[ViewVC] Diff of: radiance/ray/src/cv/bsdf2ttree.c

Comparing ray/src/cv/bsdf2ttree.c (file contents):
Revision 2.15 by greg, Wed May 15 03:22:31 2013 UTC vs.
Revision 2.28 by greg, Mon Mar 24 03:50:28 2014 UTC

#	Line 11 \| Line 11 \| static const char RCSid[] = "$Id$";
11		#include <stdio.h>
12		#include <stdlib.h>
13		#include <math.h>
14	+	#include "random.h"
15		#include "platform.h"
16	+	#include "rtprocess.h"
17		#include "calcomp.h"
18		#include "bsdfrep.h"
19		/* global argv[0] */
#	Line 23 \| Line 25 \| int samp_order = 6;
25		/* super-sampling threshold */
26		const double ssamp_thresh = 0.35;
27		/* number of super-samples */
28	<	const int nssamp = 100;
28	>	#ifndef NSSAMP
29	>	#define NSSAMP 100
30	>	#endif
31	>	/* limit on number of RBF lobes */
32	>	static int lobe_lim = 15000;
33	>	/* progress bar length */
34	>	static int do_prog = 79;
35
36	+
37	+	/* Start new progress bar */
38	+	#define prog_start(s) if (do_prog) fprintf(stderr, "%s: %s...\n", progname, s); else
39	+
40	+	/* Draw progress bar of the appropriate length */
41	+	static void
42	+	prog_show(double frac)
43	+	{
44	+	char pbar[256];
45	+	int nchars;
46	+
47	+	if (do_prog <= 0) return;
48	+	if (do_prog > sizeof(pbar)-2)
49	+	do_prog = sizeof(pbar)-2;
50	+	if (frac < 0) frac = 0;
51	+	else if (frac > 1) frac = 1;
52	+	nchars = do_prog*frac + .5;
53	+	pbar[0] = '\r';
54	+	memset(pbar+1, '*', nchars);
55	+	memset(pbar+1+nchars, '-', do_prog-nchars);
56	+	pbar[do_prog+1] = '\0';
57	+	fputs(pbar, stderr);
58	+	}
59	+
60	+	/* Finish progress bar */
61	+	static void
62	+	prog_done(void)
63	+	{
64	+	int n = do_prog;
65	+
66	+	if (n <= 1) return;
67	+	fputc('\r', stderr);
68	+	while (n--)
69	+	fputc(' ', stderr);
70	+	fputc('\r', stderr);
71	+	}
72	+
73		/* Output XML prologue to stdout */
74		static void
75		xml_prologue(int ac, char *av[])
#	Line 42 \| Line 87 \| *xml_prologue(int ac, char av[])**
87		puts("<Optical>");
88		puts("<Layer>");
89		puts("\t<Material>");
90	<	puts("\t\t<Name>Name</Name>");
91	<	puts("\t\t<Manufacturer>Manufacturer</Manufacturer>");
90	>	printf("\t\t<Name>%s</Name>\n", bsdf_name[0] ? bsdf_name : "Unknown");
91	>	printf("\t\t<Manufacturer>%s</Manufacturer>\n",
92	>	bsdf_manuf[0] ? bsdf_manuf : "Unknown");
93		puts("\t\t<DeviceType>Other</DeviceType>");
94		puts("\t</Material>");
95		puts("\t<DataDefinition>");
#	Line 112 \| Line 158 \| *eval_isotropic(char funame)**
158		{
159		const int sqres = 1<<samp_order;
160		FILE *ofp = NULL;
161	+	int assignD = 0;
162		char cmd[128];
163		int ix, ox, oy;
164		double iovec[6];
#	Line 119 \| Line 166 \| *eval_isotropic(char funame)**
166
167		data_prologue(); /* begin output */
168		if (pctcull >= 0) {
169	<	sprintf(cmd, "rttree_reduce -h -a -ff -r 3 -t %f -g %d",
169	>	sprintf(cmd, "rttree_reduce -a -h -ff -r 3 -t %f -g %d",
170		pctcull, samp_order);
171		fflush(stdout);
172		ofp = popen(cmd, "w");
#	Line 129 \| Line 176 \| *eval_isotropic(char funame)**
176		exit(1);
177		}
178		SET_FILE_BINARY(ofp);
179	+	#ifdef getc_unlocked /* avoid lock/unlock overhead */
180	+	flockfile(ofp);
181	+	#endif
182		} else
