[ViewVC] Diff of: radiance/ray/src/cv/bsdf2rad.c

Comparing ray/src/cv/bsdf2rad.c (file contents):
Revision 2.23 by greg, Tue Apr 11 03:47:23 2017 UTC vs.
Revision 2.32 by greg, Thu Aug 3 19:50:12 2017 UTC

#	Line 26 \| Line 26 \| *double overall_max = .0; / overall maximum BSDF valu**
26
27		char ourTempDir[TEMPLEN] = ""; /* our temporary directory */
28
29	<	const char frpref[] = "frefl";
30	<	const char ftpref[] = "ftrans";
31	<	const char brpref[] = "brefl";
32	<	const char btpref[] = "btrans";
29	>	const char frpref[] = "rf";
30	>	const char ftpref[] = "tf";
31	>	const char brpref[] = "rb";
32	>	const char btpref[] = "tb";
33		const char dsuffix[] = ".txt";
34
35	<	const char sph_mat[] = "BSDFmat";
35	>	const char sph_fmat[] = "fBSDFmat";
36	>	const char sph_bmat[] = "bBSDFmat";
37		const double sph_rad = 10.;
38		const double sph_xoffset = 15.;
39
#	Line 41 \| Line 42 \| const double sph_xoffset = 15.;
42
43		#define FEQ(a,b) ((a)-(b) <= 1e-7 && (b)-(a) <= 1e-7)
44
45	<	#define set_minlog() (min_log10 = log10(overall_min + 1e-5) - .1)
45	>	#define set_minlog() overall_min = (overall_min < 1e-5) ? 1e-5 : overall_min; \
46	>	min_log10 = log10(overall_min) - .1
47
48		char *progname;
49
#	Line 269 \| Line 271 \| build_wRBF(void)
271
272		/* Put out mirror arrow for the given incident vector */
273		static void
274	<	put_mirror_arrow(const FVECT ivec, int inc_side)
274	>	put_mirror_arrow(const FVECT origin, const FVECT nrm)
275		{
276		const double arrow_len = 1.2*bsdf_rad;
277		const double tip_len = 0.2*bsdf_rad;
278	<	FVECT origin, refl;
278	>	static int cnt = 1;
279	>	FVECT refl;
280		int i;
281
282	<	cvt_sposition(origin, ivec, inc_side);
282	>	refl[0] = 2.nrm[2]nrm[0];
283	>	refl[1] = 2.nrm[2]nrm[1];
284	>	refl[2] = 2.nrm[2]nrm[2] - 1.;
285
286	<	refl[0] = -2.ivec[2]ivec[0];
287	<	refl[1] = -2.ivec[2]ivec[1];
283	<	refl[2] = 2.ivec[2]ivec[2] - 1.;
284	<
285	<	printf("\n# Mirror arrow\n");
286	<	printf("\narrow_mat cylinder inc_dir\n0\n0\n7");
286	>	printf("\n# Mirror arrow #%d\n", cnt);
287	>	printf("\nshaft_mat cylinder inc_dir%d\n0\n0\n7", cnt);
288		printf("\n\t%f %f %f\n\t%f %f %f\n\t%f\n",
289		origin[0], origin[1], origin[2]+arrow_len,
290		origin[0], origin[1], origin[2],
291		arrow_rad);
292	<	printf("\narrow_mat cylinder mir_dir\n0\n0\n7");
292	>	printf("\nshaft_mat cylinder mir_dir%d\n0\n0\n7", cnt);
293		printf("\n\t%f %f %f\n\t%f %f %f\n\t%f\n",
294		origin[0], origin[1], origin[2],
295		origin[0] + arrow_len*refl[0],
296		origin[1] + arrow_len*refl[1],
297		origin[2] + arrow_len*refl[2],
298		arrow_rad);
299	<	printf("\narrow_mat cone mir_tip\n0\n0\n8");
