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

Comparing ray/src/cv/bsdf2ttree.c (file contents):
Revision 2.23 by greg, Tue Nov 26 17:35:59 2013 UTC vs.
Revision 2.34 by greg, Tue Feb 2 22:34:00 2016 UTC

#	Line 13 \| Line 13 \| static const char RCSid[] = "$Id$";
13		#include <math.h>
14		#include "random.h"
15		#include "platform.h"
16	<	#include "rtprocess.h"
16	>	#include "paths.h"
17	>	#include "rtio.h"
18		#include "calcomp.h"
19		#include "bsdfrep.h"
20		/* global argv[0] */
21		char *progname;
22		/* percentage to cull (<0 to turn off) */
23	<	double pctcull = 90.;
23	>	static double pctcull = 90.;
24		/* sampling order */
25	<	int samp_order = 6;
25	>	static int samp_order = 6;
26		/* super-sampling threshold */
27		const double ssamp_thresh = 0.35;
28		/* number of super-samples */
29	<	const int nssamp = 100;
29	>	#ifndef NSSAMP
30	>	#define NSSAMP 100
31	>	#endif
32		/* limit on number of RBF lobes */
33		static int lobe_lim = 15000;
34	+	/* progress bar length */
35	+	static int do_prog = 79;
36
37	<	/* Output XML prologue to stdout */
37	>	#define MAXCARG 512 /* wrapBSDF command */
38	>	static char *wrapBSDF[MAXCARG] = {"wrapBSDF", "-U"};
39	>	static int wbsdfac = 2;
40	>
41	>	/* Add argument to wrapBSDF, allocating space if isstatic */
42		static void
43	<	xml_prologue(int ac, char *av[])
43	>	add_wbsdf(const char *arg, int isstatic)
44		{
45	<	puts("<?xml version=\"1.0\" encoding=\"UTF-8\"?>");
46	<	puts("<WindowElement xmlns=\"http://windows.lbl.gov\" xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\" xsi:schemaLocation=\"http://windows.lbl.gov/BSDF-v1.4.xsd\">");
47	<	fputs("<!-- File produced by:", stdout);
48	<	while (ac-- > 0) {
49	<	fputc(' ', stdout);
50	<	fputs(*av++, stdout);
45	>	if (arg == NULL)
46	>	return;
47	>	if (wbsdfac >= MAXCARG-1) {
48	>	fputs(progname, stderr);
49	>	fputs(": too many command arguments to wrapBSDF\n", stderr);
50	>	exit(1);
51		}
52	<	puts(" -->");
53	<	puts("<WindowElementType>System</WindowElementType>");
54	<	puts("<FileType>BSDF</FileType>");
55	<	puts("<Optical>");
56	<	puts("<Layer>");
57	<	puts("\t<Material>");
49	<	printf("\t\t<Name>%s</Name>\n", bsdf_name[0] ? bsdf_name : "Unknown");
50	<	printf("\t\t<Manufacturer>%s</Manufacturer>\n",
51	<	bsdf_manuf[0] ? bsdf_manuf : "Unknown");
52	<	puts("\t\t<DeviceType>Other</DeviceType>");
53	<	puts("\t</Material>");
54	<	puts("\t<DataDefinition>");
55	<	printf("\t\t<IncidentDataStructure>TensorTree%c</IncidentDataStructure>\n",
56	<	single_plane_incident ? '3' : '4');
57	<	puts("\t</DataDefinition>");
52	>	if (!*arg)
53	>	arg = "";
54	>	else if (!isstatic)
55	>	arg = savqstr((char *)arg);
56	>
57	>	wrapBSDF[wbsdfac++] = (char *)arg;
58		}
59
60	<	/* Output XML data prologue to stdout */
61	<	static void
62	<	data_prologue()
60	>	/* Create Yuv component file and add appropriate arguments */
61	>	static char *
62	>	create_component_file(int c)
