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

Comparing ray/src/rt/ambient.c (file contents):
Revision 2.85 by greg, Tue May 6 17:15:11 2014 UTC vs.
Revision 2.111 by greg, Thu Nov 18 19:38:21 2021 UTC

#	Line 1 \| Line 1
1	–	#ifndef lint
1		static const char RCSid[] = "$Id$";
3	–	#endif
2		/*
3		* ambient.c - routines dealing with ambient (inter-reflected) component.
4		*
#	Line 14 \| Line 12 \| static const char RCSid[] = "$Id$";
12		#include "platform.h"
13		#include "ray.h"
14		#include "otypes.h"
15	+	#include "otspecial.h"
16		#include "resolu.h"
17		#include "ambient.h"
18		#include "random.h"
19	+	#include "pmapamb.h"
20
21		#ifndef OCTSCALE
22		#define OCTSCALE 1.0 /* ceil((valid rad.)/(cube size)) */
#	Line 77 \| Line 77 \| *static long lastpos = -1; / last flush position /*
77		#define AMBFLUSH (BUFSIZ/AMBVALSIZ)
78
79		#define newambval() (AMBVAL *)malloc(sizeof(AMBVAL))
80	–	#define freeav(av) free((void *)av);
80
81	+	#define tfunc(lwr, x, upr) (((x)-(lwr))/((upr)-(lwr)))
82	+
83		static void initambfile(int creat);
84		static void avsave(AMBVAL *av);
85		static AMBVAL avstore(AMBVAL aval);
#	Line 95 \| Line 96 \| *static int aposcmp(const void avp1, const void avp2)*
96		static int avlmemi(AMBVAL *avaddr);
97		static void sortambvals(int always);
98
99	+	static int plugaleak(RAY r, AMBVAL ap, FVECT anorm, double ang);
100	+	static double sumambient(COLOR acol, RAY *r, FVECT rn, int al,
101	+	AMBTREE *at, FVECT c0, double s);
102	+	static int makeambient(COLOR acol, RAY *r, FVECT rn, int al);
103	+	static int extambient(COLOR cr, AMBVAL *ap, FVECT pv, FVECT nv,
104	+	FVECT uvw[3]);
105	+
106		#ifdef F_SETLKW
107		static void aflock(int typ);
108		#endif
#	Line 109 \| Line 117 \| *setambres( / set ambient resolution /*
117		/* set min & max radii */
118		if (ar <= 0) {
119		minarad = 0;
120	<	maxarad = thescene.cusize*0.5;
120	>	maxarad = thescene.cusize*0.2;
121		} else {
122		minarad = thescene.cusize / ar;
123		maxarad = 64.0 * minarad; /* heuristic */
124	<	if (maxarad > thescene.cusize*0.5)
125	<	maxarad = thescene.cusize*0.5;
124	>	if (maxarad > thescene.cusize*0.2)
125	>	maxarad = thescene.cusize*0.2;
126		}
127		if (minarad <= FTINY)
128		minarad = 10.0*FTINY;
#	Line 133 \| Line 141 \| *setambacc( / set ambient accuracy /*
141		newa *= (newa > 0);
142		if (fabs(newa - olda) >= .05*(newa + olda)) {
143		ambacc = newa;
144	<	if (nambvals > 0)
144	>	if (ambacc > FTINY && nambvals > 0)
145		sortambvals(1); /* rebuild tree */
146		}
147		}
#	Line 165 \| Line 173 \| *setambient(void) / initialize calculation /*
173		initambfile(0); /* file exists */
174		lastpos = ftell(ambfp);
175		while (readambval(&amb, ambfp))
176	<	avinsert(avstore(&amb));
176	>	avstore(&amb);
177		nambshare = nambvals; /* share loaded values */
178		if (readonly) {
179		sprintf(errmsg,
#	Line 185 \| Line 193 \| *setambient(void) / initialize calculation /*
193		(flen - lastpos)/AMBVALSIZ);
194		error(WARNING, errmsg);
195		fseek(ambfp, lastpos, SEEK_SET);
188	–	#ifndef _WIN32 /* XXX we need a replacement for that one */
196		ftruncate(fileno(ambfp), (off_t)lastpos);
190	–	#endif
197		}
198		} else if ((ambfp = fopen(ambfile, "w+")) != NULL) {
199		initambfile(1); /* else create new file */
