx_write_rgbe(const double dp, int nc, int len, FILE fp)
475		{
476	<	int i;
476	>	COLR *scan;
477	>	int j;
478
479	<	for (i = 0; i < rm->nrows; i++)
480	<	if (putbinary(rmx_lval(rm,i,0), sizeof(double)*rm->ncomp,
481	<	rm->ncols, fp) != rm->ncols)
478	<	return(0);
479	<	return(1);
480	<	}
479	>	if ((nc != 1) & (nc != 3)) return(0);
480	>	scan = (COLR )tempbuffer(sizeof(COLR)len);
481	>	if (!scan) return(0);
482
483	<	static int
484	<	rmx_write_rgbe(const RMATRIX rm, FILE fp)
484	<	{
485	<	COLR scan = (COLR )malloc(sizeof(COLR)*rm->ncols);
486	<	int i, j;
487	<
488	<	if (!scan)
489	<	return(0);
490	<	for (i = 0; i < rm->nrows; i++) {
491	<	for (j = rm->ncols; j--; ) {
492	<	const double *dp = rmx_lval(rm,i,j);
493	<	if (rm->ncomp == 1)
483	>	for (j = 0; j < len; j++, dp += nc)
484	>	if (nc == 1)
485		setcolr(scan[j], dp[0], dp[0], dp[0]);
486		else
487		setcolr(scan[j], dp[0], dp[1], dp[2]);
488	<	}
489	<	if (fwritecolrs(scan, rm->ncols, fp) < 0) {
499	<	free(scan);
500	<	return(0);
501	<	}
502	<	}
503	<	free(scan);
504	<	return(1);
488	>
489	>	return(fwritecolrs(scan, len, fp) >= 0);
490		}
491
492		static int
493	<	rmx_write_spec(const RMATRIX rm, FILE fp)
493	>	rmx_write_spec(const double dp, int nc, int len, FILE fp)
494		{
495	<	uby8 scan = (uby8 )malloc((rm->ncomp+1)*rm->ncols);
511	<	int ok = 1;
495	>	uby8 *scan;
496		SCOLOR scol;
497	<	int i, j, k;
497	>	int j, k;
498
499	<	if (!scan)
500	<	return(0);
501	<	for (i = 0; i < rm->nrows; i++) {
502	<	for (j = rm->ncols; j--; ) {
503	<	const double *dp = rmx_lval(rm,i,j);
520	<	for (k = rm->ncomp; k--; )
499	>	if (nc < 3) return(0);
500	>	scan = (uby8 )tempbuffer((nc+1)len);
501	>	if (!scan) return(0);
502	>	for (j = len; j--; dp += nc) {
503	>	for (k = nc; k--; )
504		scol[k] = dp[k];
505	<	scolor2scolr(scan+j*(rm->ncomp+1), scol, rm->ncomp);
523	<	}
524	<	if (fwritescolrs(scan, rm->ncomp, rm->ncols, fp) < 0) {
525	<	ok = 0;
526	<	break;
527	<	}
505	>	scolor2scolr(scan+j*(nc+1), scol, nc);
506		}
507	<	free(scan);
530	<	return(ok);
507	>	return(fwritescolrs(scan, nc, len, fp) >= 0);
508		}
509
510		/* Check if CIE XYZ primaries were specified */
#	Line 547 \| Line 524 \| *findCIEprims(const char info)**
524		(prims[BLU][CIEX] < .01) & (prims[BLU][CIEY] < .01));
525		}
526
527	<	/* Write matrix to file type indicated by dtype */
527	>	/* Finish writing header data with resolution and format, returning type used */
528		int
529	<	rmx_write(const RMATRIX rm, int dtype, FILE fp)
529	>	rmx_write_header(const RMATRIX rm, int dtype, FILE fp)
530		{
531	<	int ok = 1;
555	<
556	<	if (!rm \| !fp \|\| !rm->mtx)
531	>	if (!rm \| !fp \|\| rm->ncols <= 0)
532		return(0);
558	–	#ifdef getc_unlocked
559	–	flockfile(fp);
560	–	#endif
561	–	/* complete header */
533		if (rm->info)
534		fputs(rm->info, fp);
535		if (dtype == DTfromHeader)
#	Line 568 \| Line 539 \| *rmx_write(const RMATRIX rm, int dtype, FILE fp)*
539		dtype = DTxyze;
540		else if ((dtype == DTxyze) & (rm->dtype == DTrgbe))
541		dtype = DTrgbe;
542	+	if ((dtype == DTspec) & (rm->ncomp < 3))
543	+	return(0);
544	+
