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

Comparing src/util/dctimestep.c (file contents):
Revision 2.13 by greg, Thu Jul 1 22:44:25 2010 UTC vs.
Revision 2.27 by greg, Sat Jan 19 22:30:55 2013 UTC

#	Line 10 \| Line 10 \| static const char RCSid[] = "$Id$";
10		#include <ctype.h>
11		#include "standard.h"
12		#include "platform.h"
13	+	#include "paths.h"
14		#include "color.h"
15		#include "resolu.h"
16		#include "bsdf.h"
17	+	#include "bsdf_m.h"
18
19		char progname; / global argv[0] */
20
#	Line 105 \| Line 107 \| *getDTfromHeader(FILE fp)**
107		static CMATRIX *
108		cm_load(const char *fname, int nrows, int ncols, int dtype)
109		{
108	–	CMATRIX *cm;
110		FILE *fp = stdin;
111	+	CMATRIX *cm;
112
113		if (ncols <= 0)
114		error(USER, "Non-positive number of columns");
#	Line 116 \| Line 118 \| *cm_load(const char fname, int nrows, int ncols, int d**
118		sprintf(errmsg, "cannot open file '%s'", fname);
119		error(SYSTEM, errmsg);
120		}
121	+	#ifdef getc_unlocked
122	+	flockfile(fp);
123	+	#endif
124		if (dtype != DTascii)
125	<	SET_FILE_BINARY(fp);
125	>	SET_FILE_BINARY(fp); /* doesn't really work */
126		if (dtype == DTfromHeader)
127		dtype = getDTfromHeader(fp);
128		switch (dtype) {
#	Line 156 \| Line 161 \| *cm_load(const char fname, int nrows, int ncols, int d**
161		cm = cm_alloc(guessrows, ncols);
162		} else
163		cm = cm_alloc(nrows, ncols);
164	<	if (cm == NULL)
164	>	if (cm == NULL) /* XXX never happens */
165		return(NULL);
166		if (dtype == DTascii) { /* read text file */
167		int maxrow = (nrows > 0 ? nrows : 32000);
#	Line 231 \| Line 236 \| *cm_load(const char fname, int nrows, int ncols, int d**
236		cvp += 3;
237		}
238		}
239	<	if (getc(fp) != EOF) {
239	>	if (fgetc(fp) != EOF) {
240		sprintf(errmsg,
241		"unexpected data at end of binary file %s",
242		fname);
#	Line 240 \| Line 245 \| *cm_load(const char fname, int nrows, int ncols, int d**
245		}
246		if (fp != stdin)
247		fclose(fp);
248	+	#ifdef getc_unlocked
249	+	else
250	+	funlockfile(fp);
251	+	#endif
252		return(cm);
253		EOFerror:
254	<	sprintf(errmsg, "unexpected EOF reading %s",
246	<	fname);
254	>	sprintf(errmsg, "unexpected EOF reading %s", fname);
255		error(USER, errmsg);
256		not_handled:
257		error(INTERNAL, "unhandled data size or length in cm_load()");
258		return(NULL); /* gratis return */
259		}
260
261	<	/* Multiply two matrices (or a matrix and a vector) and allocate the result*/
261	>	/* Extract a column vector from a matrix */
262		static CMATRIX *
263	+	cm_column(const CMATRIX *cm, int c)
264	+	{
265	+	CMATRIX *cvr;
266	+	int dr;
267	+
268	+	if ((c < 0) \| (c >= cm->ncols))
269	+	error(INTERNAL, "column requested outside matrix");
270	+	cvr = cm_alloc(cm->nrows, 1);
271	+	if (cvr == NULL)
272	+	return(NULL);
273	+	for (dr = 0; dr < cm->nrows; dr++) {
274	+	const COLORV *sp = cm_lval(cm,dr,c);
275	+	COLORV *dp = cv_lval(cvr,dr);
276	+	dp[0] = sp[0];
277	+	dp[1] = sp[1];
278	+	dp[2] = sp[2];
279	+	}
280	+	return(cvr);
281	+	}
282	+
283	+	/* Scale a matrix by a single value */
