[ViewVC] Diff of: radiance/ray/src/rt/ambcomp.c

Comparing ray/src/rt/ambcomp.c (file contents):
Revision 2.28 by greg, Sat Apr 19 19:20:47 2014 UTC vs.
Revision 2.29 by greg, Wed Apr 23 06:04:17 2014 UTC

#	Line 96 \| Line 96 \| *ambsample( / sample an ambient direction /*
96		{
97		struct s_ambsamp *ap = &ambsamp(hp,i,j);
98		RAY ar;
99	–	int hlist[3];
99		double spt[2], zd;
100		int ii;
101		/* ambient coefficient for weight */
#	Line 128 \| Line 127 \| *ambsample( / sample an ambient direction /*
127		multcolor(ar.rcol, ar.rcoef); /* apply coefficient */
128		copycolor(ap->v, ar.rcol);
129		if (ar.rt > 20.0maxarad) / limit vertex distance */
130	<	ar.rt = 20.0*maxarad;
131	<	VSUM(ap->p, ar.rorg, ar.rdir, ar.rt);
130	>	VSUM(ap->p, ar.rorg, ar.rdir, 20.0*maxarad);
131	>	else
132	>	VCOPY(ap->p, ar.rop);
133		return(ap);
134		}
135
#	Line 146 \| Line 146 \| *comp_fftri(FFTRI ftp, float ap0[3], float ap1[3], FVE**
146		VSUB(ftp->e_i, ap1, ap0);
147		VCROSS(v1, ftp->e_i, ftp->r_i);
148		ftp->nf = 1.0/DOT(v1,v1);
149	–	VCROSS(v1, ftp->r_i, ftp->r_i1);
150	–	ftp->I1 = sqrt(DOT(v1,v1)*ftp->nf);
149		dot_e = DOT(ftp->e_i,ftp->e_i);
150		dot_er = DOT(ftp->e_i, ftp->r_i);
151		dot_r = DOT(ftp->r_i,ftp->r_i);
152		dot_r1 = DOT(ftp->r_i1,ftp->r_i1);
153	+	ftp->I1 = acos( DOT(ftp->r_i, ftp->r_i1) / sqrt(dot_rdot_r1) )
154	+	sqrt( ftp->nf );
155		ftp->I2 = ( DOT(ftp->e_i, ftp->r_i1)/dot_r1 - dot_er/dot_r +
156		dot_eftp->I1 )0.5*ftp->nf;
157	<	ftp->J2 = 0.25ftp->nf( 1.0/dot_r - 1.0/dot_r1 ) -
157	>	ftp->J2 = 0.5/dot_e*( 1.0/dot_r - 1.0/dot_r1 ) -
158		dot_er/dot_e*ftp->I2;
159		}
160
#	Line 187 \| Line 187 \| *comp_hessian(FVECT hess[3], FFTRI ftp, FVECT nrm)**
187		d3 = 1.0/DOT(ftp->e_i,ftp->e_i);
188		d4 = DOT(ftp->e_i, ftp->r_i);
189		I3 = 0.25ftp->nf( DOT(ftp->e_i, ftp->r_i1)d2d2 - d4d1d1 +
190	<	3.0d3ftp->I2 );
190	>	3.0/d3*ftp->I2 );
191		J3 = 0.25d3(d1d1 - d2d2) - d4d3I3;
192		K3 = d3(ftp->I2 - I3/d1 - 2.0d4*J3);
193		/* intermediate matrices */
#	Line 288 \| Line 288 \| *back_ambval(struct s_ambsamp ap1, struct s_ambsamp a*
288
289		VSUB(vec, ap1->p, orig);
290		d2best = DOT(vec,vec);
291	<	vback = ap1->v[CIEY];
291	>	vback = colval(ap1->v,CIEY);
292		VSUB(vec, ap2->p, orig);
293		d2 = DOT(vec,vec);
294		if (d2 > d2best) {
295		d2best = d2;
296	<	vback = ap2->v[CIEY];
296	>	vback = colval(ap2->v,CIEY);
297		}
298		VSUB(vec, ap3->p, orig);
299		d2 = DOT(vec,vec);
300		if (d2 > d2best)
301	<	return(ap3->v[CIEY]);
301	>	return(colval(ap3->v,CIEY));
302		return(vback);
303		}
304
#	Line 328 \| Line 328 \| eigenvectors(FVECT uv[2], float ra[2], FVECT hessian[3
328		error(INTERNAL, "bad eigenvalue calculation");
329
330		if (evalue[0] > evalue[1]) {
331	<	ra[0] = 1.0/sqrt(sqrt(evalue[0]));
332	<	ra[1] = 1.0/sqrt(sqrt(evalue[1]));
331	>	ra[0] = sqrt(sqrt(4.0/evalue[0]));
332	>	ra[1] = sqrt(sqrt(4.0/evalue[1]));
333		slope1 = evalue[1];
334		} else {
335	<	ra[0] = 1.0/sqrt(sqrt(evalue[1]));
336	<	ra[1] = 1.0/sqrt(sqrt(evalue[0]));
335	>	ra[0] = sqrt(sqrt(4.0/evalue[1]));
336	>	ra[1] = sqrt(sqrt(4.0/evalue[0]));
337		slope1 = evalue[0];
338		}
339		/* compute unit eigenvectors */
#	Line 454 \| Line 454 \| *ambHessian( / anisotropic radii & pos. gradient /*
454
455		if (ra != NULL) /* extract eigenvectors & radii */
