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

Comparing ray/src/util/rsensor.c (file contents):
Revision 2.8 by greg, Sun Sep 26 15:41:46 2010 UTC vs.
Revision 2.12 by greg, Mon Sep 26 15:33:29 2011 UTC

#	Line 34 \| Line 34 \| *int nprocs = 1; / number of rendering processes**
34		float sensor = NULL; / current sensor data */
35		int sntp[2]; /* number of sensor theta and phi angles */
36		float maxtheta; /* maximum theta value for this sensor */
37	<	float tvals[MAXNT+1]; /* theta values (1-D table of 1-cos(t)) */
38	<	float pvals = NULL; / phi values (2-D table in radians) */
37	>	float tvals[MAXNT+1]; /* theta prob. values (1-D table of 1-cos(t)) */
38	>	float pvals = NULL; / phi prob. values (2-D table in radians) */
39		int ntheta = 0; /* polar angle divisions */
40		int nphi = 0; /* azimuthal angle divisions */
41		double gscale = 1.; /* global scaling value */
#	Line 207 \| Line 207 \| load_sensor(
207		char *sfile
208		)
209		{
210	+	int warnedneg;
211		char linebuf[8192];
212		int nelem = 1000;
213		float sarr = (float )malloc(sizeof(float)*nelem);
#	Line 235 \| Line 236 \| load_sensor(
236		cp = fskip(cp);
237		if (cp == NULL)
238		break;
239	+	if (ntp[1] > 1 && sarr[ntp[1]+1] <= sarr[ntp[1]]) {
240	+	sprintf(errmsg,
241	+	"Phi values not monotinically increasing in sensor file '%s'",
242	+	sfile);
243	+	error(USER, errmsg);
244	+	}
245		++ntp[1];
246		}
247	+	warnedneg = 0;
248		ntp[0] = 0; /* get thetas + data */
249		while (fgets(linebuf, sizeof(linebuf), fp) != NULL) {
250		++ntp[0];
#	Line 254 \| Line 262 \| load_sensor(
262		cp = fskip(cp);
263		if (cp == NULL)
264		break;
265	+	if (i && sarr[i] < .0) {
266	+	if (!warnedneg++) {
267	+	sprintf(errmsg,
268	+	"Negative value(s) in sensor file '%s' (ignored)\n", sfile);
269	+	error(WARNING, errmsg);
270	+	}
271	+	sarr[i] = .0;
272	+	}
273		++i;
274		}
275		if (i == ntp[0]*(ntp[1]+1))
276		break;
277	+	if (ntp[0] > 1 && sarr[ntp[0]*(ntp[1]+1)] <=
278	+	sarr[(ntp[0]-1)*(ntp[1]+1)]) {
279	+	sprintf(errmsg,
280	+	"Theta values not monotinically increasing in sensor file '%s'",
281	+	sfile);
282	+	error(USER, errmsg);
283	+	}
284		if (i != (ntp[0]+1)*(ntp[1]+1)) {
285		sprintf(errmsg,
286		"bad column count near line %d in sensor file '%s'",
#	Line 327 \| Line 350 \| init_ptable(
350		error(INTERNAL, errmsg);
351		}
352		/* compute boundary angles */
353	<	maxtheta = 1.5fs_theta(sntp[0]-1) - 0.5fs_theta(sntp[0]-2);
353	>	maxtheta = DEGREE(1.5fs_theta(sntp[0]-1) - 0.5f*s_theta(sntp[0]-2));
354	>	if (maxtheta > PI)
355	>	maxtheta = PI;
356		thdiv[0] = .0;
357		for (t = 1; t < sntp[0]; t++)
358		thdiv[t] = DEGREE/2.*(s_theta(t-1) + s_theta(t));
359	<	thdiv[sntp[0]] = maxtheta*DEGREE;
360	<	phdiv[0] = .0;
359	>	thdiv[sntp[0]] = maxtheta;
360	>	phdiv[0] = DEGREE(1.5fs_phi(0) - 0.5f*s_phi(1));
361		for (p = 1; p < sntp[1]; p++)
362		phdiv[p] = DEGREE/2.*(s_phi(p-1) + s_phi(p));
363	<	phdiv[sntp[1]] = 2.*PI;
363	>	phdiv[sntp[1]] = DEGREE(1.5fs_phi(sntp[1]-1) - 0.5f*s_phi(sntp[1]-2));
364		/* size our table */
365	<	tsize = 1. - cos(maxtheta*DEGREE);
366	<	psize = PItsize/(maxthetaDEGREE);
365	>	tsize = 1. - cos(maxtheta);
366	>	psize = PI*tsize/maxtheta;
367		if (sntp[0]sntp[1] < samptot) / don't overdo resolution */
368		samptot = sntp[0]*sntp[1];
369		ntheta = (int)(sqrt((double)samptot*tsize/psize) + 0.5);
370		if (ntheta > MAXNT)
371		ntheta = MAXNT;
372		nphi = samptot/ntheta;
373	<	pvals = (float )malloc(sizeof(float)ntheta*(nphi+1));
373	>	pvals = (float )malloc(sizeof(float)(ntheta+1)*(nphi+1));
374		if (pvals == NULL)
375		error(SYSTEM, "out of memory in init_ptable()");
376		gscale = .0; /* compute our inverse table */
377		for (i = 0; i < sntp[0]; i++) {