183		fputs("{\n", stdout);
184	+	/* need to assign Dx, Dy, Dz? */
185	+	if (funame != NULL)
186	+	assignD = (fundefined(funame) < 6);
187		/* run through directions */
188		for (ix = 0; ix < sqres/2; ix++) {
189		RBFNODE *rbf = NULL;
#	Line 138 \| Line 191 \| *eval_isotropic(char funame)**
191		iovec[1] = .0;
192		iovec[2] = input_orient * sqrt(1. - iovec[0]*iovec[0]);
193		if (funame == NULL)
194	<	rbf = advect_rbf(iovec);
194	>	rbf = advect_rbf(iovec, lobe_lim);
195		for (ox = 0; ox < sqres; ox++) {
196		float last_bsdf = -1;
197		for (oy = 0; oy < sqres; oy++) {
#	Line 149 \| Line 202 \| *eval_isotropic(char funame)**
202		bsdf = eval_rbfrep(rbf, iovec+3) *
203		output_orient/iovec[5];
204		else {
205	<	double ssa[3], ssvec[6];
206	<	int ssi;
205	>	if (assignD) {
206	>	varset("Dx", '=', -iovec[3]);
207	>	varset("Dy", '=', -iovec[4]);
208	>	varset("Dz", '=', -iovec[5]);
209	>	++eclock;
210	>	}
211		bsdf = funvalue(funame, 6, iovec);
212	+	#if (NSSAMP > 0)
213		if (abs_diff(bsdf, last_bsdf) > ssamp_thresh) {
214	<	bsdf = 0; /* super-sample voxel */
215	<	for (ssi = nssamp; ssi--; ) {
216	<	SDmultiSamp(ssa, 3, (ssi+drand48())/nssamp);
214	>	int ssi;
215	>	double ssa[3], ssvec[6], sum = 0;
216	>	/* super-sample voxel */
217	>	for (ssi = NSSAMP; ssi--; ) {
218	>	SDmultiSamp(ssa, 3, (ssi+frandom()) *
219	>	(1./NSSAMP));
220		ssvec[0] = 2.*(ix+ssa[0])/sqres - 1.;
221		ssvec[1] = .0;
222		ssvec[2] = input_orient *
#	Line 165 \| Line 226 \| *eval_isotropic(char funame)**
226		ssvec[5] = output_orient *
227		sqrt(1. - ssvec[3]*ssvec[3] -
228		ssvec[4]*ssvec[4]);
229	<	bsdf += funvalue(funame, 6, ssvec);
229	>	if (assignD) {
230	>	varset("Dx", '=', -ssvec[3]);
231	>	varset("Dy", '=', -ssvec[4]);
232	>	varset("Dz", '=', -ssvec[5]);
233	>	++eclock;
234	>	}
235	>	sum += funvalue(funame, 6, ssvec);
236		}
237	<	bsdf /= (float)nssamp;
237	>	bsdf = sum/NSSAMP;
238		}
239	+	#endif
240		}
241		if (pctcull >= 0)
242		fwrite(&bsdf, sizeof(bsdf), 1, ofp);
#	Line 179 \| Line 247 \| *eval_isotropic(char funame)**
247		}
248		if (rbf != NULL)
249		free(rbf);
250	+	prog_show((ix+1.)*(2./sqres));
251		}
252		if (pctcull >= 0) { /* finish output */
253		if (pclose(ofp)) {
#	Line 192 \| Line 261 \| *eval_isotropic(char funame)**
261		fputs("}\n", stdout);
262		}
263		data_epilogue();
264	+	prog_done();
265		}
266
267		/* Interpolate and output anisotropic BSDF data */
#	Line 200 \| Line 270 \| *eval_anisotropic(char funame)**
270		{
271		const int sqres = 1<<samp_order;
272		FILE *ofp = NULL;
273	+	int assignD = 0;
274		char cmd[128];
275		int ix, iy, ox, oy;
276		double iovec[6];
#	Line 207 \| Line 278 \| *eval_anisotropic(char funame)**
278
279		data_prologue(); /* begin output */
280		if (pctcull >= 0) {
281	<	sprintf(cmd, "rttree_reduce -h -a -ff -r 4 -t %f -g %d",
281	>	sprintf(cmd, "rttree_reduce%s -h -ff -r 4 -t %f -g %d",
282	>	(input_orient>0 ^ output_orient>0) ? "" : " -a",
283		pctcull, samp_order);
284		fflush(stdout);
285		ofp = popen(cmd, "w");
#	Line 216 \| Line 288 \| *eval_anisotropic(char funame)**
288		progname);
289		exit(1);
290		}
291	+	SET_FILE_BINARY(ofp);