#	Line 197 \| Line 203 \| *setambient(void) / initialize calculation /*
203		sprintf(errmsg, "cannot open ambient file \"%s\"", ambfile);
204		error(SYSTEM, errmsg);
205		}
200	–	#ifdef getc_unlocked
201	–	flockfile(ambfp); /* application-level lock */
202	–	#endif
206		#ifdef F_SETLKW
207		aflock(F_UNLCK); /* release file */
208		#endif
#	Line 220 \| Line 223 \| *ambdone(void) / close ambient file and free memory**
223		lastpos = -1;
224		}
225		/* free ambient tree */
226	<	unloadatree(&atrunk, &avfree);
226	>	unloadatree(&atrunk, avfree);
227		/* reset state variables */
228		avsum = 0.;
229		navsum = 0;
#	Line 261 \| Line 264 \| *ambnotify( / record new modifier /*
264		}
265		}
266
264	–	/********** THE FOLLOWING ROUTINES DIFFER BETWEEN NEW & OLD *************/
267
266	–	#ifdef NEWAMB
267	–
268	–	#define tfunc(lwr, x, upr) (((x)-(lwr))/((upr)-(lwr)))
269	–
270	–	static double sumambient(COLOR acol, RAY *r, FVECT rn, int al,
271	–	AMBTREE *at, FVECT c0, double s);
272	–	static int makeambient(COLOR acol, RAY *r, FVECT rn, int al);
273	–	static void extambient(COLOR cr, AMBVAL *ap, FVECT pv, FVECT nv,
274	–	FVECT uvw[3]);
275	–
268		void
269		multambient( /* compute ambient component & multiply by coef. */
270		COLOR aval,
#	Line 280 \| Line 272 \| *multambient( / compute ambient component & multiply**
272		FVECT nrm
273		)
274		{
275	+	static double logAvgAbsorp = 1;
276		static int rdepth = 0; /* ambient recursion */
277	<	COLOR acol;
278	<	int ok;
277	>	COLOR acol, caustic;
278	>	int i, ok;
279		double d, l;
280
281	+	/* PMAP: Factor in ambient from photon map, if enabled and ray is
282	+	* ambient. Return as all ambient components accounted for, else
283	+	* continue. */
284	+	if (ambPmap(aval, r, rdepth))
285	+	return;
286	+
287	+	if (logAvgAbsorp > 0) /* exclude in -aw to avoid growth */
288	+	logAvgAbsorp = log(1.-AVGREFL);
289	+
290	+	/* PMAP: Factor in specular-diffuse ambient (caustics) from photon
291	+	* map, if enabled and ray is primary, else caustic is zero. Continue
292	+	* with RADIANCE ambient calculation */
293	+	copycolor(caustic, aval);
294	+	ambPmapCaustic(caustic, r, rdepth);
295	+
296		if (ambdiv <= 0) /* no ambient calculation */
297		goto dumbamb;
298		/* check number of bounces */
#	Line 296 \| Line 304 \| *multambient( / compute ambient component & multiply**
304		goto dumbamb;
305
306		if (ambacc <= FTINY) { /* no ambient storage */
307	+	FVECT uvd[2];
308	+	float dgrad[2], *dgp = NULL;
309	+
310	+	if (nrm != r->ron && DOT(nrm,r->ron) < 0.9999)
311	+	dgp = dgrad; /* compute rotational grad. */
312		copycolor(acol, aval);
313		rdepth++;
314	<	ok = doambient(acol, r, r->rweight, NULL, NULL, NULL, NULL);
314	>	ok = doambient(acol, r, r->rweight,
315	>	uvd, NULL, NULL, dgp, NULL);
316		rdepth--;
317		if (!ok)
318		goto dumbamb;
319	+	if ((ok > 0) & (dgp != NULL)) { /* apply texture */
320	+	FVECT v1;
321	+	VCROSS(v1, r->ron, nrm);
322	+	d = 1.0;
323	+	for (i = 3; i--; )
324	+	d += v1[i] * (dgp[0]uvd[0][i] + dgp[1]uvd[1][i]);
325	+	if (d >= 0.05)
326	+	scalecolor(acol, d);
327	+	}
328		copycolor(aval, acol);
329	+
330	+	/* PMAP: add in caustic */
331	+	addcolor(aval, caustic);
332		return;
333		}
334
