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

Comparing ray/src/cv/bsdfrep.c (file contents):
Revision 2.2 by greg, Sat Oct 20 07:02:00 2012 UTC vs.
Revision 2.10 by greg, Sun Nov 18 03:56:39 2012 UTC

#	Line 14 \| Line 14 \| static const char RCSid[] = "$Id$";
14		#include "rtio.h"
15		#include "resolu.h"
16		#include "bsdfrep.h"
17	<	/* which quadrants are represented */
17	>	/* active grid resolution */
18	>	int grid_res = GRIDRES;
19	>
20	>	/* coverage/symmetry using INP_QUAD? flags */
21		int inp_coverage = 0;
22		/* all incident angles in-plane so far? */
23		int single_plane_incident = -1;
#	Line 53 \| Line 56 \| new_input_direction(double new_theta, double new_phi)
56		new_theta = -new_theta;
57		new_phi += 180.;
58		}
59	+	if ((theta_in_deg = new_theta) < 1.0)
60	+	return(1); /* don't rely on phi near normal */
61		while (new_phi < 0)
62		new_phi += 360.;
63		while (new_phi >= 360.)
#	Line 61 \| Line 66 \| new_input_direction(double new_theta, double new_phi)
66		single_plane_incident = (round(new_phi) == round(phi_in_deg));
67		else if (single_plane_incident < 0)
68		single_plane_incident = 1;
64	–	theta_in_deg = new_theta; /* assume it's OK */
69		phi_in_deg = new_phi;
70		if ((1. < new_phi) & (new_phi < 89.))
71		inp_coverage \|= INP_QUAD1;
#	Line 168 \| Line 172 \| *rev_rbf_symmetry(RBFNODE rbf, int sym)**
172		rev_symmetry(rbf->invec, sym);
173		if (sym & MIRROR_X)
174		for (n = rbf->nrbf; n-- > 0; )
175	<	rbf->rbfa[n].gx = GRIDRES-1 - rbf->rbfa[n].gx;
175	>	rbf->rbfa[n].gx = grid_res-1 - rbf->rbfa[n].gx;
176		if (sym & MIRROR_Y)
177		for (n = rbf->nrbf; n-- > 0; )
178	<	rbf->rbfa[n].gy = GRIDRES-1 - rbf->rbfa[n].gy;
178	>	rbf->rbfa[n].gy = grid_res-1 - rbf->rbfa[n].gy;
179		}
180
181	+	/* Rotate RBF to correspond to given incident vector */
182	+	void
183	+	rotate_rbf(RBFNODE *rbf, const FVECT invec)
184	+	{
185	+	static const FVECT vnorm = {.0, .0, 1.};
186	+	const double phi = atan2(invec[1],invec[0]) -
187	+	atan2(rbf->invec[1],rbf->invec[0]);
188	+	FVECT outvec;
189	+	int pos[2];
190	+	int n;
191	+
192	+	for (n = ((-.01 > phi) \| (phi > .01))*rbf->nrbf; n-- > 0; ) {
193	+	ovec_from_pos(outvec, rbf->rbfa[n].gx, rbf->rbfa[n].gy);
194	+	spinvector(outvec, outvec, vnorm, phi);
195	+	pos_from_vec(pos, outvec);
196	+	rbf->rbfa[n].gx = pos[0];
197	+	rbf->rbfa[n].gy = pos[1];
198	+	}
199	+	VCOPY(rbf->invec, invec);
200	+	}
201	+
202		/* Compute volume associated with Gaussian lobe */
203		double
204		rbf_volume(const RBFVAL *rbfp)
#	Line 190 \| Line 215 \| ovec_from_pos(FVECT vec, int xpos, int ypos)
215		double uv[2];
216		double r2;
217
218	<	SDsquare2disk(uv, (1./GRIDRES)(xpos+.5), (1./GRIDRES)(ypos+.5));
218	>	SDsquare2disk(uv, (xpos+.5)/grid_res, (ypos+.5)/grid_res);
219		/* uniform hemispherical projection */