63		{
64	<	static const char *bsdf_type[4] = {
65	<	"Reflection Front",
66	<	"Transmission Front",
67	<	"Transmission Back",
68	<	"Reflection Back"
69	<	};
64	>	static const char sname[3][6] = {"CIE-Y", "CIE-u", "CIE-v"};
65	>	static const char cname[4][4] = {"-rf", "-tf", "-tb", "-rb"};
66	>	char *tfname = mktemp(savqstr(TEMPLATE));
67
68	<	puts("\t<WavelengthData>");
69	<	puts("\t\t<LayerNumber>System</LayerNumber>");
70	<	puts("\t\t<Wavelength unit=\"Integral\">Visible</Wavelength>");
71	<	puts("\t\t<SourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum>");
75	<	puts("\t\t<DetectorSpectrum>ASTM E308 1931 Y.dsp</DetectorSpectrum>");
76	<	puts("\t\t<WavelengthDataBlock>");
77	<	printf("\t\t\t<WavelengthDataDirection>%s</WavelengthDataDirection>\n",
78	<	bsdf_type[(input_orient>0)<<1 \| (output_orient>0)]);
79	<	puts("\t\t\t<AngleBasis>LBNL/Shirley-Chiu</AngleBasis>");
80	<	puts("\t\t\t<ScatteringDataType>BTDF</ScatteringDataType>");
81	<	puts("\t\t\t<ScatteringData>");
68	>	add_wbsdf("-s", 1); add_wbsdf(sname[c], 1);
69	>	add_wbsdf(cname[(input_orient>0)<<1 \| (output_orient>0)], 1);
70	>	add_wbsdf(tfname, 1);
71	>	return(tfname);
72		}
73
74	<	/* Output XML data epilogue to stdout */
74	>	/* Start new progress bar */
75	>	#define prog_start(s) if (do_prog) fprintf(stderr, "%s: %s...\n", progname, s); else
76	>
77	>	/* Draw progress bar of the appropriate length */
78		static void
79	<	data_epilogue(void)
79	>	prog_show(double frac)
80		{
81	<	puts("\t\t\t</ScatteringData>");
82	<	puts("\t\t</WavelengthDataBlock>");
83	<	puts("\t</WavelengthData>");
81	>	static unsigned call_cnt = 0;
82	>	static char lastc[] = "-\\\|/";
83	>	char pbar[256];
84	>	int nchars;
85	>
86	>	if (do_prog <= 1) return;
87	>	if (do_prog > sizeof(pbar)-2)
88	>	do_prog = sizeof(pbar)-2;
89	>	if (frac < 0) frac = 0;
90	>	else if (frac >= 1) frac = .9999;
91	>	nchars = do_prog*frac;
92	>	pbar[0] = '\r';
93	>	memset(pbar+1, '*', nchars);
94	>	pbar[nchars+1] = lastc[call_cnt++ & 3];
95	>	memset(pbar+2+nchars, '-', do_prog-nchars-1);
96	>	pbar[do_prog+1] = '\0';
97	>	fputs(pbar, stderr);
98		}
99
100	<	/* Output XML epilogue to stdout */
100	>	/* Finish progress bar */
101		static void
102	<	xml_epilogue(void)
102	>	prog_done(void)
103		{
104	<	puts("</Layer>");
105	<	puts("</Optical>");
106	<	puts("</WindowElement>");
104	>	int n = do_prog;
105	>
106	>	if (n <= 1) return;
107	>	fputc('\r', stderr);
108	>	while (n--)
109	>	fputc(' ', stderr);
110	>	fputc('\r', stderr);
111		}
112
113		/* Compute absolute relative difference */
#	Line 116 \| Line 127 \| static void
127		eval_isotropic(char *funame)
128		{
129		const int sqres = 1<<samp_order;
130	<	FILE *ofp = NULL;
130	>	FILE ofp, uvfp[2];
131		int assignD = 0;
132		char cmd[128];
133		int ix, ox, oy;
134		double iovec[6];
135	<	float bsdf;
135	>	float bsdf, uv[2];
136
126	–	data_prologue(); /* begin output */