299	>	printf("\ntip_mat cone mir_tip%d\n0\n0\n8", cnt);
300		printf("\n\t%f %f %f\n\t%f %f %f\n\t%f 0\n",
301		origin[0] + (arrow_len-.5tip_len)refl[0],
302		origin[1] + (arrow_len-.5tip_len)refl[1],
#	Line 304 \| Line 305 \| put_mirror_arrow(const FVECT ivec, int inc_side)
305		origin[1] + (arrow_len+.5tip_len)refl[1],
306		origin[2] + (arrow_len+.5tip_len)refl[2],
307		2.*arrow_rad);
308	+	++cnt;
309		}
310
311		/* Put out transmitted direction arrow for the given incident vector */
312		static void
313	<	put_trans_arrow(const FVECT ivec, int inc_side)
313	>	put_trans_arrow(const FVECT origin)
314		{
315		const double arrow_len = 1.2*bsdf_rad;
316		const double tip_len = 0.2*bsdf_rad;
317	<	FVECT origin;
317	>	static int cnt = 1;
318		int i;
319
320	<	cvt_sposition(origin, ivec, inc_side);
321	<
320	<	printf("\n# Transmission arrow\n");
321	<	printf("\narrow_mat cylinder trans_dir\n0\n0\n7");
320	>	printf("\n# Transmission arrow #%d\n", cnt);
321	>	printf("\nshaft_mat cylinder trans_dir%d\n0\n0\n7", cnt);
322		printf("\n\t%f %f %f\n\t%f %f %f\n\t%f\n",
323		origin[0], origin[1], origin[2],
324		origin[0], origin[1], origin[2]-arrow_len,
325		arrow_rad);
326	<	printf("\narrow_mat cone trans_tip\n0\n0\n8");
326	>	printf("\ntip_mat cone trans_tip%d\n0\n0\n8", cnt);
327		printf("\n\t%f %f %f\n\t%f %f %f\n\t%f 0\n",
328		origin[0], origin[1], origin[2]-arrow_len+.5*tip_len,
329		origin[0], origin[1], origin[2]-arrow_len-.5*tip_len,
330	<	2.*arrow_rad);
330	>	2.*arrow_rad);
331	>	++cnt;
332		}
333
334		/* Compute rotation (x,y,z) => (xp,yp,zp) */
#	Line 371 \| Line 372 \| static int
372		put_BSDFs(void)
373		{
374		const double scalef = bsdf_rad/(log10(overall_max) - min_log10);
375	<	FVECT ivec, sorg, upv;
375	>	FVECT ivec, sorg, nrm, upv;
376		RREAL vMtx[3][3];
377		char *fname;
378		char cmdbuf[256];
379	<	char xfargs[128];
380	<	int nxfa;
379	>	char rotargs[64];
380	>	int nrota;
381		int i;
382
383		printf("\n# Gensurf output corresponding to %d incident directions\n",
384		NINCIDENT);
385
386	<	printf("\nvoid glow arrow_glow\n0\n0\n4 1 0 1 0\n");
387	<	printf("\nvoid mixfunc arrow_mat\n4 arrow_glow void 0.25 .\n0\n0\n");
386	>	printf("\nvoid glow tip_mat\n0\n0\n4 1 0 1 0\n");
387	>	printf("\nvoid mixfunc shaft_mat\n4 tip_mat void 0.25 .\n0\n0\n");
388
389	<	if (front_comp & SDsampR) /* front reflection */
390	<	for (i = 0; i < NINCIDENT; i++) {
391	<	get_ivector(ivec, i);
392	<	put_mirror_arrow(ivec, 1);
389	>	for (i = 0; i < NINCIDENT; i++) {
390	>	get_ivector(ivec, i);
391	>	nrm[0] = -ivec[0]; nrm[1] = -ivec[1]; nrm[2] = ivec[2];
392	>	upv[0] = nrm[0]nrm[1](nrm[2] - 1.);
393	>	upv[1] = nrm[0]nrm[0] + nrm[1]nrm[1]*nrm[2];