220		r2 = uv[0]uv[0] + uv[1]uv[1];
221		vec[0] = vec[1] = sqrt(2. - r2);
#	Line 208 \| Line 233 \| pos_from_vec(int pos[2], const FVECT vec)
233
234		SDdisk2square(sq, vec[0]norm, vec[1]norm);
235
236	<	pos[0] = (int)(sq[0]*GRIDRES);
237	<	pos[1] = (int)(sq[1]*GRIDRES);
236	>	pos[0] = (int)(sq[0]*grid_res);
237	>	pos[1] = (int)(sq[1]*grid_res);
238		}
239
240		/* Evaluate RBF for DSF at the given normalized outgoing direction */
241		double
242		eval_rbfrep(const RBFNODE *rp, const FVECT outvec)
243		{
244	<	double res = .0;
244	>	double res = 0;
245		const RBFVAL *rbfp;
246		FVECT odir;
247		double sig2;
#	Line 281 \| Line 306 \| get_dsf(int ord)
306		RBFNODE *rbf;
307
308		for (rbf = dsf_list; rbf != NULL; rbf = rbf->next)
309	<	if (rbf->ord == ord);
309	>	if (rbf->ord == ord)
310		return(rbf);
311		return(NULL);
312		}
#	Line 312 \| Line 337 \| is_rev_tri(const FVECT v1, const FVECT v2, const FVECT
337		int
338		get_triangles(RBFNODE rbfv[2], const MIGRATION mig)
339		{
340	<	const MIGRATION ej, ej2;
340	>	const MIGRATION ej1, ej2;
341		RBFNODE *tv;
342
343		rbfv[0] = rbfv[1] = NULL;
344		if (mig == NULL)
345		return(0);
346	<	for (ej = mig->rbfv[0]->ejl; ej != NULL;
347	<	ej = nextedge(mig->rbfv[0],ej)) {
348	<	if (ej == mig)
346	>	for (ej1 = mig->rbfv[0]->ejl; ej1 != NULL;
347	>	ej1 = nextedge(mig->rbfv[0],ej1)) {
348	>	if (ej1 == mig)
349		continue;
350	<	tv = opp_rbf(mig->rbfv[0],ej);
350	>	tv = opp_rbf(mig->rbfv[0],ej1);
351		for (ej2 = tv->ejl; ej2 != NULL; ej2 = nextedge(tv,ej2))
352		if (opp_rbf(tv,ej2) == mig->rbfv[1]) {
353		rbfv[is_rev_tri(mig->rbfv[0]->invec,
#	Line 334 \| Line 359 \| *get_triangles(RBFNODE rbfv[2], const MIGRATION mig)*
359		return((rbfv[0] != NULL) + (rbfv[1] != NULL));
360		}
361
362	+	/* Clear our BSDF representation and free memory */
363	+	void
364	+	clear_bsdf_rep(void)
365	+	{
366	+	while (mig_list != NULL) {
367	+	MIGRATION *mig = mig_list;
368	+	mig_list = mig->next;
369	+	free(mig);
370	+	}
371	+	while (dsf_list != NULL) {
372	+	RBFNODE *rbf = dsf_list;
373	+	dsf_list = rbf->next;
374	+	free(rbf);
375	+	}
376	+	inp_coverage = 0;
377	+	single_plane_incident = -1;
378	+	input_orient = output_orient = 0;
379	+	grid_res = GRIDRES;
380	+	}
381	+
382		/* Write our BSDF mesh interpolant out to the given binary stream */
383		void
384		save_bsdf_rep(FILE *ofp)
#	Line 344 \| Line 389 \| *save_bsdf_rep(FILE ofp)**
389		/* finish header */
390		fprintf(ofp, "SYMMETRY=%d\n", !single_plane_incident * inp_coverage);
391		fprintf(ofp, "IO_SIDES= %d %d\n", input_orient, output_orient);
392	+	fprintf(ofp, "GRIDRES=%d\n", grid_res);
393		fputformat(BSDFREP_FMT, ofp);
394		fputc('\n', ofp);
395		/* write each DSF */
#	Line 370 \| Line 416 \| *save_bsdf_rep(FILE ofp)**
416		/* write out as sparse data */