#	Line 312 \| Line 338 \| *multambient( / compute ambient component & multiply**
338		setcolor(acol, 0.0, 0.0, 0.0);
339		d = sumambient(acol, r, nrm, rdepth,
340		&atrunk, thescene.cuorg, thescene.cusize);
341	+
342		if (d > FTINY) {
343		d = 1.0/d;
344		scalecolor(acol, d);
345		multcolor(aval, acol);
346	+
347	+	/* PMAP: add in caustic */
348	+	addcolor(aval, caustic);
349		return;
350		}
351	+
352		rdepth++; /* need to cache new value */
353		ok = makeambient(acol, r, nrm, rdepth-1);
354		rdepth--;
355	+
356		if (ok) {
357		multcolor(aval, acol); /* computed new value */
358	+
359	+	/* PMAP: add in caustic */
360	+	addcolor(aval, caustic);
361		return;
362		}
363	+
364		dumbamb: /* return global value */
365		if ((ambvwt <= 0) \| (navsum == 0)) {
366		multcolor(aval, ambval);
367	+
368	+	/* PMAP: add in caustic */
369	+	addcolor(aval, caustic);
370		return;
371		}
372	<	l = bright(ambval); /* average in computations */
372	>
373	>	l = bright(ambval); /* average in computations */
374		if (l > FTINY) {
375	<	d = (log(l)*(double)ambvwt + avsum) /
375	>	d = (log(l)(double)ambvwt + avsum + logAvgAbsorpnavsum) /
376		(double)(ambvwt + navsum);
377		d = exp(d) / l;
378		scalecolor(aval, d);
379		multcolor(aval, ambval); /* apply color of ambval */
380		} else {
381	<	d = exp( avsum / (double)navsum );
381	>	d = exp( avsum/(double)navsum + logAvgAbsorp );
382		scalecolor(aval, d); /* neutral color */
383		}
384		}
385
386
387	<	double
387	>	/* Plug a potential leak where ambient cache value is occluded */
388	>	static int
389	>	plugaleak(RAY r, AMBVAL ap, FVECT anorm, double ang)
390	>	{
391	>	const double cost70sq = 0.1169778; /* cos(70deg)^2 */
392	>	RAY rtst;
393	>	FVECT vdif;
394	>	double normdot, ndotd, nadotd;
395	>	double a, b, c, t[2];
396	>
397	>	ang += 2.PI(ang < 0); /* check direction flags */
398	>	if ( !(ap->corral>>(int)(ang*(16./PI)) & 1) )
399	>	return(0);
400	>	/*
401	>	* Generate test ray, targeting 20 degrees above sample point plane
402	>	* along surface normal from cache position. This should be high
403	>	* enough to miss local geometry we don't really care about.
404	>	*/
405	>	VSUB(vdif, ap->pos, r->rop);
406	>	normdot = DOT(anorm, r->ron);
407	>	ndotd = DOT(vdif, r->ron);
408	>	nadotd = DOT(vdif, anorm);
409	>	a = normdot*normdot - cost70sq;
410	>	b = 2.0(normdotndotd - nadotd*cost70sq);
411	>	c = ndotdndotd - DOT(vdif,vdif)cost70sq;
412	>	if (quadratic(t, a, b, c) != 2)
413	>	return(1); /* should rarely happen */
414	>	if (t[1] <= FTINY)
415	>	return(0); /* should fail behind test */
416	>	rayorigin(&rtst, SHADOW, r, NULL);
417	>	VSUM(rtst.rdir, vdif, anorm, t[1]); /* further dist. > plane */
418	>	rtst.rmax = normalize(rtst.rdir); /* short ray test */
419	>	while (localhit(&rtst, &thescene)) { /* check for occluder */
420	>	OBJREC *m = findmaterial(rtst.ro);
421	>	if (m != NULL && !istransp(m->otype) && !isBSDFproxy(m) &&
422	>	(rtst.clipset == NULL \|\|
423	>	!inset(rtst.clipset, rtst.ro->omod)))
424	>	return(1); /* plug light leak */
425	>	VCOPY(rtst.rorg, rtst.rop); /* skip invisible surface */
426	>	rtst.rmax -= rtst.rot;
427	>	rayclear(&rtst);
428	>	}
429	>	return(0); /* seems we're OK */
430	>	}
431	>
432	>
433	>	static double
434		sumambient( /* get interpolated ambient value */
435		COLOR acol,
436		RAY *r,