394	>	upv[2] = -nrm[1](nrm[0]nrm[0] + nrm[1]*nrm[1]);
395	>	if (SDcompXform(vMtx, nrm, upv) != SDEnone)
396	>	continue;
397	>	nrota = addrot(rotargs, vMtx[0], vMtx[1], vMtx[2]);
398	>	if (front_comp) {
399		cvt_sposition(sorg, ivec, 1);
393	–	ivec[0] = -ivec[0]; ivec[1] = -ivec[1]; /* normal */
394	–	upv[0] = ivec[0]ivec[1](ivec[2] - 1.);
395	–	upv[1] = ivec[0]ivec[0] + ivec[1]ivec[1]*ivec[2];
396	–	upv[2] = -ivec[1](ivec[0]ivec[0] + ivec[1]*ivec[1]);
397	–	sprintf(xfargs, "-s %f -t %f %f %f", bsdf_rad,
398	–	sorg[0], sorg[1], sorg[2]);
399	–	nxfa = 6;
400		printf("\nvoid colorfunc scale_pat\n");
401	<	printf("%d bsdf_red bsdf_grn bsdf_blu bsdf2rad.cal\n\t%s\n0\n0\n",
402	<	4+nxfa, xfargs);
401	>	printf("10 bsdf_red bsdf_grn bsdf_blu bsdf2rad.cal\n");
402	>	printf("\t-s %f -t %f %f %f\n0\n0\n",
403	>	bsdf_rad, sorg[0], sorg[1], sorg[2]);
404		printf("\nscale_pat glow scale_mat\n0\n0\n4 1 1 1 0\n");
405	<	if (SDcompXform(vMtx, ivec, upv) != SDEnone)
406	<	continue;
407	<	nxfa = addrot(xfargs, vMtx[0], vMtx[1], vMtx[2]);
407	<	sprintf(xfargs+strlen(xfargs), " -s %f -t %f %f %f",
408	<	scalef, sorg[0], sorg[1], sorg[2]);
409	<	nxfa += 6;
405	>	}
406	>	if (front_comp & SDsampR) {
407	>	put_mirror_arrow(sorg, nrm);
408		fname = tfile_name(frpref, dsuffix, i);
409	<	sprintf(cmdbuf, "gensurf scale_mat %s%d %s %s %s %d %d \| xform %s",
409	>	sprintf(cmdbuf,
410	>	"gensurf scale_mat %s%d %s %s %s %d %d \| xform %s -s %f -t %f %f %f",
411		frpref, i, fname, fname, fname, SAMPRES-1, SAMPRES-1,
412	<	xfargs);
412	>	rotargs, scalef, sorg[0], sorg[1], sorg[2]);
413		if (!run_cmd(cmdbuf))
414		return(0);
415		}
416	<	if (front_comp & SDsampT) /* front transmission */
417	<	for (i = 0; i < NINCIDENT; i++) {
419	<	get_ivector(ivec, i);
420	<	put_trans_arrow(ivec, 1);
421	<	cvt_sposition(sorg, ivec, 1);
422	<	ivec[0] = -ivec[0]; ivec[1] = -ivec[1]; /* normal */
423	<	upv[0] = ivec[0]ivec[1](ivec[2] - 1.);
424	<	upv[1] = ivec[0]ivec[0] + ivec[1]ivec[1]*ivec[2];
425	<	upv[2] = -ivec[1](ivec[0]ivec[0] + ivec[1]*ivec[1]);
426	<	sprintf(xfargs, "-s %f -t %f %f %f", bsdf_rad,
427	<	sorg[0], sorg[1], sorg[2]);
428	<	nxfa = 6;
429	<	printf("\nvoid colorfunc scale_pat\n");
430	<	printf("%d bsdf_red bsdf_grn bsdf_blu bsdf2rad.cal\n\t%s\n0\n0\n",
431	<	4+nxfa, xfargs);
432	<	printf("\nscale_pat glow scale_mat\n0\n0\n4 1 1 1 0\n");
433	<	if (SDcompXform(vMtx, ivec, upv) != SDEnone)
434	<	continue;
435	<	nxfa = addrot(xfargs, vMtx[0], vMtx[1], vMtx[2]);
436	<	sprintf(xfargs+strlen(xfargs), " -s %f -t %f %f %f",
437	<	scalef, sorg[0], sorg[1], sorg[2]);
438	<	nxfa += 6;
416	>	if (front_comp & SDsampT) {