292	+	#ifdef getc_unlocked /* avoid lock/unlock overhead */
293	+	flockfile(ofp);
294	+	#endif
295		} else
296		fputs("{\n", stdout);
297	+	/* need to assign Dx, Dy, Dz? */
298	+	if (funame != NULL)
299	+	assignD = (fundefined(funame) < 6);
300		/* run through directions */
301		for (ix = 0; ix < sqres; ix++)
302		for (iy = 0; iy < sqres; iy++) {
#	Line 226 \| Line 305 \| *eval_anisotropic(char funame)**
305		iovec[2] = input_orient *
306		sqrt(1. - iovec[0]iovec[0] - iovec[1]iovec[1]);
307		if (funame == NULL)
308	<	rbf = advect_rbf(iovec);
308	>	rbf = advect_rbf(iovec, lobe_lim);
309		for (ox = 0; ox < sqres; ox++) {
310		float last_bsdf = -1;
311		for (oy = 0; oy < sqres; oy++) {
#	Line 237 \| Line 316 \| *eval_anisotropic(char funame)**
316		bsdf = eval_rbfrep(rbf, iovec+3) *
317		output_orient/iovec[5];
318		else {
319	<	double ssa[4], ssvec[6];
320	<	int ssi;
319	>	if (assignD) {
320	>	varset("Dx", '=', -iovec[3]);
321	>	varset("Dy", '=', -iovec[4]);
322	>	varset("Dz", '=', -iovec[5]);
323	>	++eclock;
324	>	}
325		bsdf = funvalue(funame, 6, iovec);
326	+	#if (NSSAMP > 0)
327		if (abs_diff(bsdf, last_bsdf) > ssamp_thresh) {
328	<	bsdf = 0; /* super-sample voxel */
329	<	for (ssi = nssamp; ssi--; ) {
330	<	SDmultiSamp(ssa, 4, (ssi+drand48())/nssamp);
328	>	int ssi;
329	>	double ssa[4], ssvec[6], sum = 0;
330	>	/* super-sample voxel */
331	>	for (ssi = NSSAMP; ssi--; ) {
332	>	SDmultiSamp(ssa, 4, (ssi+frandom()) *
333	>	(1./NSSAMP));
334		SDsquare2disk(ssvec, 1.-(ix+ssa[0])/sqres,
335		1.-(iy+ssa[1])/sqres);
336	<	ssvec[2] = output_orient *
336	>	ssvec[2] = input_orient *
337		sqrt(1. - ssvec[0]*ssvec[0] -
338		ssvec[1]*ssvec[1]);
339		SDsquare2disk(ssvec+3, (ox+ssa[2])/sqres,
#	Line 254 \| Line 341 \| *eval_anisotropic(char funame)**
341		ssvec[5] = output_orient *
342		sqrt(1. - ssvec[3]*ssvec[3] -
343		ssvec[4]*ssvec[4]);
344	<	bsdf += funvalue(funame, 6, ssvec);
344	>	if (assignD) {
345	>	varset("Dx", '=', -ssvec[3]);
346	>	varset("Dy", '=', -ssvec[4]);
347	>	varset("Dz", '=', -ssvec[5]);
348	>	++eclock;
349	>	}
350	>	sum += funvalue(funame, 6, ssvec);
351		}
352	<	bsdf /= (float)nssamp;
352	>	bsdf = sum/NSSAMP;
353		}
354	+	#endif
355		}
356		if (pctcull >= 0)
357		fwrite(&bsdf, sizeof(bsdf), 1, ofp);
#	Line 268 \| Line 362 \| *eval_anisotropic(char funame)**
362		}
363		if (rbf != NULL)
364		free(rbf);
365	+	prog_show((ixsqres+iy+1.)/(sqressqres));
366		}
367		if (pctcull >= 0) { /* finish output */
368		if (pclose(ofp)) {
#	Line 278 \| Line 373 \| *eval_anisotropic(char funame)**
373		} else
374		fputs("}\n", stdout);
375		data_epilogue();
376	+	prog_done();
377		}
378
379		/* Read in BSDF and interpolate as tensor tree representation */
#	Line 324 \| Line 420 \| *main(int argc, char argv[])**
420		case 'g':
421		samp_order = atoi(argv[++i]);
422		break;
423	+	case 'l':
424	+	lobe_lim = atoi(argv[++i]);
425	+	break;
426	+	case 'p':
427	+	do_prog = atoi(argv[i]+2);
428	+	break;
429		default:
430		goto userr;
431		}
432		if (single_plane_incident >= 0) { /* function-based BSDF? */
433		void (evf)(char s) = single_plane_incident ?