#	Line 387 \| Line 473 \| *sumambient( / get interpolated ambient value /*
473		maxangle = (maxangle - PI/2.)*pow(r->rweight,0.13) + PI/2.;
474		/* sum this node */
475		for (av = at->alist; av != NULL; av = av->next) {
476	<	double d, delta_r2, delta_t2;
476	>	double u, v, d, delta_r2, delta_t2;
477		COLOR ct;
478		FVECT uvw[3];
479		/* record access */
#	Line 396 \| Line 482 \| *sumambient( / get interpolated ambient value /*
482		/*
483		* Ambient level test
484		*/
485	<	if (av->lvl > al) /* list sorted, so this works */
485	>	if (av->lvl > al \|\| /* list sorted, so this works */
486	>	(av->lvl == al) & (av->weight < 0.9*r->rweight))
487		break;
401	–	if (av->weight < 0.9*r->rweight)
402	–	continue;
488		/*
489		* Direction test using unperturbed normal
490		*/
#	Line 426 \| Line 511 \| *sumambient( / get interpolated ambient value /*
511		*/
512		decodedir(uvw[0], av->udir);
513		VCROSS(uvw[1], uvw[2], uvw[0]);
514	<	d = DOT(ck0, uvw[0]) / av->rad[0];
514	>	d = (u = DOT(ck0, uvw[0])) / av->rad[0];
515		delta_t2 += d*d;
516	<	d = DOT(ck0, uvw[1]) / av->rad[1];
516	>	d = (v = DOT(ck0, uvw[1])) / av->rad[1];
517		delta_t2 += d*d;
518		if (delta_t2 >= ambacc*ambacc)
519		continue;
520		/*
521	+	* Test for potential light leak
522	+	*/
523	+	if (av->corral && plugaleak(r, av, uvw[2], atan2a(v,u)))
524	+	continue;
525	+	/*
526		* Extrapolate value and compute final weight (hat function)
527		*/
528	<	extambient(ct, av, r->rop, rn, uvw);
528	>	if (!extambient(ct, av, r->rop, rn, uvw))
529	>	continue;
530		d = tfunc(maxangle, sqrt(delta_r2), 0.0) *
531		tfunc(ambacc, sqrt(delta_t2), 0.0);
532		scalecolor(ct, d);
#	Line 446 \| Line 537 \| *sumambient( / get interpolated ambient value /*
537		}
538
539
540	<	int
540	>	static int
541		makeambient( /* make a new ambient value for storage */
542		COLOR acol,
543		RAY *r,
#	Line 465 \| Line 556 \| *makeambient( / make a new ambient value for storage**
556		amb.weight = 1.25*r->rweight;
557		setcolor(acol, AVGREFL, AVGREFL, AVGREFL);
558		/* compute ambient */
559	<	i = doambient(acol, r, amb.weight, uvw, amb.rad, amb.gpos, amb.gdir);
559	>	i = doambient(acol, r, amb.weight,
560	>	uvw, amb.rad, amb.gpos, amb.gdir, &amb.corral);
561		scalecolor(acol, 1./AVGREFL); /* undo assumed reflectance */
562		if (i <= 0 \|\| amb.rad[0] <= FTINY) /* no Hessian or zero radius */
563		return(i);
#	Line 485 \| Line 577 \| *makeambient( / make a new ambient value for storage**
577		}
578
579
580	<	void
580	>	static int
581		extambient( /* extrapolate value at pv, nv */
582		COLOR cr,
583		AMBVAL *ap,
#	Line 494 \| Line 586 \| *extambient( / extrapolate value at pv, nv /*
586		FVECT uvw[3]
587		)
588		{
589	+	const double min_d = 0.05;
590	+	const double max_d = 20.;
591		static FVECT my_uvw[3];
592		FVECT v1;
593		int i;
#	Line 513 \| Line 607 \| *extambient( / extrapolate value at pv, nv /*
607		for (i = 3; i--; )
608		d += v1[i] * (ap->gdir[0]uvw[0][i] + ap->gdir[1]uvw[1][i]);
609
610	<	if (d <= 0.0) {
611	<	setcolor(cr, 0.0, 0.0, 0.0);
612	<	return;
613	<	}
610	>	if (d < min_d) /* clamp min/max scaling */
611	>	d = min_d;
612	>	else if (d > max_d)
613	>	d = max_d;
614		copycolor(cr, ap->val);
615		scalecolor(cr, d);
616	+	return(d > min_d);
617		}
618
619