417	>	put_trans_arrow(sorg);
418		fname = tfile_name(ftpref, dsuffix, i);
419	<	sprintf(cmdbuf, "gensurf scale_mat %s%d %s %s %s %d %d \| xform -I %s",
419	>	sprintf(cmdbuf,
420	>	"gensurf scale_mat %s%d %s %s %s %d %d \| xform -I %s -s %f -t %f %f %f",
421		ftpref, i, fname, fname, fname, SAMPRES-1, SAMPRES-1,
422	<	xfargs);
422	>	rotargs, scalef, sorg[0], sorg[1], sorg[2]);
423		if (!run_cmd(cmdbuf))
424		return(0);
425		}
426	<	if (back_comp & SDsampR) /* rear reflection */
447	<	for (i = 0; i < NINCIDENT; i++) {
448	<	get_ivector(ivec, i);
449	<	put_mirror_arrow(ivec, -1);
426	>	if (back_comp) {
427		cvt_sposition(sorg, ivec, -1);
451	–	ivec[0] = -ivec[0]; ivec[1] = -ivec[1]; /* normal */
452	–	upv[0] = ivec[0]ivec[1](ivec[2] - 1.);
453	–	upv[1] = ivec[0]ivec[0] + ivec[1]ivec[1]*ivec[2];
454	–	upv[2] = -ivec[1](ivec[0]ivec[0] + ivec[1]*ivec[1]);
455	–	sprintf(xfargs, "-s %f -t %f %f %f", bsdf_rad,
456	–	sorg[0], sorg[1], sorg[2]);
457	–	nxfa = 6;
428		printf("\nvoid colorfunc scale_pat\n");
429	<	printf("%d bsdf_red bsdf_grn bsdf_blu bsdf2rad.cal\n\t%s\n0\n0\n",
430	<	4+nxfa, xfargs);
429	>	printf("10 bsdf_red bsdf_grn bsdf_blu bsdf2rad.cal\n");
430	>	printf("\t-s %f -t %f %f %f\n0\n0\n",
431	>	bsdf_rad, sorg[0], sorg[1], sorg[2]);
432		printf("\nscale_pat glow scale_mat\n0\n0\n4 1 1 1 0\n");
433	<	if (SDcompXform(vMtx, ivec, upv) != SDEnone)
434	<	continue;
435	<	nxfa = addrot(xfargs, vMtx[0], vMtx[1], vMtx[2]);
465	<	sprintf(xfargs+strlen(xfargs), " -s %f -t %f %f %f",
466	<	scalef, sorg[0], sorg[1], sorg[2]);
467	<	nxfa += 6;
433	>	}
434	>	if (back_comp & SDsampR) {
435	>	put_mirror_arrow(sorg, nrm);
436		fname = tfile_name(brpref, dsuffix, i);
437	<	sprintf(cmdbuf, "gensurf scale_mat %s%d %s %s %s %d %d \| xform -I -ry 180 %s",
437	>	sprintf(cmdbuf,
438	>	"gensurf scale_mat %s%d %s %s %s %d %d \| xform -I -ry 180 %s -s %f -t %f %f %f",
439		brpref, i, fname, fname, fname, SAMPRES-1, SAMPRES-1,
440	<	xfargs);
440	>	rotargs, scalef, sorg[0], sorg[1], sorg[2]);
441		if (!run_cmd(cmdbuf))
442		return(0);
443		}
444	<	if (back_comp & SDsampT) /* rear transmission */
445	<	for (i = 0; i < NINCIDENT; i++) {
477	<	get_ivector(ivec, i);
478	<	put_trans_arrow(ivec, -1);
479	<	cvt_sposition(sorg, ivec, -1);
480	<	ivec[0] = -ivec[0]; ivec[1] = -ivec[1]; /* normal */
481	<	upv[0] = ivec[0]ivec[1](ivec[2] - 1.);
482	<	upv[1] = ivec[0]ivec[0] + ivec[1]ivec[1]*ivec[2];
483	<	upv[2] = -ivec[1](ivec[0]ivec[0] + ivec[1]*ivec[1]);
484	<	sprintf(xfargs, "-s %f -t %f %f %f", bsdf_rad,
485	<	sorg[0], sorg[1], sorg[2]);
486	<	nxfa = 6;
487	<	printf("\nvoid colorfunc scale_pat\n");
