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

Comparing ray/src/rt/ambcomp.c (file contents):
Revision 2.40 by greg, Wed Apr 30 18:27:14 2014 UTC vs.
Revision 2.41 by greg, Wed Apr 30 23:38:58 2014 UTC

#	Line 32 \| Line 32 \| typedef struct {
32		} sa[1]; /* sample array (extends struct) */
33		} AMBHEMI; /* ambient sample hemisphere */
34
35	+	typedef struct s_ambsamp AMBSAMP;
36	+
37		#define ambsamp(h,i,j) (h)->sa[(i)*(h)->ns + (j)]
38
39		typedef struct {
#	Line 59 \| Line 61 \| *inithemi( / initialize sampling hemisphere /*
61		if (n < i)
62		n = i;
63		/* allocate sampling array */
64	<	hp = (AMBHEMI *)malloc(sizeof(AMBHEMI) +
63	<	sizeof(struct s_ambsamp)(nn - 1));
64	>	hp = (AMBHEMI )malloc(sizeof(AMBHEMI) + sizeof(AMBSAMP)(n*n - 1));
65		if (hp == NULL)
66		return(NULL);
67		hp->rp = r;
#	Line 87 \| Line 88 \| *inithemi( / initialize sampling hemisphere /*
88		}
89
90
91	<	static struct s_ambsamp *
92	<	ambsample( /* sample an ambient direction */
93	<	AMBHEMI *hp,
93	<	int i,
94	<	int j
95	<	)
91	>	/* Prepare ambient division sample */
92	>	static int
93	>	prepambsamp(RAY arp, AMBHEMI hp, int i, int j, int n)
94		{
95	<	struct s_ambsamp *ap = &ambsamp(hp,i,j);
96	<	RAY ar;
99	<	double spt[2], zd;
100	<	int ii;
95	>	int hlist[3], ii;
96	>	double spt[2], zd;
97		/* ambient coefficient for weight */
98		if (ambacc > FTINY)
99	<	setcolor(ar.rcoef, AVGREFL, AVGREFL, AVGREFL);
99	>	setcolor(arp->rcoef, AVGREFL, AVGREFL, AVGREFL);
100		else
101	<	copycolor(ar.rcoef, hp->acoef);
102	<	if (rayorigin(&ar, AMBIENT, hp->rp, ar.rcoef) < 0)
103	<	goto badsample;
101	>	copycolor(arp->rcoef, hp->acoef);
102	>	if (rayorigin(arp, AMBIENT, hp->rp, arp->rcoef) < 0)
103	>	return(0);
104		if (ambacc > FTINY) {
105	<	multcolor(ar.rcoef, hp->acoef);
106	<	scalecolor(ar.rcoef, 1./AVGREFL);
105	>	multcolor(arp->rcoef, hp->acoef);
106	>	scalecolor(arp->rcoef, 1./AVGREFL);
107		}
108	<	/* generate hemispherical sample */
109	<	SDsquare2disk(spt, (i+.1+.8*frandom())/hp->ns,
110	<	(j+.1+.8*frandom())/hp->ns );
108	>	hlist[0] = hp->rp->rno;
109	>	hlist[1] = i;
110	>	hlist[2] = j;
111	>	multisamp(spt, 2, urand(ilhash(hlist,3)+n));
112	>	if (!n) { /* avoid border samples for n==0 */
113	>	if ((spt[0] < 0.1) \| (spt[0] > 0.9))
114	>	spt[0] = 0.1 + 0.8*frandom();
115	>	if ((spt[1] < 0.1) \| (spt[1] > 0.9))
116	>	spt[1] = 0.1 + 0.8*frandom();
117	>	}
118	>	SDsquare2disk(spt, (i+spt[0])/hp->ns, (j+spt[1])/hp->ns);
119		zd = sqrt(1. - spt[0]spt[0] - spt[1]spt[1]);
120		for (ii = 3; ii--; )
121	<	ar.rdir[ii] = spt[0]*hp->ux[ii] +
121	>	arp->rdir[ii] = spt[0]*hp->ux[ii] +
122		spt[1]*hp->uy[ii] +
123		zd*hp->rp->ron[ii];
124	<	checknorm(ar.rdir);
124	>	checknorm(arp->rdir);
125	>	return(1);
126	>	}
127	>
128	>
129	>	static AMBSAMP *