#	Line 555 \| Line 650 \| *avinsert( / insert ambient value in our tree /*
650		}
651		avh.next = at->alist; /* order by increasing level */
652		for (ap = &avh; ap->next != NULL; ap = ap->next)
653	<	if (ap->next->lvl >= av->lvl)
653	>	if ( ap->next->lvl > av->lvl \|\|
654	>	(ap->next->lvl == av->lvl) &
655	>	(ap->next->weight <= av->weight) )
656		break;
657		av->next = ap->next;
658		ap->next = (AMBVAL*)av;
#	Line 563 \| Line 660 \| *avinsert( / insert ambient value in our tree /*
660		}
661
662
566	–	#else /* ! NEWAMB */
567	–
568	–	static double sumambient(COLOR acol, RAY *r, FVECT rn, int al,
569	–	AMBTREE *at, FVECT c0, double s);
570	–	static double makeambient(COLOR acol, RAY *r, FVECT rn, int al);
571	–	static void extambient(COLOR cr, AMBVAL *ap, FVECT pv, FVECT nv);
572	–
573	–
574	–	void
575	–	multambient( /* compute ambient component & multiply by coef. */
576	–	COLOR aval,
577	–	RAY *r,
578	–	FVECT nrm
579	–	)
580	–	{
581	–	static int rdepth = 0; /* ambient recursion */
582	–	COLOR acol;
583	–	double d, l;
584	–
585	–	if (ambdiv <= 0) /* no ambient calculation */
586	–	goto dumbamb;
587	–	/* check number of bounces */
588	–	if (rdepth >= ambounce)
589	–	goto dumbamb;
590	–	/* check ambient list */
591	–	if (ambincl != -1 && r->ro != NULL &&
592	–	ambincl != inset(ambset, r->ro->omod))
593	–	goto dumbamb;
594	–
595	–	if (ambacc <= FTINY) { /* no ambient storage */
596	–	copycolor(acol, aval);
597	–	rdepth++;
598	–	d = doambient(acol, r, r->rweight, NULL, NULL);
599	–	rdepth--;
600	–	if (d <= FTINY)
601	–	goto dumbamb;
602	–	copycolor(aval, acol);
603	–	return;
604	–	}
605	–
606	–	if (tracktime) /* sort to minimize thrashing */
607	–	sortambvals(0);
608	–	/* interpolate ambient value */
609	–	setcolor(acol, 0.0, 0.0, 0.0);
610	–	d = sumambient(acol, r, nrm, rdepth,
611	–	&atrunk, thescene.cuorg, thescene.cusize);
612	–	if (d > FTINY) {
613	–	d = 1.0/d;
614	–	scalecolor(acol, d);
615	–	multcolor(aval, acol);
616	–	return;
617	–	}
618	–	rdepth++; /* need to cache new value */
619	–	d = makeambient(acol, r, nrm, rdepth-1);
620	–	rdepth--;
621	–	if (d > FTINY) {
622	–	multcolor(aval, acol); /* got new value */
623	–	return;
624	–	}
625	–	dumbamb: /* return global value */
626	–	if ((ambvwt <= 0) \| (navsum == 0)) {
627	–	multcolor(aval, ambval);
628	–	return;
629	–	}
630	–	l = bright(ambval); /* average in computations */
631	–	if (l > FTINY) {
632	–	d = (log(l)*(double)ambvwt + avsum) /
633	–	(double)(ambvwt + navsum);
634	–	d = exp(d) / l;
635	–	scalecolor(aval, d);
636	–	multcolor(aval, ambval); /* apply color of ambval */
637	–	} else {
638	–	d = exp( avsum / (double)navsum );
639	–	scalecolor(aval, d); /* neutral color */
640	–	}
641	–	}
642	–
643	–
644	–	static double
645	–	sumambient( /* get interpolated ambient value */
646	–	COLOR acol,
647	–	RAY *r,
648	–	FVECT rn,
649	–	int al,
650	–	AMBTREE *at,
651	–	FVECT c0,
652	–	double s
653	–	)
654	–	{
655	–	double d, e1, e2, wt, wsum;
656	–	COLOR ct;
657	–	FVECT ck0;
658	–	int i;
659	–	int j;
660	–	AMBVAL *av;
661	–
662	–	wsum = 0.0;
663	–	/* do this node */
664	–	for (av = at->alist; av != NULL; av = av->next) {
665	–	double rn_dot = -2.0;
666	–	if (tracktime)
667	–	av->latick = ambclock;
668	–	/*
669	–	* Ambient level test.