488	<	printf("%d bsdf_red bsdf_grn bsdf_blu bsdf2rad.cal\n\t%s\n0\n0\n",
489	<	4+nxfa, xfargs);
490	<	printf("\nscale_pat glow scale_mat\n0\n0\n4 1 1 1 0\n");
491	<	if (SDcompXform(vMtx, ivec, upv) != SDEnone)
492	<	continue;
493	<	nxfa = addrot(xfargs, vMtx[0], vMtx[1], vMtx[2]);
494	<	sprintf(xfargs+strlen(xfargs), " -s %f -t %f %f %f",
495	<	scalef, sorg[0], sorg[1], sorg[2]);
496	<	nxfa += 6;
444	>	if (back_comp & SDsampT) {
445	>	put_trans_arrow(sorg);
446		fname = tfile_name(btpref, dsuffix, i);
447	<	sprintf(cmdbuf, "gensurf scale_mat %s%d %s %s %s %d %d \| xform -ry 180 %s",
447	>	sprintf(cmdbuf,
448	>	"gensurf scale_mat %s%d %s %s %s %d %d \| xform -ry 180 %s -s %f -t %f %f %f",
449		btpref, i, fname, fname, fname, SAMPRES-1, SAMPRES-1,
450	<	xfargs);
450	>	rotargs, scalef, sorg[0], sorg[1], sorg[2]);
451		if (!run_cmd(cmdbuf))
452		return(0);
453		}
454	+	}
455		return(1);
456		}
457
#	Line 515 \| Line 466 \| *put_matBSDF(const char XMLfile)**
466		printf("\nvoid brightfunc latlong\n2 latlong bsdf2rad.cal\n0\n0\n");
467		if ((front_comp\|back_comp) & SDsampT)
468		printf("\nlatlong trans %s\n0\n0\n7 .75 .75 .75 0 .04 .5 .8\n",
469	<	sph_mat);
469	>	sph_fmat);
470		else
471		printf("\nlatlong plastic %s\n0\n0\n5 .5 .5 .5 0 0\n",
472	<	sph_mat);
472	>	sph_fmat);
473	>	printf("\ninherit alias %s %s\n", sph_bmat, sph_fmat);
474		return;
475		}
476		switch (XMLfile[0]) { /* avoid RAYPATH search */
477		case '.':
478	+	case '~':
479		CASEDIRSEP:
480		curdir = "";
481		break;
#	Line 531 \| Line 484 \| *put_matBSDF(const char XMLfile)**
484		exit(1);
485		break;
486		}
487	<	printf("\n# Actual BSDF material for rendering the hemispheres\n");
488	<	printf("\nvoid BSDF BSDFmat\n6 0 \"%s%s\" upx upy upz bsdf2rad.cal\n0\n0\n",
487	>	printf("\n# Actual BSDF materials for rendering the hemispheres\n");
488	>	printf("\nvoid BSDF BSDF_f\n6 0 \"%s%s\" upx upy upz bsdf2rad.cal\n0\n0\n",
489		curdir, XMLfile);
490		printf("\nvoid plastic black\n0\n0\n5 0 0 0 0 0\n");
491	<	printf("\nvoid mixfunc %s\n4 BSDFmat black latlong bsdf2rad.cal\n0\n0\n",
492	<	sph_mat);
491	>	printf("\nvoid mixfunc %s\n4 BSDF_f black latlong bsdf2rad.cal\n0\n0\n",
492	>	sph_fmat);
493	>	printf("\nvoid BSDF BSDF_b\n8 0 \"%s%s\" upx upy upz bsdf2rad.cal -ry 180\n0\n0\n",
494	>	curdir, XMLfile);
495	>	printf("\nvoid mixfunc %s\n4 BSDF_b black latlong bsdf2rad.cal\n0\n0\n",
496	>	sph_bmat);
497		}
498
499		/* Put out overhead parallel light source */
#	Line 560 \| Line 517 \| put_hemispheres(void)
517		if (front_comp) {
518		printf(
519		"\n!genrev %s Front \"Rsin(At)\" \"Rcos(At)\" %d -e \"R:%g;A:%f\" -s \| xform -t %g 0 0\n",