456		eigenvectors(uv, ra, hessian);
457	<	if (pg != NULL) { /* project position gradient */
458	<	pg[0] = DOT(gradient, uv[0]);
459	<	pg[1] = DOT(gradient, uv[1]);
457	>	if (pg != NULL) { /* tangential position gradient/PI */
458	>	pg[0] = DOT(gradient, uv[0]) / PI;
459	>	pg[1] = DOT(gradient, uv[1]) / PI;
460		}
461		}
462
#	Line 466 \| Line 466 \| static void
466		ambdirgrad(AMBHEMI *hp, FVECT uv[2], float dg[2])
467		{
468		struct s_ambsamp *ap;
469	+	double dgsum[2];
470		int n;
471		FVECT vd;
472		double gfact;
473
474	<	dg[0] = dg[1] = 0;
474	>	dgsum[0] = dgsum[1] = 0.0; /* sum values times -tan(theta) */
475		for (ap = hp->sa, n = hp->ns*hp->ns; n--; ap++) {
476		/* use vector for azimuth + 90deg */
477		VSUB(vd, ap->p, hp->rp->rop);
478	<	/* brightness with tangent factor */
479	<	gfact = ap->v[CIEY] / DOT(hp->rp->ron, vd);
480	<	/* sine = proj_radius/vd_length */
481	<	dg[0] -= DOT(uv[1], vd) * gfact;
482	<	dg[1] += DOT(uv[0], vd) * gfact;
478	>	/* brightness over cosine factor */
479	>	gfact = colval(ap->v,CIEY) / DOT(hp->rp->ron, vd);
480	>	/* -sine = -proj_radius/vd_length */
481	>	dgsum[0] += DOT(uv[1], vd) * gfact;
482	>	dgsum[1] -= DOT(uv[0], vd) * gfact;
483		}
484	+	dg[0] = dgsum[0] / (hp->ns*hp->ns);
485	+	dg[1] = dgsum[1] / (hp->ns*hp->ns);
486		}
487
488
#	Line 524 \| Line 527 \| *doambient( / compute ambient component /*
527		free(hp);
528		return(0); /* no valid samples */
529		}
530	<	d = 1.0 / cnt; /* final indirect irradiance/PI */
528	<	acol[0] = d; acol[1] = d; acol[2] *= d;
529	<	copycolor(rcol, acol);
530	>	copycolor(rcol, acol); /* final indirect irradiance/PI */
531		if (cnt < hp->nshp->ns \|\| / incomplete sampling? */
532		(ra == NULL) & (pg == NULL) & (dg == NULL)) {
533		free(hp);
534		return(-1); /* no radius or gradient calc. */
535		}
536	<	d = 0.01 * bright(rcol); /* add in 1% before Hessian comp. */
537	<	if (d < FTINY) d = FTINY;
538	<	ap = hp->sa; /* using Y channel from here on... */
536	>	multcolor(acol, hp->acoef); /* normalize Y values */
537	>	if ((d = bright(acol)) > FTINY)
538	>	d = 1.0/d;
539	>	else
540	>	d = 0.0;
541	>	ap = hp->sa; /* relative Y channel from here on... */
542		for (i = hp->ns*hp->ns; i--; ap++)
543	<	colval(ap->v,CIEY) = bright(ap->v) + d;
543	>	colval(ap->v,CIEY) = bright(ap->v)*d + 0.0314;
544
545		if (uv == NULL) /* make sure we have axis pointers */
546		uv = my_uv;
547		/* compute radii & pos. gradient */
548		ambHessian(hp, uv, ra, pg);
549	+
550		if (dg != NULL) /* compute direction gradient */
551		ambdirgrad(hp, uv, dg);
552	+
553		if (ra != NULL) { /* scale/clamp radii */
554	<	d = sqrt(sqrt((4.0/PI)*bright(rcol)/wt));
555	<	ra[0] *= d;
554	>	if (ra[0] < minarad) {
555	>	ra[0] = minarad;
556	>	if (ra[1] < minarad)
557	>	ra[1] = minarad;
558	>	}
559	>	ra[0] *= d = 1.0/sqrt(sqrt(wt));
560		if ((ra[1] = d) > 2.0ra[0])
561		ra[1] = 2.0*ra[0];
562		if (ra[1] > maxarad) {

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Comparing ray/src/rt/ambcomp.c (file contents): Revision 2.28 by greg, Sat Apr 19 19:20:47 2014 UTC vs. Revision 2.29 by greg, Wed Apr 23 06:04:17 2014 UTC

Diff Legend

Comparing ray/src/rt/ambcomp.c (file contents):
Revision 2.28 by greg, Sat Apr 19 19:20:47 2014 UTC vs.
Revision 2.29 by greg, Wed Apr 23 06:04:17 2014 UTC