284	+	static CMATRIX *
285	+	cm_scale(const CMATRIX *cm1, const COLOR sca)
286	+	{
287	+	CMATRIX *cmr;
288	+	int dr, dc;
289	+
290	+	cmr = cm_alloc(cm1->nrows, cm1->ncols);
291	+	if (cmr == NULL)
292	+	return(NULL);
293	+	for (dr = 0; dr < cmr->nrows; dr++)
294	+	for (dc = 0; dc < cmr->ncols; dc++) {
295	+	const COLORV *sp = cm_lval(cm1,dr,dc);
296	+	COLORV *dp = cm_lval(cmr,dr,dc);
297	+	dp[0] = sp[0] * sca[0];
298	+	dp[1] = sp[1] * sca[1];
299	+	dp[2] = sp[2] * sca[2];
300	+	}
301	+	return(cmr);
302	+	}
303	+
304	+	/* Multiply two matrices (or a matrix and a vector) and allocate the result */
305	+	static CMATRIX *
306		cm_multiply(const CMATRIX cm1, const CMATRIX cm2)
307		{
308	+	char rowcheck=NULL, colcheck=NULL;
309		CMATRIX *cmr;
310		int dr, dc, i;
311
#	Line 262 \| Line 314 \| *cm_multiply(const CMATRIX cm1, const CMATRIX cm2)*
314		cmr = cm_alloc(cm1->nrows, cm2->ncols);
315		if (cmr == NULL)
316		return(NULL);
317	+	/* optimization: check for zero rows & cols */
318	+	if (((cm1->nrows > 5) \| (cm2->ncols > 5)) & (cm1->ncols > 5)) {
319	+	static const COLOR czero;
320	+	rowcheck = (char *)calloc(cmr->nrows, 1);
321	+	for (dr = cm1->nrows*(rowcheck != NULL); dr--; )
322	+	for (dc = cm1->ncols; dc--; )
323	+	if (memcmp(cm_lval(cm1,dr,dc), czero, sizeof(COLOR))) {
324	+	rowcheck[dr] = 1;
325	+	break;
326	+	}
327	+	colcheck = (char *)calloc(cmr->ncols, 1);
328	+	for (dc = cm2->ncols*(colcheck != NULL); dc--; )
329	+	for (dr = cm2->nrows; dr--; )
330	+	if (memcmp(cm_lval(cm2,dr,dc), czero, sizeof(COLOR))) {
331	+	colcheck[dc] = 1;
332	+	break;
333	+	}
334	+	}
335		for (dr = 0; dr < cmr->nrows; dr++)
336		for (dc = 0; dc < cmr->ncols; dc++) {
337		COLORV *dp = cm_lval(cmr,dr,dc);
338		dp[0] = dp[1] = dp[2] = 0;
339	+	if (rowcheck != NULL && !rowcheck[dr])
340	+	continue;
341	+	if (colcheck != NULL && !colcheck[dc])
342	+	continue;
343		for (i = 0; i < cm1->ncols; i++) {
344		const COLORV *cp1 = cm_lval(cm1,dr,i);
345		const COLORV *cp2 = cm_lval(cm2,i,dc);
#	Line 274 \| Line 348 \| *cm_multiply(const CMATRIX cm1, const CMATRIX cm2)*
348		dp[2] += cp1[2] * cp2[2];
349		}
350		}
351	+	if (rowcheck != NULL) free(rowcheck);
352	+	if (colcheck != NULL) free(colcheck);
353		return(cmr);
354		}
355
#	Line 291 \| Line 367 \| *cm_print(const CMATRIX cm, FILE fp)*
367		}
368		}
369
370	<	/* convert a BSDF to our matrix representation */
370	>	/* Convert a BSDF to our matrix representation */
371		static CMATRIX *
372	<	cm_bsdf(const struct BSDF_data *bsdf)
372	>	cm_bsdf(const COLOR bsdfLamb, const COLOR specCol, const SDMat *bsdf)
373		{
374		CMATRIX *cm = cm_alloc(bsdf->nout, bsdf->ninc);
375		int nbadohm = 0;
376		int nneg = 0;
377		int r, c;
378	<
378	>	/* loop over incident angles */
379		for (c = 0; c < cm->ncols; c++) {
380	<	float dom = getBSDF_incohm(bsdf,c);
381	<	FVECT v;
382	<
307	<	if (dom <= .0) {
308	<	nbadohm++;
309	<	continue;
310	<	}
311	<	if (!getBSDF_incvec(v,bsdf,c) \|\| v[2] > FTINY)
312	<	error(USER, "illegal incoming BTDF direction");