520	<	sph_mat, nsegs, sph_rad, 0.495*PI, sph_xoffset);
520	>	sph_fmat, nsegs, sph_rad, 0.5*PI, sph_xoffset);
521		printf("\nvoid brighttext front_text\n3 helvet.fnt . FRONT\n0\n");
522		printf("12\n\t%f %f 0\n\t%f 0 0\n\t0 %f 0\n\t.01 1 -.1\n",
523		-.22sph_rad + sph_xoffset, -1.4sph_rad,
#	Line 576 \| Line 533 \| put_hemispheres(void)
533		if (back_comp) {
534		printf(
535		"\n!genrev %s Back \"Rcos(At)\" \"Rsin(At)\" %d -e \"R:%g;A:%f\" -s \| xform -t %g 0 0\n",
536	<	sph_mat, nsegs, sph_rad, 0.495*PI, -sph_xoffset);
536	>	sph_bmat, nsegs, sph_rad, 0.5*PI, -sph_xoffset);
537		printf("\nvoid brighttext back_text\n3 helvet.fnt . BACK\n0\n");
538		printf("12\n\t%f %f 0\n\t%f 0 0\n\t0 %f 0\n\t.01 1 -.1\n",
539		-.22sph_rad - sph_xoffset, -1.4sph_rad,
#	Line 798 \| Line 755 \| *main(int argc, char argv[])**
755		strcpy(bsdf_manuf, myBSDF.makr);
756		put_matBSDF(argv[1]);
757		} else {
758	<	FILE *fp;
758	>	FILE *fp[4];
759	>	if (argc > 5) {
760	>	fprintf(stderr, "%s: more than 4 hemispheres!\n", progname);
761	>	return(1);
762	>	}
763		for (n = 1; n < argc; n++) {
764	<	fp = fopen(argv[n], "rb");
765	<	if (fp == NULL) {
764	>	fp[n-1] = fopen(argv[n], "rb");
765	>	if (fp[n-1] == NULL) {
766		fprintf(stderr, "%s: cannot open BSDF interpolant '%s'\n",
767		progname, argv[n]);
768		return(1);
769		}
770	<	if (getheader(fp, rbf_headline, NULL) < 0) {
770	>	if (getheader(fp[n-1], rbf_headline, NULL) < 0) {
771		fprintf(stderr, "%s: bad BSDF interpolant '%s'\n",
772		progname, argv[n]);
773		return(1);
774		}
814	–	fclose(fp);
775		}
776		set_minlog();
777		for (n = 1; n < argc; n++) {
778	<	fp = fopen(argv[n], "rb");
779	<	if (!load_bsdf_rep(fp))
778	>	if (fseek(fp[n-1], 0L, SEEK_SET) < 0) {
779	>	fprintf(stderr, "%s: cannot seek on '%s'\n",
780	>	progname, argv[n]);
781		return(1);
782	<	fclose(fp);
782	>	}
783	>	if (!load_bsdf_rep(fp[n-1]))
784	>	return(1);
785	>	fclose(fp[n-1]);
786		if (!build_wRBF())
787		return(1);
788		}
#	Line 829 \| Line 793 \| *main(int argc, char argv[])**
793		put_scale();
794		if (inpXML && myBSDF.mgf)
795		convert_mgf(myBSDF.mgf);
796	<	if (!put_BSDFs())
796	>	if (!put_BSDFs()) /* most of the output happens here */
797		return(1);
798		cleanup_tmp();
799		return(0);

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Comparing ray/src/cv/bsdf2rad.c (file contents): Revision 2.23 by greg, Tue Apr 11 03:47:23 2017 UTC vs. Revision 2.32 by greg, Thu Aug 3 19:50:12 2017 UTC

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Comparing ray/src/cv/bsdf2rad.c (file contents):
Revision 2.23 by greg, Tue Apr 11 03:47:23 2017 UTC vs.
Revision 2.32 by greg, Thu Aug 3 19:50:12 2017 UTC