137		if (pctcull >= 0) {
138	<	sprintf(cmd, "rttree_reduce -a -h -ff -r 3 -t %f -g %d",
139	<	pctcull, samp_order);
130	<	fflush(stdout);
138	>	sprintf(cmd, "rttree_reduce -a -h -ff -r 3 -t %f -g %d > %s",
139	>	pctcull, samp_order, create_component_file(0));
140		ofp = popen(cmd, "w");
141		if (ofp == NULL) {
142		fprintf(stderr, "%s: cannot create pipe to rttree_reduce\n",
#	Line 135 \| Line 144 \| *eval_isotropic(char funame)**
144		exit(1);
145		}
146		SET_FILE_BINARY(ofp);
147	<	} else
148	<	fputs("{\n", stdout);
147	>	#ifdef getc_unlocked /* avoid lock/unlock overhead */
148	>	flockfile(ofp);
149	>	#endif
150	>	if (rbf_colorimetry == RBCtristimulus) {
151	>	double uvcull = 100. - (100.-pctcull)*.25;
152	>	sprintf(cmd, "rttree_reduce -a -h -ff -r 3 -t %f -g %d > %s",
153	>	uvcull, samp_order, create_component_file(1));
154	>	uvfp[0] = popen(cmd, "w");
155	>	sprintf(cmd, "rttree_reduce -a -h -ff -r 3 -t %f -g %d > %s",
156	>	uvcull, samp_order, create_component_file(2));
157	>	uvfp[1] = popen(cmd, "w");
158	>	if ((uvfp[0] == NULL) \| (uvfp[1] == NULL)) {
159	>	fprintf(stderr, "%s: cannot open pipes to uv output\n",
160	>	progname);
161	>	exit(1);
162	>	}
163	>	SET_FILE_BINARY(uvfp[0]); SET_FILE_BINARY(uvfp[1]);
164	>	#ifdef getc_unlocked
165	>	flockfile(uvfp[0]); flockfile(uvfp[1]);
166	>	#endif
167	>	}
168	>	} else {
169	>	ofp = fopen(create_component_file(0), "w");
170	>	if (ofp == NULL) {
171	>	fprintf(stderr, "%s: cannot create Y output file\n",
172	>	progname);
173	>	exit(1);
174	>	}
175	>	fputs("{\n", ofp);
176	>	if (rbf_colorimetry == RBCtristimulus) {
177	>	uvfp[0] = fopen(create_component_file(1), "w");
178	>	uvfp[1] = fopen(create_component_file(2), "w");
179	>	if ((uvfp[0] == NULL) \| (uvfp[1] == NULL)) {
180	>	fprintf(stderr, "%s: cannot create uv output file(s)\n",
181	>	progname);
182	>	exit(1);
183	>	}
184	>	fputs("{\n", uvfp[0]);
185	>	fputs("{\n", uvfp[1]);
186	>	}
187	>	}
188		/* need to assign Dx, Dy, Dz? */
189		if (funame != NULL)
190		assignD = (fundefined(funame) < 6);
#	Line 154 \| Line 202 \| *eval_isotropic(char funame)**
202		SDsquare2disk(iovec+3, (ox+.5)/sqres, (oy+.5)/sqres);
203		iovec[5] = output_orient *
204		sqrt(1. - iovec[3]iovec[3] - iovec[4]iovec[4]);
205	<	if (funame == NULL)
206	<	bsdf = eval_rbfrep(rbf, iovec+3) *
207	<	output_orient/iovec[5];
208	<	else {
209	<	double ssa[3], ssvec[6], sum;
210	<	int ssi;
205	>	if (funame == NULL) {
206	>	SDValue sdv;
207	>	eval_rbfcol(&sdv, rbf, iovec+3);
208	>	bsdf = sdv.cieY;
209	>	if (rbf_colorimetry == RBCtristimulus) {
210	>	c_ccvt(&sdv.spec, C_CSXY);
211	>	uv[0] = uv[1] = 1. /
212	>	(-2.sdv.spec.cx + 12.sdv.spec.cy + 3.);
213	>	uv[0] = 4.sdv.spec.cx;
214	>	uv[1] = 9.sdv.spec.cy;
215	>	}
216	>	} else {
217		if (assignD) {
218		varset("Dx", '=', -iovec[3]);
219		varset("Dy", '=', -iovec[4]);
#	Line 167 \| Line 221 \| *eval_isotropic(char funame)**
221		++eclock;
222		}