545	+	if (dtype == DTascii) /* set file type (WINDOWS) */
546	+	SET_FILE_TEXT(fp);
547	+	else
548	+	SET_FILE_BINARY(fp);
549		/* write exposure? */
550		if (rm->ncomp == 3 && (rm->cexp[RED] != rm->cexp[GRN]) \|
551		(rm->cexp[GRN] != rm->cexp[BLU]))
552		fputcolcor(rm->cexp, fp);
553		else if (rm->cexp[GRN] != 1.f)
554		fputexpos(rm->cexp[GRN], fp);
555	<	if ((dtype != DTrgbe) & (dtype != DTxyze)) {
556	<	if (dtype == DTspec) {
557	<	if (rm->ncomp < 3)
580	<	return(0); /* bad # components */
581	<	fputwlsplit(rm->wlpart, fp);
582	<	} else {
555	>	/* matrix size? */
556	>	if ((dtype > DTspec) \| (rm->nrows <= 0)) {
557	>	if (rm->nrows > 0)
558		fprintf(fp, "NROWS=%d\n", rm->nrows);
559	<	fprintf(fp, "NCOLS=%d\n", rm->ncols);
560	<	}
559	>	fprintf(fp, "NCOLS=%d\n", rm->ncols);
560	>	}
561	>	if (dtype >= DTspec) { /* # components & split? */
562		fputncomp(rm->ncomp, fp);
563	+	if (dtype == DTspec \|\| (rm->ncomp > 3 &&
564	+	memcmp(rm->wlpart, WLPART, sizeof(WLPART))))
565	+	fputwlsplit(rm->wlpart, fp);
566		} else if ((rm->ncomp != 3) & (rm->ncomp != 1))
567		return(0); /* wrong # components */
568		if ((dtype == DTfloat) \| (dtype == DTdouble))
569		fputendian(fp); /* important to record */
570		fputformat(cm_fmt_id[dtype], fp);
571	<	fputc('\n', fp);
572	<	switch (dtype) { /* write data */
571	>	fputc('\n', fp); /* end of header */
572	>	if ((dtype <= DTspec) & (rm->nrows > 0))
573	>	fprtresolu(rm->ncols, rm->nrows, fp);
574	>	return(dtype);
575	>	}
576	>
577	>	/* Write out matrix data (usually by row) */
578	>	int
579	>	rmx_write_data(const double dp, int nc, int len, int dtype, FILE fp)
580	>	{
581	>	switch (dtype) {
582		case DTascii:
583	<	ok = rmx_write_ascii(rm, fp);
596	<	break;
583	>	return(rmx_write_ascii(dp, nc, len, fp));
584		case DTfloat:
585	<	ok = rmx_write_float(rm, fp);
599	<	break;
585	>	return(rmx_write_float(dp, nc*len, fp));
586		case DTdouble:
587	<	ok = rmx_write_double(rm, fp);
602	<	break;
587	>	return(putbinary(dp, sizeof(dp)nc, len, fp) == len);
588		case DTrgbe:
589		case DTxyze:
590	<	fprtresolu(rm->ncols, rm->nrows, fp);
606	<	ok = rmx_write_rgbe(rm, fp);
607	<	break;
590	>	return(rmx_write_rgbe(dp, nc, len, fp));
591		case DTspec:
592	<	fprtresolu(rm->ncols, rm->nrows, fp);
610	<	ok = rmx_write_spec(rm, fp);
611	<	break;
612	<	default:
613	<	return(0);
592	>	return(rmx_write_spec(dp, nc, len, fp));
593		}
594	<	ok &= (fflush(fp) == 0);
594	>	return(0);
595	>	}
596	>
597	>	/* Write matrix using file format indicated by dtype */
598	>	int
599	>	rmx_write(const RMATRIX rm, int dtype, FILE fp)
600	>	{
601	>	int ok = 0;
602	>	int i;
603	>	/* complete header */
604	>	dtype = rmx_write_header(rm, dtype, fp);
605	>	if (dtype <= 0)
606	>	return(0);
607		#ifdef getc_unlocked
608	+	flockfile(fp);
609	+	#endif
610	+	if (dtype == DTdouble) /* write all at once? */
611	+	ok = rmx_write_data(rm->mtx, rm->ncomp,
612	+	rm->nrows*rm->ncols, dtype, fp);
613	+	else /* else row by row */
614	+	for (i = 0; i < rm->nrows; i++) {
615	+	ok = rmx_write_data(rmx_val(rm,i,0), rm->ncomp,
616	+	rm->ncols, dtype, fp);
617	+	if (!ok) break;
618	+	}
619	+