313	<	dom *= -v[2];
380	>	const double dom = mBSDF_incohm(bsdf,c);
381	>	/* projected solid angle */
382	>	nbadohm += (dom <= 0);
383
384		for (r = 0; r < cm->nrows; r++) {
385	<	float f = BSDF_value(bsdf,c,r);
385	>	float f = mBSDF_value(bsdf,c,r);
386		COLORV *mp = cm_lval(cm,r,c);
387	+	/* check BSDF value */
388	+	if ((f <= 0) \| (dom <= 0)) {
389	+	nneg += (f < -FTINY);
390	+	f = .0f;
391	+	}
392	+	copycolor(mp, specCol);
393	+	scalecolor(mp, f);
394	+	addcolor(mp, bsdfLamb);
395	+	scalecolor(mp, dom);
396	+	}
397	+	}
398	+	if (nneg \| nbadohm) {
399	+	sprintf(errmsg,
400	+	"BTDF has %d negatives and %d bad incoming solid angles",
401	+	nneg, nbadohm);
402	+	error(WARNING, errmsg);
403	+	}
404	+	return(cm);
405	+	}
406
407	<	if (f <= .0) {
407	>	/* Convert between input and output indices for reciprocity */
408	>	static int
409	>	recip_out_from_in(const SDMat *bsdf, int in_recip)
410	>	{
411	>	FVECT v;
412	>
413	>	if (!mBSDF_incvec(v, bsdf, in_recip+.5))
414	>	return(in_recip); /* XXX should be error! */
415	>	v[2] = -v[2];
416	>	return(mBSDF_outndx(bsdf, v));
417	>	}
418	>
419	>	/* Convert between output and input indices for reciprocity */
420	>	static int
421	>	recip_in_from_out(const SDMat *bsdf, int out_recip)
422	>	{
423	>	FVECT v;
424	>
425	>	if (!mBSDF_outvec(v, bsdf, out_recip+.5))
426	>	return(out_recip); /* XXX should be error! */
427	>	v[2] = -v[2];
428	>	return(mBSDF_incndx(bsdf, v));
429	>	}
430	>
431	>	/* Convert a BSDF to our matrix representation, applying reciprocity */
432	>	static CMATRIX *
433	>	cm_bsdf_recip(const COLOR bsdfLamb, const COLOR specCol, const SDMat *bsdf)
434	>	{
435	>	CMATRIX *cm = cm_alloc(bsdf->ninc, bsdf->nout);
436	>	int nbadohm = 0;
437	>	int nneg = 0;
438	>	int r, c;
439	>	/* loop over incident angles */
440	>	for (c = 0; c < cm->ncols; c++) {
441	>	const int ro = recip_out_from_in(bsdf,c);
442	>	const double dom = mBSDF_outohm(bsdf,ro);
443	>	/* projected solid angle */
444	>	nbadohm += (dom <= 0);
445	>
446	>	for (r = 0; r < cm->nrows; r++) {
447	>	const int ri = recip_in_from_out(bsdf,r);
448	>	float f = mBSDF_value(bsdf,ri,ro);
449	>	COLORV *mp = cm_lval(cm,r,c);
450	>	/* check BSDF value */
451	>	if ((f <= 0) \| (dom <= 0)) {
452		nneg += (f < -FTINY);
453		f = .0f;
454		}
455	<	mp[0] = mp[1] = mp[2] = f * dom;
455	>	copycolor(mp, specCol);
456	>	scalecolor(mp, f);
457	>	addcolor(mp, bsdfLamb);
458	>	scalecolor(mp, dom);
459		}
460		}
461	<	if (nneg \|\| nbadohm) {
461	>	if (nneg \| nbadohm) {
462		sprintf(errmsg,
463		"BTDF has %d negatives and %d bad incoming solid angles",
464		nneg, nbadohm);
#	Line 332 \| Line 467 \| *cm_bsdf(const struct BSDF_data bsdf)**
467		return(cm);
468		}
469
470	<	/* Sum together a set of images and write result to stdout */
470	>	/* Load and convert a matrix BSDF from the given XML file */
471	>	static CMATRIX *
472	>	cm_loadBSDF(char *fname, COLOR cLamb)
473	>	{
474	>	CMATRIX *Tmat;
475	>	char *fpath;
476	>	int recip;
477	>	SDError ec;
478	>	SDData myBSDF;
479	>	SDSpectralDF *tdf;