130	>	ambsample( /* sample an ambient direction */
131	>	AMBHEMI *hp,
132	>	int i,
133	>	int j
134	>	)
135	>	{
136	>	AMBSAMP *ap = &ambsamp(hp,i,j);
137	>	RAY ar;
138	>	/* generate hemispherical sample */
139	>	if (!prepambsamp(&ar, hp, i, j, 0))
140	>	goto badsample;
141		dimlist[ndims++] = i*hp->ns + j + 90171;
142		rayvalue(&ar); /* evaluate ray */
143		ndims--;
#	Line 137 \| Line 157 \| badsample:
157		}
158
159
160	+	/* Estimate errors based on ambient division differences */
161	+	static float *
162	+	getambdiffs(AMBHEMI *hp)
163	+	{
164	+	float earr = calloc(hp->nshp->ns, sizeof(float));
165	+	float *ep;
166	+	double b, d2;
167	+	int i, j;
168	+
169	+	if (earr == NULL) /* out of memory? */
170	+	return(NULL);
171	+	/* compute squared neighbor diffs */
172	+	for (ep = earr, i = 0; i < hp->ns; i++)
173	+	for (j = 0; j < hp->ns; j++, ep++) {
174	+	b = bright(ambsamp(hp,i,j).v);
175	+	if (i) { /* from above */
176	+	d2 = b - bright(ambsamp(hp,i-1,j).v);
177	+	d2 *= d2;
178	+	ep[0] += d2;
179	+	ep[-hp->ns] += d2;
180	+	}
181	+	if (j) { /* from behind */
182	+	d2 = b - bright(ambsamp(hp,i,j-1).v);
183	+	d2 *= d2;
184	+	ep[0] += d2;
185	+	ep[-1] += d2;
186	+	}
187	+	}
188	+	/* correct for number of neighbors */
189	+	earr[0] *= 2.f;
190	+	earr[hp->ns-1] *= 2.f;
191	+	earr[(hp->ns-1)hp->ns] = 2.f;
192	+	earr[(hp->ns-1)hp->ns + hp->ns-1] = 2.f;
193	+	for (i = 1; i < hp->ns-1; i++) {
194	+	earr[ihp->ns] = 4./3.;
195	+	earr[ihp->ns + hp->ns-1] = 4./3.;
196	+	}
197	+	for (j = 1; j < hp->ns-1; j++) {
198	+	earr[j] *= 4./3.;
199	+	earr[(hp->ns-1)hp->ns + j] = 4./3.;
200	+	}
201	+	return(earr);
202	+	}
203	+
204	+
205	+	/* Perform super-sampling on hemisphere */
206	+	static void
207	+	ambsupersamp(double acol[3], AMBHEMI *hp, int cnt)
208	+	{
209	+	float *earr = getambdiffs(hp);
210	+	double e2sum = 0;
211	+	AMBSAMP *ap;
212	+	RAY ar;
213	+	COLOR asum;
214	+	float *ep;
215	+	int i, j, n;
216	+
217	+	if (earr == NULL) /* just skip calc. if no memory */
218	+	return;
219	+	/* add up estimated variances */
220	+	for (ep = earr + hp->ns*hp->ns; ep-- > earr; )
221	+	e2sum += *ep;
222	+	ep = earr; /* perform super-sampling */
223	+	for (ap = hp->sa, i = 0; i < hp->ns; i++)
224	+	for (j = 0; j < hp->ns; j++, ap++) {
225	+	int nss = ep/e2sumcnt + frandom();
226	+	setcolor(asum, 0., 0., 0.);
227	+	for (n = 1; n <= nss; n++) {
228	+	if (!prepambsamp(&ar, hp, i, j, n)) {
229	+	nss = n-1;
230	+	break;
231	+	}
232	+	dimlist[ndims++] = i*hp->ns + j + 90171;
233	+	rayvalue(&ar); /* evaluate super-sample */
234	+	ndims--;
235	+	multcolor(ar.rcol, ar.rcoef);
236	+	addcolor(asum, ar.rcol);
237	+	}
238	+	if (nss) { /* update returned ambient value */
239	+	const double ssf = 1./(nss + 1);
240	+	for (n = 3; n--; )
241	+	acol[n] += ssf*colval(asum,n) +