223		bsdf = funvalue(funame, 6, iovec);
224	+	#if (NSSAMP > 0)
225		if (abs_diff(bsdf, last_bsdf) > ssamp_thresh) {
226	<	sum = 0; /* super-sample voxel */
227	<	for (ssi = nssamp; ssi--; ) {
228	<	SDmultiSamp(ssa, 3, (ssi+frandom())/nssamp);
226	>	int ssi;
227	>	double ssa[3], ssvec[6], sum = 0;
228	>	/* super-sample voxel */
229	>	for (ssi = NSSAMP; ssi--; ) {
230	>	SDmultiSamp(ssa, 3, (ssi+frandom()) *
231	>	(1./NSSAMP));
232		ssvec[0] = 2.*(ix+ssa[0])/sqres - 1.;
233		ssvec[1] = .0;
234		ssvec[2] = input_orient *
#	Line 181 \| Line 239 \| *eval_isotropic(char funame)**
239		sqrt(1. - ssvec[3]*ssvec[3] -
240		ssvec[4]*ssvec[4]);
241		if (assignD) {
242	<	varset("Dx", '=', -iovec[3]);
243	<	varset("Dy", '=', -iovec[4]);
244	<	varset("Dz", '=', -iovec[5]);
242	>	varset("Dx", '=', -ssvec[3]);
243	>	varset("Dy", '=', -ssvec[4]);
244	>	varset("Dz", '=', -ssvec[5]);
245		++eclock;
246		}
247		sum += funvalue(funame, 6, ssvec);
248		}
249	<	bsdf = sum/nssamp;
249	>	bsdf = sum/NSSAMP;
250		}
251	+	#endif
252		}
253		if (pctcull >= 0)
254		fwrite(&bsdf, sizeof(bsdf), 1, ofp);
255		else
256	<	printf("\t%.3e\n", bsdf);
256	>	fprintf(ofp, "\t%.3e\n", bsdf);
257	>
258	>	if (rbf_colorimetry == RBCtristimulus) {
259	>	if (pctcull >= 0) {
260	>	fwrite(&uv[0], sizeof(*uv), 1, uvfp[0]);
261	>	fwrite(&uv[1], sizeof(*uv), 1, uvfp[1]);
262	>	} else {
263	>	fprintf(uvfp[0], "\t%.3e\n", uv[0]);
264	>	fprintf(uvfp[1], "\t%.3e\n", uv[1]);
265	>	}
266	>	}
267		last_bsdf = bsdf;
268		}
269		}
270		if (rbf != NULL)
271		free(rbf);
272	+	prog_show((ix+1.)*(2./sqres));
273		}
274		if (pctcull >= 0) { /* finish output */
275		if (pclose(ofp)) {
276	<	fprintf(stderr, "%s: error running '%s'\n",
277	<	progname, cmd);
276	>	fprintf(stderr, "%s: error running rttree_reduce on Y\n",
277	>	progname);
278		exit(1);
279		}
280	+	if (rbf_colorimetry == RBCtristimulus &&
281	+	(pclose(uvfp[0]) \|\| pclose(uvfp[1]))) {
282	+	fprintf(stderr, "%s: error running rttree_reduce on uv\n",
283	+	progname);
284	+	exit(1);
285	+	}
286		} else {
287		for (ix = sqressqressqres/2; ix--; )
288	<	fputs("\t0\n", stdout);
289	<	fputs("}\n", stdout);
288	>	fputs("\t0\n", ofp);
289	>	fputs("}\n", ofp);
290	>	if (fclose(ofp)) {
291	>	fprintf(stderr, "%s: error writing Y file\n",
292	>	progname);
293	>	exit(1);
294	>	}
295	>	if (rbf_colorimetry == RBCtristimulus) {
296	>	for (ix = sqressqressqres/2; ix--; ) {
297	>	fputs("\t0\n", uvfp[0]);
298	>	fputs("\t0\n", uvfp[1]);
299	>	}
300	>	fputs("}\n", uvfp[0]);
301	>	fputs("}\n", uvfp[1]);
302	>	if (fclose(uvfp[0]) \|\| fclose(uvfp[1])) {
303	>	fprintf(stderr, "%s: error writing uv file(s)\n",
304	>	progname);
305	>	exit(1);
306	>	}
307	>	}
308		}
309	<	data_epilogue();
309	>	prog_done();
310		}
311
312		/* Interpolate and output anisotropic BSDF data */
#	Line 220 \| Line 314 \| static void
314		eval_anisotropic(char *funame)
315		{
316		const int sqres = 1<<samp_order;