620	+	if (ok) ok = (fflush(fp) == 0);
621	+	#ifdef getc_unlocked
622		funlockfile(fp);
623		#endif
624	+	if (!ok) fputs("Error writing matrix\n", stderr);
625		return(ok);
626		}
627
#	Line 637 \| Line 643 \| rmx_identity(const int dim, const int n)
643		return(rid);
644		}
645
646	<	/* Duplicate the given matrix */
646	>	/* Duplicate the given matrix (may be unallocated) */
647		RMATRIX *
648		rmx_copy(const RMATRIX *rm)
649		{
#	Line 645 \| Line 651 \| *rmx_copy(const RMATRIX rm)**
651
652		if (!rm)
653		return(NULL);
654	<	dnew = rmx_alloc(rm->nrows, rm->ncols, rm->ncomp);
654	>	dnew = rmx_new(rm->nrows, rm->ncols, rm->ncomp);
655		if (!dnew)
656		return(NULL);
657	+	if (rm->mtx) {
658	+	if (!rmx_prepare(dnew)) {
659	+	rmx_free(dnew);
660	+	return(NULL);
661	+	}
662	+	memcpy(dnew->mtx, rm->mtx, array_size(dnew));
663	+	}
664		rmx_addinfo(dnew, rm->info);
665		dnew->dtype = rm->dtype;
666		copycolor(dnew->cexp, rm->cexp);
667		memcpy(dnew->wlpart, rm->wlpart, sizeof(dnew->wlpart));
655	–	memcpy(dnew->mtx, rm->mtx, array_size(dnew));
668		return(dnew);
669		}
670
#	Line 663 \| Line 675 \| *rmx_transpose(const RMATRIX rm)**
675		RMATRIX *dnew;
676		int i, j;
677
678	<	if (!rm)
678	>	if (!rm \|\| !rm->mtx)
679		return(0);
680		if ((rm->nrows == 1) \| (rm->ncols == 1)) {
681		dnew = rmx_copy(rm);
#	Line 685 \| Line 697 \| *rmx_transpose(const RMATRIX rm)**
697		memcpy(dnew->wlpart, rm->wlpart, sizeof(dnew->wlpart));
698		for (j = dnew->ncols; j--; )
699		for (i = dnew->nrows; i--; )
700	<	memcpy(rmx_lval(dnew,i,j), rmx_lval(rm,j,i),
700	>	memcpy(rmx_lval(dnew,i,j), rmx_val(rm,j,i),
701		sizeof(double)*dnew->ncomp);
702		return(dnew);
703		}
#	Line 697 \| Line 709 \| *rmx_multiply(const RMATRIX m1, const RMATRIX m2)*
709		RMATRIX *mres;
710		int i, j, k, h;
711
712	<	if (!m1 \| !m2 \|\| (m1->ncomp != m2->ncomp) \| (m1->ncols != m2->nrows))
712	>	if (!m1 \| !m2 \|\| !m1->mtx \| !m2->mtx \|
713	>	(m1->ncomp != m2->ncomp) \| (m1->ncols != m2->nrows))
714		return(NULL);
715		mres = rmx_alloc(m1->nrows, m2->ncols, m1->ncomp);
716		if (!mres)
#	Line 712 \| Line 725 \| *rmx_multiply(const RMATRIX m1, const RMATRIX m2)*
725		for (k = mres->ncomp; k--; ) {
726		double d = 0;
727		for (h = m1->ncols; h--; )
728	<	d += rmx_lval(m1,i,h)[k] * rmx_lval(m2,h,j)[k];
728	>	d += rmx_val(m1,i,h)[k] * rmx_val(m2,h,j)[k];
729		rmx_lval(mres,i,j)[k] = d;
730		}
731		return(mres);
#	Line 725 \| Line 738 \| *rmx_elemult(RMATRIX m1, const RMATRIX m2, int divide*
738		int zeroDivides = 0;
739		int i, j, k;
740
741	<	if (!m1 \| !m2 \|\| (m1->ncols != m2->ncols) \| (m1->nrows != m2->nrows))
741	>	if (!m1 \| !m2 \|\| !m1->mtx \| !m2->mtx \|
742	>	(m1->ncols != m2->ncols) \| (m1->nrows != m2->nrows))
743		return(0);
744		if ((m2->ncomp > 1) & (m2->ncomp != m1->ncomp))
745		return(0);
#	Line 739 \| Line 753 \| *rmx_elemult(RMATRIX m1, const RMATRIX m2, int divide*
753		if (divide) {
754		double d;
755		if (m2->ncomp == 1) {
756	<	d = rmx_lval(m2,i,j)[0];
756	>	d = rmx_val(m2,i,j)[0];
757		if (d == 0) {
758		++zeroDivides;
759		for (k = m1->ncomp; k--; )