242	+	(ssf - 1.)*colval(ap->v,n);
243	+	}
244	+	e2sum -= ep++; / update remainders */
245	+	cnt -= nss;
246	+	}
247	+	free(earr);
248	+	}
249	+
250	+
251		/* Compute vectors and coefficients for Hessian/gradient calcs */
252		static void
253		comp_fftri(FFTRI *ftp, FVECT ap0, FVECT ap1, FVECT rop)
#	Line 278 \| Line 389 \| add2gradient(FVECT grad, FVECT egrad1, FVECT egrad2, F
389
390		/* Return brightness of furthest ambient sample */
391		static COLORV
392	<	back_ambval(struct s_ambsamp ap1, struct s_ambsamp ap2,
282	<	struct s_ambsamp *ap3, FVECT orig)
392	>	back_ambval(AMBSAMP ap1, AMBSAMP ap2, AMBSAMP *ap3, FVECT orig)
393		{
394		COLORV vback;
395		FVECT vec;
#	Line 466 \| Line 576 \| *ambHessian( / anisotropic radii & pos. gradient /*
576		static void
577		ambdirgrad(AMBHEMI *hp, FVECT uv[2], float dg[2])
578		{
579	<	struct s_ambsamp *ap;
580	<	double dgsum[2];
581	<	int n;
582	<	FVECT vd;
583	<	double gfact;
579	>	AMBSAMP *ap;
580	>	double dgsum[2];
581	>	int n;
582	>	FVECT vd;
583	>	double gfact;
584
585		dgsum[0] = dgsum[1] = 0.0; /* sum values times -tan(theta) */
586		for (ap = hp->sa, n = hp->ns*hp->ns; n--; ap++) {
#	Line 498 \| Line 608 \| *doambient( / compute ambient component /*
608		float dg[2] /* returned (optional) */
609		)
610		{
611	<	AMBHEMI *hp = inithemi(rcol, r, wt);
612	<	int cnt = 0;
613	<	FVECT my_uv[2];
614	<	double d, K, acol[3];
615	<	struct s_ambsamp *ap;
616	<	int i, j;
611	>	AMBHEMI *hp = inithemi(rcol, r, wt);
612	>	int cnt = 0;
613	>	FVECT my_uv[2];
614	>	double d, K, acol[3];
615	>	AMBSAMP *ap;
616	>	int i, j;
617		/* check/initialize */
618		if (hp == NULL)
619		return(0);
#	Line 528 \| Line 638 \| *doambient( / compute ambient component /*
638		free(hp);
639		return(0); /* no valid samples */
640		}
641	+	if (cnt < hp->nshp->ns) { / incomplete sampling? */
642	+	copycolor(rcol, acol);
643	+	free(hp);
644	+	return(-1); /* return value w/o Hessian */
645	+	}
646	+	cnt = ambssampwt + 0.5; / perform super-sampling? */
647	+	if (cnt > 0)
648	+	ambsupersamp(acol, hp, cnt);
649		copycolor(rcol, acol); /* final indirect irradiance/PI */
650	<	if (cnt < hp->nshp->ns \|\| / incomplete sampling? */
533	<	(ra == NULL) & (pg == NULL) & (dg == NULL)) {
650	>	if ((ra == NULL) & (pg == NULL) & (dg == NULL)) {
651		free(hp);
652		return(-1); /* no radius or gradient calc. */
653		}

Diff Legend

-–
+Removed lines
-+
+Added lines
-<
+Changed lines
->
+Changed lines

Comparing ray/src/rt/ambcomp.c (file contents): Revision 2.40 by greg, Wed Apr 30 18:27:14 2014 UTC vs. Revision 2.41 by greg, Wed Apr 30 23:38:58 2014 UTC

Diff Legend

Comparing ray/src/rt/ambcomp.c (file contents):
Revision 2.40 by greg, Wed Apr 30 18:27:14 2014 UTC vs.
Revision 2.41 by greg, Wed Apr 30 23:38:58 2014 UTC