670	–	*/
671	–	if (av->lvl > al) /* list sorted, so this works */
672	–	break;
673	–	if (av->weight < 0.9*r->rweight)
674	–	continue;
675	–	/*
676	–	* Ambient radius test.
677	–	*/
678	–	VSUB(ck0, av->pos, r->rop);
679	–	e1 = DOT(ck0, ck0) / (av->rad * av->rad);
680	–	if (e1 > ambaccambacc1.21)
681	–	continue;
682	–	/*
683	–	* Direction test using closest normal.
684	–	*/
685	–	d = DOT(av->dir, r->ron);
686	–	if (rn != r->ron) {
687	–	rn_dot = DOT(av->dir, rn);
688	–	if (rn_dot > 1.0-FTINY)
689	–	rn_dot = 1.0-FTINY;
690	–	if (rn_dot >= d-FTINY) {
691	–	d = rn_dot;
692	–	rn_dot = -2.0;
693	–	}
694	–	}
695	–	e2 = (1.0 - d) * r->rweight;
696	–	if (e2 < 0.0)
697	–	e2 = 0.0;
698	–	else if (e1 + e2 > ambaccambacc1.21)
699	–	continue;
700	–	/*
701	–	* Ray behind test.
702	–	*/
703	–	d = 0.0;
704	–	for (j = 0; j < 3; j++)
705	–	d += (r->rop[j] - av->pos[j]) *
706	–	(av->dir[j] + r->ron[j]);
707	–	if (d0.5 < -minaradambacc-.001)
708	–	continue;
709	–	/*
710	–	* Jittering final test reduces image artifacts.
711	–	*/
712	–	e1 = sqrt(e1);
713	–	e2 = sqrt(e2);
714	–	wt = e1 + e2;
715	–	if (wt > ambacc(.9+.2urand(9015+samplendx)))
716	–	continue;
717	–	/*
718	–	* Recompute directional error using perturbed normal
719	–	*/
720	–	if (rn_dot > 0.0) {
721	–	e2 = sqrt((1.0 - rn_dot)*r->rweight);
722	–	wt = e1 + e2;
723	–	}
724	–	if (wt <= 1e-3)
725	–	wt = 1e3;
726	–	else
727	–	wt = 1.0 / wt;
728	–	wsum += wt;
729	–	extambient(ct, av, r->rop, rn);
730	–	scalecolor(ct, wt);
731	–	addcolor(acol, ct);
732	–	}
733	–	if (at->kid == NULL)
734	–	return(wsum);
735	–	/* do children */
736	–	s *= 0.5;
737	–	for (i = 0; i < 8; i++) {
738	–	for (j = 0; j < 3; j++) {
739	–	ck0[j] = c0[j];
740	–	if (1<<j & i)
741	–	ck0[j] += s;
742	–	if (r->rop[j] < ck0[j] - OCTSCALE*s)
743	–	break;
744	–	if (r->rop[j] > ck0[j] + (1.0+OCTSCALE)*s)
745	–	break;
746	–	}
747	–	if (j == 3)
748	–	wsum += sumambient(acol, r, rn, al,
749	–	at->kid+i, ck0, s);
750	–	}
751	–	return(wsum);
752	–	}
753	–
754	–
755	–	static double
756	–	makeambient( /* make a new ambient value for storage */
757	–	COLOR acol,
758	–	RAY *r,
759	–	FVECT rn,
760	–	int al
761	–	)
762	–	{
763	–	AMBVAL amb;
764	–	FVECT gp, gd;
765	–	int i;
766	–
767	–	amb.weight = 1.0; /* compute weight */
768	–	for (i = al; i-- > 0; )
769	–	amb.weight *= AVGREFL;
770	–	if (r->rweight < 0.1amb.weight) / heuristic override */
771	–	amb.weight = 1.25*r->rweight;
772	–	setcolor(acol, AVGREFL, AVGREFL, AVGREFL);
773	–	/* compute ambient */
774	–	amb.rad = doambient(acol, r, amb.weight, gp, gd);
775	–	if (amb.rad <= FTINY) {
776	–	setcolor(acol, 0.0, 0.0, 0.0);
777	–	return(0.0);
778	–	}
779	–	scalecolor(acol, 1./AVGREFL); /* undo assumed reflectance */