#	Line 751 \| Line 765 \| *rmx_elemult(RMATRIX m1, const RMATRIX m2, int divide*
765		}
766		} else
767		for (k = m1->ncomp; k--; ) {
768	<	d = rmx_lval(m2,i,j)[k];
768	>	d = rmx_val(m2,i,j)[k];
769		if (d == 0) {
770		++zeroDivides;
771		rmx_lval(m1,i,j)[k] = 0;
#	Line 760 \| Line 774 \| *rmx_elemult(RMATRIX m1, const RMATRIX m2, int divide*
774		}
775		} else {
776		if (m2->ncomp == 1) {
777	<	const double d = rmx_lval(m2,i,j)[0];
777	>	const double d = rmx_val(m2,i,j)[0];
778		for (k = m1->ncomp; k--; )
779		rmx_lval(m1,i,j)[k] *= d;
780		} else
781		for (k = m1->ncomp; k--; )
782	<	rmx_lval(m1,i,j)[k] *= rmx_lval(m2,i,j)[k];
782	>	rmx_lval(m1,i,j)[k] *= rmx_val(m2,i,j)[k];
783		}
784		if (zeroDivides) {
785		rmx_addinfo(m1, "WARNING: zero divide(s) corrupted results\n");
#	Line 781 \| Line 795 \| *rmx_sum(RMATRIX msum, const RMATRIX madd, const doub*
795		double *mysf = NULL;
796		int i, j, k;
797
798	<	if (!msum \| !madd \|\|
798	>	if (!msum \| !madd \|\| !msum->mtx \| !madd->mtx \|
799		(msum->nrows != madd->nrows) \|
800		(msum->ncols != madd->ncols) \|
801		(msum->ncomp != madd->ncomp))
#	Line 801 \| Line 815 \| *rmx_sum(RMATRIX msum, const RMATRIX madd, const doub*
815		rmx_addinfo(msum, rmx_mismatch_warn);
816		for (i = msum->nrows; i--; )
817		for (j = msum->ncols; j--; ) {
818	<	const double *da = rmx_lval(madd,i,j);
818	>	const double *da = rmx_val(madd,i,j);
819		double *ds = rmx_lval(msum,i,j);
820		for (k = msum->ncomp; k--; )
821		ds[k] += sf[k] * da[k];
#	Line 817 \| Line 831 \| *rmx_scale(RMATRIX rm, const double sf[])**
831		{
832		int i, j, k;
833
834	<	if (!rm \| !sf)
834	>	if (!rm \| !sf \|\| !rm->mtx)
835		return(0);
836		for (i = rm->nrows; i--; )
837		for (j = rm->ncols; j--; ) {
#	Line 838 \| Line 852 \| *rmx_transform(const RMATRIX msrc, int n, const double**
852		int i, j, ks, kd;
853		RMATRIX *dnew;
854
855	<	if (!msrc \| (n <= 0) \| !cmat)
855	>	if (!msrc \| (n <= 0) \| !cmat \|\| !msrc->mtx)
856		return(NULL);
857		dnew = rmx_alloc(msrc->nrows, msrc->ncols, n);
858		if (!dnew)
#	Line 853 \| Line 867 \| *rmx_transform(const RMATRIX msrc, int n, const double**
867		dnew->dtype = msrc->dtype;
868		for (i = dnew->nrows; i--; )
869		for (j = dnew->ncols; j--; ) {
870	<	const double *ds = rmx_lval(msrc,i,j);
870	>	const double *ds = rmx_val(msrc,i,j);
871		for (kd = dnew->ncomp; kd--; ) {
872		double d = 0;
873		for (ks = msrc->ncomp; ks--; )
#	Line 902 \| Line 916 \| *cm_from_rmatrix(const RMATRIX rm)**
916		return(NULL);
917		for (i = cnew->nrows; i--; )
918		for (j = cnew->ncols; j--; ) {
919	<	const double *dp = rmx_lval(rm,i,j);
919	>	const double *dp = rmx_val(rm,i,j);
920		COLORV *cv = cm_lval(cnew,i,j);
921		switch (rm->ncomp) {
922		case 3:

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Comparing ray/src/util/rmatrix.c (file contents): Revision 2.61 by greg, Mon Nov 27 22:04:45 2023 UTC vs. Revision 2.72 by greg, Tue Dec 5 21:45:39 2023 UTC

Diff Legend

Comparing ray/src/util/rmatrix.c (file contents):
Revision 2.61 by greg, Mon Nov 27 22:04:45 2023 UTC vs.
Revision 2.72 by greg, Tue Dec 5 21:45:39 2023 UTC