480	>	COLOR bsdfLamb, specCol;
481	>	/* find path to BSDF file */
482	>	fpath = getpath(fname, getrlibpath(), R_OK);
483	>	if (fpath == NULL) {
484	>	sprintf(errmsg, "cannot find BSDF file '%s'", fname);
485	>	error(USER, errmsg);
486	>	}
487	>	SDclearBSDF(&myBSDF, fname); /* load XML and check type */
488	>	ec = SDloadFile(&myBSDF, fpath);
489	>	if (ec)
490	>	error(USER, transSDError(ec));
491	>	ccy2rgb(&myBSDF.tLamb.spec, myBSDF.tLamb.cieY/PI, bsdfLamb);
492	>	recip = (myBSDF.tb == NULL);
493	>	tdf = recip ? myBSDF.tf : myBSDF.tb;
494	>	if (tdf == NULL) { /* no non-Lambertian transmission? */
495	>	if (cLamb != NULL)
496	>	copycolor(cLamb, bsdfLamb);
497	>	SDfreeBSDF(&myBSDF);
498	>	return(NULL);
499	>	}
500	>	if (tdf->ncomp != 1 \|\| tdf->comp[0].func != &SDhandleMtx) {
501	>	sprintf(errmsg, "unsupported BSDF '%s'", fpath);
502	>	error(USER, errmsg);
503	>	}
504	>	/* convert BTDF to matrix */
505	>	ccy2rgb(&tdf->comp[0].cspec[0], 1., specCol);
506	>	Tmat = recip ? cm_bsdf_recip(bsdfLamb, specCol, (SDMat *)tdf->comp[0].dist)
507	>	: cm_bsdf(bsdfLamb, specCol, (SDMat *)tdf->comp[0].dist);
508	>	if (cLamb != NULL) /* Lambertian is included */
509	>	setcolor(cLamb, .0, .0, .0);
510	>	/* free BSDF and return */
511	>	SDfreeBSDF(&myBSDF);
512	>	return(Tmat);
513	>	}
514	>
515	>	/* Sum together a set of images and write result to fout */
516		static int
517		sum_images(const char fspec, const CMATRIX cv, FILE *fout)
518		{
519		int myDT = DTfromHeader;
520	<	CMATRIX *pmat;
521	<	COLOR *scanline;
522	<	int myXR, myYR;
520	>	COLOR *scanline = NULL;
521	>	CMATRIX *pmat = NULL;
522	>	int myXR=0, myYR=0;
523		int i, y;
524
525		if (cv->ncols != 1)
#	Line 350 \| Line 530 \| *sum_images(const char fspec, const CMATRIX cv, FILE*
530		FILE *fp;
531		int dt, xr, yr;
532		COLORV *psp;
533	+	/* check for zero */
534	+	if ((scv[RED] == 0) & (scv[GRN] == 0) & (scv[BLU] == 0) &&
535	+	(myDT != DTfromHeader) \| (i < cv->nrows-1))
536	+	continue;
537		/* open next picture */
538		sprintf(fname, fspec, i);
539		if ((fp = fopen(fname, "r")) == NULL) {
#	Line 410 \| Line 594 \| *sum_images(const char fspec, const CMATRIX cv, FILE*
594		static int
595		hasNumberFormat(const char *s)
596		{
597	<	while (s && s != '%')
414	<	s++;
415	<	if (!*s)
597	>	if (s == NULL)
598		return(0);
417	–	do
418	–	++s;
419	–	while (isdigit(*s));
599
600	<	return(s == 'd' \| s == 'i' \| s == 'o' \| s == 'x' \| *s == 'X');
600	>	while (*s) {
601	>	while (*s != '%')
602	>	if (!*s++)
603	>	return(0);
604	>	if (++s == '%') { / ignore "%%" */
605	>	++s;
606	>	continue;
607	>	}
608	>	while (isdigit(s)) / field length */
609	>	++s;
610	>	/* field we'll use? */
611	>	if ((s == 'd') \| (s == 'i') \| (*s == 'o') \|
612	>	(s == 'x') \| (s == 'X'))
613	>	return(1);
614	>	}
615	>	return(0); /* didn't find one */
616		}
617
618		int
619		main(int argc, char *argv[])
620		{
621	<	CMATRIX *cvec;
621	>	int skyfmt = DTascii;
622	>	int nsteps = 1;
623	>	char *ofspec = NULL;
624	>	FILE *ofp = stdout;
625	>	CMATRIX cmtx; / component vector/matrix result */