317	<	FILE *ofp = NULL;
317	>	FILE ofp, uvfp[2];
318		int assignD = 0;
319		char cmd[128];
320		int ix, iy, ox, oy;
321		double iovec[6];
322	<	float bsdf;
322	>	float bsdf, uv[2];
323
230	–	data_prologue(); /* begin output */
324		if (pctcull >= 0) {
325	<	sprintf(cmd, "rttree_reduce%s -h -ff -r 4 -t %f -g %d",
325	>	sprintf(cmd, "rttree_reduce%s -h -ff -r 4 -t %f -g %d > %s",
326		(input_orient>0 ^ output_orient>0) ? "" : " -a",
327	<	pctcull, samp_order);
235	<	fflush(stdout);
327	>	pctcull, samp_order, create_component_file(0));
328		ofp = popen(cmd, "w");
329		if (ofp == NULL) {
330		fprintf(stderr, "%s: cannot create pipe to rttree_reduce\n",
331		progname);
332		exit(1);
333		}
334	<	} else
335	<	fputs("{\n", stdout);
334	>	SET_FILE_BINARY(ofp);
335	>	#ifdef getc_unlocked /* avoid lock/unlock overhead */
336	>	flockfile(ofp);
337	>	#endif
338	>	if (rbf_colorimetry == RBCtristimulus) {
339	>	double uvcull = 100. - (100.-pctcull)*.25;
340	>	sprintf(cmd, "rttree_reduce%s -h -ff -r 4 -t %f -g %d > %s",
341	>	(input_orient>0 ^ output_orient>0) ? "" : " -a",
342	>	uvcull, samp_order, create_component_file(1));
343	>	uvfp[0] = popen(cmd, "w");
344	>	sprintf(cmd, "rttree_reduce%s -h -ff -r 4 -t %f -g %d > %s",
345	>	(input_orient>0 ^ output_orient>0) ? "" : " -a",
346	>	uvcull, samp_order, create_component_file(2));
347	>	uvfp[1] = popen(cmd, "w");
348	>	if ((uvfp[0] == NULL) \| (uvfp[1] == NULL)) {
349	>	fprintf(stderr, "%s: cannot open pipes to uv output\n",
350	>	progname);
351	>	exit(1);
352	>	}
353	>	SET_FILE_BINARY(uvfp[0]); SET_FILE_BINARY(uvfp[1]);
354	>	#ifdef getc_unlocked
355	>	flockfile(uvfp[0]); flockfile(uvfp[1]);
356	>	#endif
357	>	}
358	>	} else {
359	>	ofp = fopen(create_component_file(0), "w");
360	>	if (ofp == NULL) {
361	>	fprintf(stderr, "%s: cannot create Y output file\n",
362	>	progname);
363	>	exit(1);
364	>	}
365	>	fputs("{\n", ofp);
366	>	if (rbf_colorimetry == RBCtristimulus) {
367	>	uvfp[0] = fopen(create_component_file(1), "w");
368	>	uvfp[1] = fopen(create_component_file(2), "w");
369	>	if ((uvfp[0] == NULL) \| (uvfp[1] == NULL)) {
370	>	fprintf(stderr, "%s: cannot create uv output file(s)\n",
371	>	progname);
372	>	exit(1);
373	>	}
374	>	fputs("{\n", uvfp[0]);
375	>	fputs("{\n", uvfp[1]);
376	>	}
377	>	}
378		/* need to assign Dx, Dy, Dz? */
379		if (funame != NULL)
380		assignD = (fundefined(funame) < 6);
#	Line 259 \| Line 393 \| *eval_anisotropic(char funame)**
393		SDsquare2disk(iovec+3, (ox+.5)/sqres, (oy+.5)/sqres);
394		iovec[5] = output_orient *
395		sqrt(1. - iovec[3]iovec[3] - iovec[4]iovec[4]);
396	<	if (funame == NULL)
397	<	bsdf = eval_rbfrep(rbf, iovec+3) *
398	<	output_orient/iovec[5];
399	<	else {
400	<	double ssa[4], ssvec[6], sum;
401	<	int ssi;
396	>	if (funame == NULL) {
397	>	SDValue sdv;
398	>	eval_rbfcol(&sdv, rbf, iovec+3);
399	>	bsdf = sdv.cieY;
400	>	if (rbf_colorimetry == RBCtristimulus) {