434		&eval_isotropic : &eval_anisotropic;
435	<	if (i != argc-1 \|\| fundefined(argv[i]) != 6) {
435	>	if (i != argc-1 \|\| fundefined(argv[i]) < 3) {
436		fprintf(stderr,
437		"%s: need single function with 6 arguments: bsdf(ix,iy,iz,ox,oy,oz)\n",
438		progname);
439	+	fprintf(stderr, "\tor 3 arguments using Dx,Dy,Dz: bsdf(ix,iy,iz)\n");
440		goto userr;
441		}
442	+	++eclock;
443		xml_prologue(argc, argv); /* start XML output */
444		if (dofwd) {
445		input_orient = -1;
446		output_orient = -1;
447	<	(evf)(argv[i]); / outside reflectance */
447	>	prog_start("Evaluating outside reflectance");
448	>	(*evf)(argv[i]);
449		output_orient = 1;
450	<	(evf)(argv[i]); / outside -> inside */
450	>	prog_start("Evaluating outside->inside transmission");
451	>	(*evf)(argv[i]);
452		}
453		if (dobwd) {
454		input_orient = 1;
455		output_orient = 1;
456	<	(evf)(argv[i]); / inside reflectance */
456	>	prog_start("Evaluating inside reflectance");
457	>	(*evf)(argv[i]);
458		output_orient = -1;
459	<	(evf)(argv[i]); / inside -> outside */
459	>	prog_start("Evaluating inside->outside transmission");
460	>	(*evf)(argv[i]);
461		}
462		xml_epilogue(); /* finish XML output & exit */
463		return(0);
#	Line 357 \| Line 465 \| *main(int argc, char argv[])**
465		if (i < argc) { /* open input files if given */
466		int nbsdf = 0;
467		for ( ; i < argc; i++) { /* interpolate each component */
468	+	char pbuf[256];
469		FILE *fpin = fopen(argv[i], "rb");
470		if (fpin == NULL) {
471		fprintf(stderr, "%s: cannot open BSDF interpolant '%s'\n",
#	Line 368 \| Line 477 \| *main(int argc, char argv[])**
477		fclose(fpin);
478		if (!nbsdf++) /* start XML on first dist. */
479		xml_prologue(argc, argv);
480	+	sprintf(pbuf, "Interpolating component '%s'", argv[i]);
481	+	prog_start(pbuf);
482		if (single_plane_incident)
483		eval_isotropic(NULL);
484		else
#	Line 380 \| Line 491 \| *main(int argc, char argv[])**
491		if (!load_bsdf_rep(stdin))
492		return(1);
493		xml_prologue(argc, argv); /* start XML output */
494	+	prog_start("Interpolating from standard input");
495		if (single_plane_incident) /* resample dist. */
496		eval_isotropic(NULL);
497		else
#	Line 388 \| Line 500 \| *main(int argc, char argv[])**
500		return(0);
501		userr:
502		fprintf(stderr,
503	<	"Usage: %s [-g Nlog2][-t pctcull] [bsdf.sir ..] > bsdf.xml\n",
503	>	"Usage: %s [-g Nlog2][-t pctcull][-l maxlobes] [bsdf.sir ..] > bsdf.xml\n",
504		progname);
505		fprintf(stderr,
506		" or: %s -t{3\|4} [-g Nlog2][-t pctcull][{+\|-}for[ward]][{+\|-}b[ackward]][-e expr][-f file] bsdf_func > bsdf.xml\n",

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Comparing ray/src/cv/bsdf2ttree.c (file contents): Revision 2.15 by greg, Wed May 15 03:22:31 2013 UTC vs. Revision 2.28 by greg, Mon Mar 24 03:50:28 2014 UTC

Diff Legend

Comparing ray/src/cv/bsdf2ttree.c (file contents):
Revision 2.15 by greg, Wed May 15 03:22:31 2013 UTC vs.
Revision 2.28 by greg, Mon Mar 24 03:50:28 2014 UTC