626	>	char fnbuf[256];
627	>	int a, i;
628
629		progname = argv[0];
630	+	/* get options */
631	+	for (a = 1; a < argc && argv[a][0] == '-'; a++)
632	+	switch (argv[a][1]) {
633	+	case 'n':
634	+	nsteps = atoi(argv[++a]);
635	+	if (nsteps <= 0)
636	+	goto userr;
637	+	break;
638	+	case 'o':
639	+	ofspec = argv[++a];
640	+	break;
641	+	case 'i':
642	+	switch (argv[a][2]) {
643	+	case 'f':
644	+	skyfmt = DTfloat;
645	+	break;
646	+	case 'd':
647	+	skyfmt = DTdouble;
648	+	break;
649	+	case 'a':
650	+	skyfmt = DTascii;
651	+	break;
652	+	default:
653	+	goto userr;
654	+	}
655	+	break;
656	+	default:
657	+	goto userr;
658	+	}
659	+	if ((argc-a < 1) \| (argc-a > 4))
660	+	goto userr;
661
662	<	if ((argc < 2) \| (argc > 5)) {
663	<	fprintf(stderr, "Usage: %s DCspec [tregvec]\n", progname);
664	<	fprintf(stderr, " or: %s Vspec Tbsdf.xml Dmat.dat [tregvec]\n",
665	<	progname);
666	<	return(1);
436	<	}
437	<
438	<	if (argc > 3) { /* VTDs expression */
439	<	CMATRIX svec, Dmat, Tmat, ivec;
440	<	struct BSDF_data *btdf;
441	<	/* get sky vector */
442	<	svec = cm_load(argv[4], 0, 1, DTascii);
662	>	if (argc-a > 2) { /* VTDs expression */
663	>	CMATRIX smtx, Dmat, Tmat, imtx;
664	>	COLOR tLamb;
665	>	/* get sky vector/matrix */
666	>	smtx = cm_load(argv[a+3], 0, nsteps, skyfmt);
667		/* load BSDF */
668	<	btdf = load_BSDF(argv[2]);
445	<	if (btdf == NULL)
446	<	return(1);
668	>	Tmat = cm_loadBSDF(argv[a+1], tLamb);
669		/* load Daylight matrix */
670	<	Dmat = cm_load(argv[3], btdf->ninc, svec->nrows, DTfromHeader);
670	>	Dmat = cm_load(argv[a+2], Tmat==NULL ? 0 : Tmat->ncols,
671	>	smtx->nrows, DTfromHeader);
672		/* multiply vector through */
673	<	ivec = cm_multiply(Dmat, svec);
674	<	cm_free(Dmat); cm_free(svec);
675	<	Tmat = cm_bsdf(btdf); /* convert BTDF to matrix */
676	<	free_BSDF(btdf);
677	<	cvec = cm_multiply(Tmat, ivec); /* cvec = component vector */
678	<	cm_free(Tmat); cm_free(ivec);
679	<	} else { /* else just use sky vector */
680	<	cvec = cm_load(argv[2], 0, 1, DTascii);
673	>	imtx = cm_multiply(Dmat, smtx);
674	>	cm_free(Dmat); cm_free(smtx);
675	>	if (Tmat == NULL) { /* diffuse only */
676	>	cmtx = cm_scale(imtx, tLamb);
677	>	} else { /* else apply BTDF matrix */
678	>	cmtx = cm_multiply(Tmat, imtx);
679	>	cm_free(Tmat);
680	>	}
681	>	cm_free(imtx);
682	>	} else { /* sky vector/matrix only */
683	>	cmtx = cm_load(argv[a+1], 0, nsteps, skyfmt);
684		}
685	<
686	<	if (hasNumberFormat(argv[1])) { /* generating image */
687	<	SET_FILE_BINARY(stdout);
688	<	newheader("RADIANCE", stdout);
689	<	printargs(argc, argv, stdout);
690	<	fputnow(stdout);
691	<	if (!sum_images(argv[1], cvec, stdout))
685	>	/* prepare output stream */
686	>	if ((ofspec != NULL) & (nsteps == 1) && hasNumberFormat(ofspec)) {
687	>	sprintf(fnbuf, ofspec, 1);
688	>	ofspec = fnbuf;
689	>	}
690	>	if (ofspec != NULL && !hasNumberFormat(ofspec)) {
691	>	if ((ofp = fopen(ofspec, "w")) == NULL) {
692	>	fprintf(stderr, "%s: cannot open '%s' for output\n",
693	>	progname, ofspec);
694		return(1);