780	–	/* store value */
781	–	VCOPY(amb.pos, r->rop);
782	–	VCOPY(amb.dir, r->ron);
783	–	amb.lvl = al;
784	–	copycolor(amb.val, acol);
785	–	VCOPY(amb.gpos, gp);
786	–	VCOPY(amb.gdir, gd);
787	–	/* insert into tree */
788	–	avsave(&amb); /* and save to file */
789	–	if (rn != r->ron)
790	–	extambient(acol, &amb, r->rop, rn); /* texture */
791	–	return(amb.rad);
792	–	}
793	–
794	–
663		static void
796	–	extambient( /* extrapolate value at pv, nv */
797	–	COLOR cr,
798	–	AMBVAL *ap,
799	–	FVECT pv,
800	–	FVECT nv
801	–	)
802	–	{
803	–	FVECT v1;
804	–	int i;
805	–	double d;
806	–
807	–	d = 1.0; /* zeroeth order */
808	–	/* gradient due to translation */
809	–	for (i = 0; i < 3; i++)
810	–	d += ap->gpos[i]*(pv[i]-ap->pos[i]);
811	–	/* gradient due to rotation */
812	–	VCROSS(v1, ap->dir, nv);
813	–	d += DOT(ap->gdir, v1);
814	–	if (d <= 0.0) {
815	–	setcolor(cr, 0.0, 0.0, 0.0);
816	–	return;
817	–	}
818	–	copycolor(cr, ap->val);
819	–	scalecolor(cr, d);
820	–	}
821	–
822	–
823	–	static void
824	–	avinsert( /* insert ambient value in our tree */
825	–	AMBVAL *av
826	–	)
827	–	{
828	–	AMBTREE *at;
829	–	AMBVAL *ap;
830	–	AMBVAL avh;
831	–	FVECT ck0;
832	–	double s;
833	–	int branch;
834	–	int i;
835	–
836	–	if (av->rad <= FTINY)
837	–	error(CONSISTENCY, "zero ambient radius in avinsert");
838	–	at = &atrunk;
839	–	VCOPY(ck0, thescene.cuorg);
840	–	s = thescene.cusize;
841	–	while (s(OCTSCALE/2) > av->radambacc) {
842	–	if (at->kid == NULL)
843	–	if ((at->kid = newambtree()) == NULL)
844	–	error(SYSTEM, "out of memory in avinsert");
845	–	s *= 0.5;
846	–	branch = 0;
847	–	for (i = 0; i < 3; i++)
848	–	if (av->pos[i] > ck0[i] + s) {
849	–	ck0[i] += s;
850	–	branch \|= 1 << i;
851	–	}
852	–	at = at->kid + branch;
853	–	}
854	–	avh.next = at->alist; /* order by increasing level */
855	–	for (ap = &avh; ap->next != NULL; ap = ap->next)
856	–	if (ap->next->lvl >= av->lvl)
857	–	break;
858	–	av->next = ap->next;
859	–	ap->next = (AMBVAL*)av;
860	–	at->alist = avh.next;
861	–	}
862	–
863	–	#endif /* ! NEWAMB */
864	–
865	–	/*********** FOLLOWING ROUTINES SAME FOR NEW & OLD METHODS *************/
866	–
867	–	static void
664		initambfile( /* initialize ambient file */
665		int cre8
666		)
#	Line 905 \| Line 701 \| *avsave( / insert and save an ambient value /*
701		AMBVAL *av
702		)
703		{
704	<	avinsert(avstore(av));
704	>	avstore(av);
705		if (ambfp == NULL)
706		return;
707		if (writambval(av, ambfp) < 0)
#	Line 920 \| Line 716 \| writerr:
716
717
718		static AMBVAL *
719	<	avstore( /* allocate memory and store aval */
719	>	avstore( /* allocate memory and save aval */
720		AMBVAL *aval
721		)
722		{