401	>	c_ccvt(&sdv.spec, C_CSXY);
402	>	uv[0] = uv[1] = 1. /
403	>	(-2.sdv.spec.cx + 12.sdv.spec.cy + 3.);
404	>	uv[0] = 4.sdv.spec.cx;
405	>	uv[1] = 9.sdv.spec.cy;
406	>	}
407	>	} else {
408		if (assignD) {
409		varset("Dx", '=', -iovec[3]);
410		varset("Dy", '=', -iovec[4]);
#	Line 272 \| Line 412 \| *eval_anisotropic(char funame)**
412		++eclock;
413		}
414		bsdf = funvalue(funame, 6, iovec);
415	+	#if (NSSAMP > 0)
416		if (abs_diff(bsdf, last_bsdf) > ssamp_thresh) {
417	<	sum = 0; /* super-sample voxel */
418	<	for (ssi = nssamp; ssi--; ) {
419	<	SDmultiSamp(ssa, 4, (ssi+frandom())/nssamp);
417	>	int ssi;
418	>	double ssa[4], ssvec[6], sum = 0;
419	>	/* super-sample voxel */
420	>	for (ssi = NSSAMP; ssi--; ) {
421	>	SDmultiSamp(ssa, 4, (ssi+frandom()) *
422	>	(1./NSSAMP));
423		SDsquare2disk(ssvec, 1.-(ix+ssa[0])/sqres,
424		1.-(iy+ssa[1])/sqres);
425	<	ssvec[2] = output_orient *
425	>	ssvec[2] = input_orient *
426		sqrt(1. - ssvec[0]*ssvec[0] -
427		ssvec[1]*ssvec[1]);
428		SDsquare2disk(ssvec+3, (ox+ssa[2])/sqres,
#	Line 287 \| Line 431 \| *eval_anisotropic(char funame)**
431		sqrt(1. - ssvec[3]*ssvec[3] -
432		ssvec[4]*ssvec[4]);
433		if (assignD) {
434	<	varset("Dx", '=', -iovec[3]);
435	<	varset("Dy", '=', -iovec[4]);
436	<	varset("Dz", '=', -iovec[5]);
434	>	varset("Dx", '=', -ssvec[3]);
435	>	varset("Dy", '=', -ssvec[4]);
436	>	varset("Dz", '=', -ssvec[5]);
437		++eclock;
438		}
439		sum += funvalue(funame, 6, ssvec);
440		}
441	<	bsdf = sum/nssamp;
441	>	bsdf = sum/NSSAMP;
442		}
443	+	#endif
444		}
445		if (pctcull >= 0)
446		fwrite(&bsdf, sizeof(bsdf), 1, ofp);
447		else
448	<	printf("\t%.3e\n", bsdf);
448	>	fprintf(ofp, "\t%.3e\n", bsdf);
449	>
450	>	if (rbf_colorimetry == RBCtristimulus) {
451	>	if (pctcull >= 0) {
452	>	fwrite(&uv[0], sizeof(*uv), 1, uvfp[0]);
453	>	fwrite(&uv[1], sizeof(*uv), 1, uvfp[1]);
454	>	} else {
455	>	fprintf(uvfp[0], "\t%.3e\n", uv[0]);
456	>	fprintf(uvfp[1], "\t%.3e\n", uv[1]);
457	>	}
458	>	}
459		last_bsdf = bsdf;
460		}
461		}
462		if (rbf != NULL)
463		free(rbf);
464	+	prog_show((ixsqres+iy+1.)/(sqressqres));
465		}
466		if (pctcull >= 0) { /* finish output */
467		if (pclose(ofp)) {
468	<	fprintf(stderr, "%s: error running '%s'\n",
469	<	progname, cmd);
468	>	fprintf(stderr, "%s: error running rttree_reduce on Y\n",
469	>	progname);
470		exit(1);
471		}
472	<	} else
473	<	fputs("}\n", stdout);
474	<	data_epilogue();
472	>	if (rbf_colorimetry == RBCtristimulus &&
473	>	(pclose(uvfp[0]) \|\| pclose(uvfp[1]))) {
474	>	fprintf(stderr, "%s: error running rttree_reduce on uv\n",
475	>	progname);
476	>	exit(1);
477	>	}
478	>	} else {
479	>	fputs("}\n", ofp);
480	>	if (fclose(ofp)) {
481	>	fprintf(stderr, "%s: error writing Y file\n",
482	>	progname);
483	>	exit(1);
484	>	}
485	>	if (rbf_colorimetry == RBCtristimulus) {
486	>	fputs("}\n", uvfp[0]);
487	>	fputs("}\n", uvfp[1]);
488	>	if (fclose(uvfp[0]) \|\| fclose(uvfp[1])) {