695	<	} else { /* generating vector */
696	<	CMATRIX *Vmat = cm_load(argv[1], 0, cvec->nrows, DTfromHeader);
697	<	CMATRIX *rvec = cm_multiply(Vmat, cvec);
695	>	}
696	>	ofspec = NULL; /* only need to open once */
697	>	}
698	>	if (hasNumberFormat(argv[a])) { /* generating image(s) */
699	>	if (ofspec == NULL) {
700	>	SET_FILE_BINARY(ofp);
701	>	newheader("RADIANCE", ofp);
702	>	printargs(argc, argv, ofp);
703	>	fputnow(ofp);
704	>	}
705	>	if (nsteps > 1) /* multiple output frames? */
706	>	for (i = 0; i < nsteps; i++) {
707	>	CMATRIX *cvec = cm_column(cmtx, i);
708	>	if (ofspec != NULL) {
709	>	sprintf(fnbuf, ofspec, i+1);
710	>	if ((ofp = fopen(fnbuf, "wb")) == NULL) {
711	>	fprintf(stderr,
712	>	"%s: cannot open '%s' for output\n",
713	>	progname, fnbuf);
714	>	return(1);
715	>	}
716	>	newheader("RADIANCE", ofp);
717	>	printargs(argc, argv, ofp);
718	>	fputnow(ofp);
719	>	}
720	>	fprintf(ofp, "FRAME=%d\n", i+1);
721	>	if (!sum_images(argv[a], cvec, ofp))
722	>	return(1);
723	>	if (ofspec != NULL) {
724	>	if (fclose(ofp) == EOF) {
725	>	fprintf(stderr,
726	>	"%s: error writing to '%s'\n",
727	>	progname, fnbuf);
728	>	return(1);
729	>	}
730	>	ofp = stdout;
731	>	}
732	>	cm_free(cvec);
733	>	}
734	>	else if (!sum_images(argv[a], cmtx, ofp))
735	>	return(1);
736	>	} else { /* generating vector/matrix */
737	>	CMATRIX *Vmat = cm_load(argv[a], 0, cmtx->nrows, DTfromHeader);
738	>	CMATRIX *rmtx = cm_multiply(Vmat, cmtx);
739		cm_free(Vmat);
740	<	cm_print(rvec, stdout);
741	<	cm_free(rvec);
740	>	if (ofspec != NULL) /* multiple vector files? */
741	>	for (i = 0; i < nsteps; i++) {
742	>	CMATRIX *rvec = cm_column(rmtx, i);
743	>	sprintf(fnbuf, ofspec, i+1);
744	>	if ((ofp = fopen(fnbuf, "w")) == NULL) {
745	>	fprintf(stderr,
746	>	"%s: cannot open '%s' for output\n",
747	>	progname, fnbuf);
748	>	return(1);
749	>	}
750	>	cm_print(rvec, ofp);
751	>	if (fclose(ofp) == EOF) {
752	>	fprintf(stderr,
753	>	"%s: error writing to '%s'\n",
754	>	progname, fnbuf);
755	>	return(1);
756	>	}
757	>	ofp = stdout;
758	>	cm_free(rvec);
759	>	}
760	>	else
761	>	cm_print(rmtx, ofp);
762	>	cm_free(rmtx);
763		}
764	<	cm_free(cvec); /* final clean-up */
764	>	if (fflush(ofp) == EOF) { /* final clean-up */
765	>	fprintf(stderr, "%s: write error on output\n", progname);
766	>	return(1);
767	>	}
768	>	cm_free(cmtx);
769		return(0);
770	+	userr:
771	+	fprintf(stderr, "Usage: %s [-n nsteps][-o ospec][-i{f\|d}] DCspec [skyf]\n",
772	+	progname);
773	+	fprintf(stderr, " or: %s [-n nsteps][-o ospec][-i{f\|d}] Vspec Tbsdf.xml Dmat.dat [skyf]\n",
774	+	progname);
775	+	return(1);
776		}

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Comparing src/util/dctimestep.c (file contents): Revision 2.13 by greg, Thu Jul 1 22:44:25 2010 UTC vs. Revision 2.27 by greg, Sat Jan 19 22:30:55 2013 UTC

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Comparing src/util/dctimestep.c (file contents):
Revision 2.13 by greg, Thu Jul 1 22:44:25 2010 UTC vs.
Revision 2.27 by greg, Sat Jan 19 22:30:55 2013 UTC