378		rowp = &s_val(i,0);
379	<	rowsum[i] = 0.;
379	>	rowsum[i] = 1e-20;
380		for (j = 0; j < sntp[1]; j++)
381		rowsum[i] += *rowp++;
382		rowomega[i] = cos(thdiv[i]) - cos(thdiv[i+1]);
383		rowomega[i] = 2.PI / (double)sntp[1];
384		gscale += rowsum[i] * rowomega[i];
385		}
386	+	if (gscale <= FTINY) {
387	+	sprintf(errmsg, "Sensor values sum to zero in file '%s'", sfile);
388	+	error(USER, errmsg);
389	+	}
390		for (i = 0; i < ntheta; i++) {
391		prob = (double)i / (double)ntheta;
392		for (t = 0; t < sntp[0]; t++)
#	Line 369 \| Line 398 \| init_ptable(
398		tvals[i] = 1. - ( (1.-frac)*cos(thdiv[t]) +
399		frac*cos(thdiv[t+1]) );
400		/* offset b/c sensor values are centered */
401	<	if (t <= 0 \|\| frac > 0.5)
401	>	if (!t \|\| (t < sntp[0]-1) & (frac >= 0.5))
402		frac -= 0.5;
403	<	else if (t >= sntp[0]-1 \|\| frac < 0.5) {
403	>	else {
404		frac += 0.5;
405		--t;
406		}
407	<	pvals[i*(nphi+1)] = .0f;
407	>	pvals[i*(nphi+1)] = phdiv[0];
408		for (j = 1; j < nphi; j++) {
409		prob = (double)j / (double)nphi;
410		rowp = &s_val(t,0);
411		rowp1 = &s_val(t+1,0);
412	<	for (p = 0; p < sntp[1]; p++) {
412	>	for (p = 0; p < sntp[1]; p++)
413		if ((prob -= (1.-frac)*rowp[p]/rowsum[t] +
414		frac*rowp1[p]/rowsum[t+1]) <= .0)
415		break;
416	<	if (p >= sntp[1])
417	<	error(INTERNAL,
418	<	"code error 2 in init_ptable()");
390	<	frac1 = 1. + prob/((1.-frac)*rowp[p]/rowsum[t]
391	<	+ frac*rowp1[p]/rowsum[t+1]);
392	<	pvals[i(nphi+1) + j] = (1.-frac1)phdiv[p] +
393	<	frac1*phdiv[p+1];
416	>	if (p >= sntp[1]) { /* should never happen? */
417	>	p = sntp[1] - 1;
418	>	prob = .5;
419		}
420	+	frac1 = 1. + prob/((1.-frac)*rowp[p]/rowsum[t]
421	+	+ frac*rowp1[p]/rowsum[t+1]);
422	+	pvals[i(nphi+1) + j] = (1.-frac1)phdiv[p] +
423	+	frac1*phdiv[p+1];
424		}
425	<	pvals[i(nphi+1) + nphi] = (float)(2.PI);
425	>	pvals[i*(nphi+1) + nphi] = phdiv[sntp[1]];
426		}
427		tvals[0] = .0f;
428		tvals[ntheta] = (float)tsize;
#	Line 441 \| Line 470 \| sens_val(
470		int t, p;
471
472		dv[2] = DOT(dvec, ourview.vdir);
473	<	theta = (float)((1./DEGREE) * acos(dv[2]));
473	>	theta = acos(dv[2]);
474		if (theta >= maxtheta)
475		return(.0f);
476		dv[0] = DOT(dvec, ourview.hvec);
477		dv[1] = DOT(dvec, ourview.vvec);
478	<	phi = (float)((1./DEGREE) * atan2(-dv[0], dv[1]));
479	<	while (phi < .0f) phi += 360.f;
478	>	phi = atan2(-dv[0], dv[1]);
479	>	while (phi < .0f) phi += (float)(2.*PI);
480		t = (int)(theta/maxtheta * sntp[0]);
481	<	p = (int)(phi(1./360.) sntp[1]);
481	>	p = (int)(phi(1./(2.PI)) * sntp[1]);
482		/* hack for non-uniform sensor grid */
483	+	theta *= (float)(1./DEGREE);
484	+	phi *= (float)(1./DEGREE);
485		while (t+1 < sntp[0] && theta >= s_theta(t+1))
486		++t;
487		while (t-1 >= 0 && theta <= s_theta(t-1))
#	Line 513 \| Line 544 \| comp_sensor(
544		continue;
545		}
546		rr.rmax = .0;
547	<	rayorigin(&rr, PRIMARY, NULL, NULL);
547	>	rayorigin(&rr, PRIMARY\|SPECULAR, NULL, NULL);
548		scalecolor(rr.rcoef, sf);
549		if (ray_pqueue(&rr) == 1)
550		addcolor(vsum, rr.rcol);
#	Line 529 \| Line 560 \| comp_sensor(
560		continue;
561		}
562		rr.rmax = .0;
563	<	rayorigin(&rr, PRIMARY, NULL, NULL);
563	>	rayorigin(&rr, PRIMARY\|SPECULAR, NULL, NULL);
564		scalecolor(rr.rcoef, sf);
565		if (ray_pqueue(&rr) == 1)
566		addcolor(vsum, rr.rcol);

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Comparing ray/src/util/rsensor.c (file contents): Revision 2.8 by greg, Sun Sep 26 15:41:46 2010 UTC vs. Revision 2.12 by greg, Mon Sep 26 15:33:29 2011 UTC

Diff Legend

Comparing ray/src/util/rsensor.c (file contents):
Revision 2.8 by greg, Sun Sep 26 15:41:46 2010 UTC vs.
Revision 2.12 by greg, Mon Sep 26 15:33:29 2011 UTC