489	>	fprintf(stderr, "%s: error writing uv file(s)\n",
490	>	progname);
491	>	exit(1);
492	>	}
493	>	}
494	>	}
495	>	prog_done();
496		}
497
498	+	#ifdef _WIN32
499	+	/* Execute wrapBSDF command (may never return) */
500	+	static int
501	+	wrap_up(void)
502	+	{
503	+	char cmd[8192];
504	+
505	+	if (bsdf_manuf[0]) {
506	+	add_wbsdf("-f", 1);
507	+	strcpy(cmd, "m=");
508	+	strcpy(cmd+2, bsdf_manuf);
509	+	add_wbsdf(cmd, 0);
510	+	}
511	+	if (bsdf_name[0]) {
512	+	add_wbsdf("-f", 1);
513	+	strcpy(cmd, "n=");
514	+	strcpy(cmd+2, bsdf_name);
515	+	add_wbsdf(cmd, 0);
516	+	}
517	+	if (!convert_commandline(cmd, sizeof(cmd), wrapBSDF)) {
518	+	fputs(progname, stderr);
519	+	fputs(": command line too long in wrap_up()\n", stderr);
520	+	return(1);
521	+	}
522	+	return(system(cmd));
523	+	}
524	+	#else
525	+	/* Execute wrapBSDF command (may never return) */
526	+	static int
527	+	wrap_up(void)
528	+	{
529	+	char buf[256];
530	+	char compath = getpath((char )wrapBSDF[0], getenv("PATH"), X_OK);
531	+
532	+	if (compath == NULL) {
533	+	fprintf(stderr, "%s: cannot locate %s\n", progname, wrapBSDF[0]);
534	+	return(1);
535	+	}
536	+	if (bsdf_manuf[0]) {
537	+	add_wbsdf("-f", 1);
538	+	strcpy(buf, "m=");
539	+	strcpy(buf+2, bsdf_manuf);
540	+	add_wbsdf(buf, 0);
541	+	}
542	+	if (bsdf_name[0]) {
543	+	add_wbsdf("-f", 1);
544	+	strcpy(buf, "n=");
545	+	strcpy(buf+2, bsdf_name);
546	+	add_wbsdf(buf, 0);
547	+	}
548	+	execv(compath, wrapBSDF); /* successful call never returns */
549	+	perror(compath);
550	+	return(1);
551	+	}
552	+	#endif
553	+
554		/* Read in BSDF and interpolate as tensor tree representation */
555		int
556		main(int argc, char *argv[])
557		{
558	+	static char tfmt[2][4] = {"t4", "t3"};
559		int dofwd = 0, dobwd = 1;
560	+	char buf[2048];
561		int i, na;
562
563		progname = argv[0];
#	Line 336 \| Line 571 \| *main(int argc, char argv[])**
571		scompile(argv[++i], NULL, 0);
572		break;
573		case 'f':
574	<	if (!argv[i][2])
575	<	fcompile(argv[++i]);
576	<	else
574	>	if (!argv[i][2]) {
575	>	if (strchr(argv[++i], '=') != NULL) {
576	>	add_wbsdf("-f", 1);
577	>	add_wbsdf(argv[i], 1);
578	>	} else
579	>	fcompile(argv[i]);
580	>	} else
581		dofwd = (argv[i][0] == '+');
582		break;
583		case 'b':
#	Line 365 \| Line 604 \| *main(int argc, char argv[])**
604		case 'l':
605		lobe_lim = atoi(argv[++i]);
606		break;
607	+	case 'p':
608	+	do_prog = atoi(argv[i]+2);
609	+	break;
610	+	case 'W':
611	+	add_wbsdf(argv[i], 1);
612	+	break;
613	+	case 'u':
614	+	case 'C':
615	+	add_wbsdf(argv[i], 1);
616	+	add_wbsdf(argv[++i], 1);
617	+	break;
618		default:
619		goto userr;
620		}
621	+	strcpy(buf, "File produced by: ");
622	+	if (convert_commandline(buf+18, sizeof(buf)-18, argv) != NULL) {
623	+	add_wbsdf("-C", 1); add_wbsdf(buf, 0);
624	+	}
625		if (single_plane_incident >= 0) { /* function-based BSDF? */
626		void (evf)(char s) = single_plane_incident ?