417		n = mtx_nrows(mig) * mtx_ncols(mig);
418		for (i = 0; i < n; i++) {
419	<	if (zerocnt >= 0xff) {
420	<	putint(zerocnt, 1, ofp); zerocnt = 0;
419	>	if (zerocnt == 0xff) {
420	>	putint(0xff, 1, ofp); zerocnt = 0;
421		}
422		if (mig->mtx[i] != 0) {
423		putint(zerocnt, 1, ofp); zerocnt = 0;
#	Line 405 \| Line 451 \| *headline(char s, void p)*
451		sscanf(s+9, "%d %d", &input_orient, &output_orient);
452		return(0);
453		}
454	+	if (!strncmp(s, "GRIDRES=", 8)) {
455	+	sscanf(s+8, "%d", &grid_res);
456	+	return(0);
457	+	}
458		if (formatval(fmt, s) && strcmp(fmt, BSDFREP_FMT))
459		return(-1);
460		return(0);
#	Line 417 \| Line 467 \| *load_bsdf_rep(FILE ifp)**
467		RBFNODE rbfh;
468		int from_ord, to_ord;
469		int i;
470	<	#ifdef DEBUG
471	<	if ((dsf_list != NULL) \| (mig_list != NULL)) {
472	<	fprintf(stderr,
423	<	"%s: attempt to load BSDF interpolant over existing\n",
424	<	progname);
470	>
471	>	clear_bsdf_rep();
472	>	if (ifp == NULL)
473		return(0);
426	–	}
427	–	#endif
428	–	input_orient = output_orient = 0;
429	–	single_plane_incident = -1;
474		if (getheader(ifp, headline, NULL) < 0 \|\| single_plane_incident < 0 \|
475		!input_orient \| !output_orient) {
476		fprintf(stderr, "%s: missing/bad format for BSDF interpolant\n",
#	Line 441 \| Line 485 \| *load_bsdf_rep(FILE ifp)**
485		rbfh.invec[0] = getflt(ifp);
486		rbfh.invec[1] = getflt(ifp);
487		rbfh.invec[2] = getflt(ifp);
488	<	rbfh.nrbf = getint(4, ifp);
489	<	if (!new_input_vector(rbfh.invec))
488	>	if (normalize(rbfh.invec) == 0) {
489	>	fprintf(stderr, "%s: zero incident vector\n", progname);
490		return(0);
491	+	}
492	+	rbfh.vtotal = getflt(ifp);
493	+	rbfh.nrbf = getint(4, ifp);
494		newrbf = (RBFNODE *)malloc(sizeof(RBFNODE) +
495		sizeof(RBFVAL)*(rbfh.nrbf-1));
496		if (newrbf == NULL)
497		goto memerr;
498	<	memcpy(newrbf, &rbfh, sizeof(RBFNODE));
498	>	memcpy(newrbf, &rbfh, sizeof(RBFNODE)-sizeof(RBFVAL));
499		for (i = 0; i < rbfh.nrbf; i++) {
500		newrbf->rbfa[i].peak = getflt(ifp);
501		newrbf->rbfa[i].crad = getint(2, ifp) & 0xffff;
#	Line 487 \| Line 534 \| *load_bsdf_rep(FILE ifp)**
534		memset(newmig->mtx, 0, sizeof(float)*n);
535		for (i = 0; ; ) { /* read sparse data */
536		int zc = getint(1, ifp) & 0xff;
490	–	if (zc == 0xff) {
491	–	i += 0xff;
492	–	continue;
493	–	}
537		if ((i += zc) >= n)
538		break;
539	+	if (zc == 0xff)
540	+	continue;
541		newmig->mtx[i++] = getflt(ifp);
542		}
543		if (feof(ifp))

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Comparing ray/src/cv/bsdfrep.c (file contents): Revision 2.2 by greg, Sat Oct 20 07:02:00 2012 UTC vs. Revision 2.10 by greg, Sun Nov 18 03:56:39 2012 UTC

Diff Legend

Comparing ray/src/cv/bsdfrep.c (file contents):
Revision 2.2 by greg, Sat Oct 20 07:02:00 2012 UTC vs.
Revision 2.10 by greg, Sun Nov 18 03:56:39 2012 UTC