627	<	&eval_isotropic : &eval_anisotropic;
627	>	eval_isotropic : eval_anisotropic;
628		if (i != argc-1 \|\| fundefined(argv[i]) < 3) {
629		fprintf(stderr,
630		"%s: need single function with 6 arguments: bsdf(ix,iy,iz,ox,oy,oz)\n",
631		progname);
632	<	fprintf(stderr, "\tor 3 arguments using Dx,Dy,Dz: bsdf(ix,iy,iz)\n",
379	<	progname);
632	>	fprintf(stderr, "\tor 3 arguments using Dx,Dy,Dz: bsdf(ix,iy,iz)\n");
633		goto userr;
634		}
635		++eclock;
636	<	xml_prologue(argc, argv); /* start XML output */
636	>	add_wbsdf("-a", 1);
637	>	add_wbsdf(tfmt[single_plane_incident], 1);
638		if (dofwd) {
639		input_orient = -1;
640		output_orient = -1;
641	<	(evf)(argv[i]); / outside reflectance */
641	>	prog_start("Evaluating outside reflectance");
642	>	(*evf)(argv[i]);
643		output_orient = 1;
644	<	(evf)(argv[i]); / outside -> inside */
644	>	prog_start("Evaluating outside->inside transmission");
645	>	(*evf)(argv[i]);
646		}
647		if (dobwd) {
648		input_orient = 1;
649		output_orient = 1;
650	<	(evf)(argv[i]); / inside reflectance */
650	>	prog_start("Evaluating inside reflectance");
651	>	(*evf)(argv[i]);
652		output_orient = -1;
653	<	(evf)(argv[i]); / inside -> outside */
653	>	prog_start("Evaluating inside->outside transmission");
654	>	(*evf)(argv[i]);
655		}
656	<	xml_epilogue(); /* finish XML output & exit */
399	<	return(0);
656	>	return(wrap_up());
657		}
658		if (i < argc) { /* open input files if given */
659		int nbsdf = 0;
660		for ( ; i < argc; i++) { /* interpolate each component */
661	+	char pbuf[256];
662		FILE *fpin = fopen(argv[i], "rb");
663		if (fpin == NULL) {
664		fprintf(stderr, "%s: cannot open BSDF interpolant '%s'\n",
#	Line 410 \| Line 668 \| *main(int argc, char argv[])**
668		if (!load_bsdf_rep(fpin))
669		return(1);
670		fclose(fpin);
671	<	if (!nbsdf++) /* start XML on first dist. */
672	<	xml_prologue(argc, argv);
671	>	sprintf(pbuf, "Interpolating component '%s'", argv[i]);
672	>	prog_start(pbuf);
673	>	if (!nbsdf++) {
674	>	add_wbsdf("-a", 1);
675	>	add_wbsdf(tfmt[single_plane_incident], 1);
676	>	}
677		if (single_plane_incident)
678		eval_isotropic(NULL);
679		else
680		eval_anisotropic(NULL);
681		}
682	<	xml_epilogue(); /* finish XML output & exit */
421	<	return(0);
682	>	return(wrap_up());
683		}
684		SET_FILE_BINARY(stdin); /* load from stdin */
685		if (!load_bsdf_rep(stdin))
686		return(1);
687	<	xml_prologue(argc, argv); /* start XML output */
687	>	prog_start("Interpolating from standard input");
688	>	add_wbsdf("-a", 1);
689	>	add_wbsdf(tfmt[single_plane_incident], 1);
690		if (single_plane_incident) /* resample dist. */
691		eval_isotropic(NULL);
692		else
693		eval_anisotropic(NULL);
694	<	xml_epilogue(); /* finish XML output & exit */
695	<	return(0);
694	>
695	>	return(wrap_up());
696		userr:
697		fprintf(stderr,
698		"Usage: %s [-g Nlog2][-t pctcull][-l maxlobes] [bsdf.sir ..] > bsdf.xml\n",

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Comparing ray/src/cv/bsdf2ttree.c (file contents): Revision 2.23 by greg, Tue Nov 26 17:35:59 2013 UTC vs. Revision 2.34 by greg, Tue Feb 2 22:34:00 2016 UTC

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Comparing ray/src/cv/bsdf2ttree.c (file contents):
Revision 2.23 by greg, Tue Nov 26 17:35:59 2013 UTC vs.
Revision 2.34 by greg, Tue Feb 2 22:34:00 2016 UTC