#	Line 938 \| Line 734 \| *avstore( / allocate memory and store aval /*
734		avsum += log(d);
735		navsum++;
736		}
737	+	avinsert(av); /* insert in our cache tree */
738		return(av);
739		}
740
#	Line 964 \| Line 761 \| *newambtree(void) / allocate 8 ambient tree structs**
761		}
762		atp = atfreelist;
763		atfreelist = atp->kid;
764	<	memset((char )atp, '\0', 8sizeof(AMBTREE));
764	>	memset(atp, 0, 8*sizeof(AMBTREE));
765		return(atp);
766		}
767
#	Line 990 \| Line 787 \| *unloadatree( / unload an ambient value tree /*
787		/* transfer values at this node */
788		for (av = at->alist; av != NULL; av = at->alist) {
789		at->alist = av->next;
790	+	av->next = NULL;
791		(*f)(av);
792		}
793		if (at->kid == NULL)
#	Line 1067 \| Line 865 \| *avlmemi( / find list position from address /*
865		{
866		AMBVAL **avlpp;
867
868	<	avlpp = (AMBVAL *)bsearch((char )&avaddr, (char *)avlist2,
869	<	nambvals, sizeof(AMBVAL *), &aposcmp);
868	>	avlpp = (AMBVAL **)bsearch(&avaddr, avlist2,
869	>	nambvals, sizeof(AMBVAL *), aposcmp);
870		if (avlpp == NULL)
871		error(CONSISTENCY, "address not found in avlmemi");
872		return(avlpp - avlist2);
#	Line 1111 \| Line 909 \| *sortambvals( / resort ambient values /*
909		}
910		if (avlist1 == NULL) { /* no time tracking -- rebuild tree? */
911		if (avlist2 != NULL)
912	<	free((void *)avlist2);
912	>	free(avlist2);
913		if (always) { /* rebuild without sorting */
914		oldatrunk = atrunk;
915		atrunk.alist = NULL;
916		atrunk.kid = NULL;
917	<	unloadatree(&oldatrunk, &avinsert);
917	>	unloadatree(&oldatrunk, avinsert);
918		}
919		} else { /* sort memory by last access time */
920		/*
#	Line 1133 \| Line 931 \| *sortambvals( / resort ambient values /*
931		eputs(errmsg);
932		#endif
933		i_avlist = 0;
934	<	unloadatree(&atrunk, &av2list); /* empty current tree */
934	>	unloadatree(&atrunk, av2list); /* empty current tree */
935		#ifdef DEBUG
936		if (i_avlist < nambvals)
937		error(CONSISTENCY, "missing ambient values in sortambvals");
938		#endif
939	<	qsort((char *)avlist1, nambvals, sizeof(struct avl), &alatcmp);
940	<	qsort((char )avlist2, nambvals, sizeof(AMBVAL ), &aposcmp);
939	>	qsort(avlist1, nambvals, sizeof(struct avl), alatcmp);
940	>	qsort(avlist2, nambvals, sizeof(AMBVAL *), aposcmp);
941		for (i = 0; i < nambvals; i++) {
942		if (avlist1[i].p == NULL)
943		continue;
#	Line 1155 \| Line 953 \| *sortambvals( / resort ambient values /*
953		avinsert(avlist2[j]);
954		avlist1[j].p = NULL;
955		}
956	<	free((void *)avlist1);
957	<	free((void *)avlist2);
956	>	free(avlist1);
957	>	free(avlist2);
958		/* compute new sort interval */
959		sortintvl = ambclock - lastsort;
960		if (sortintvl >= MAX_SORT_INTVL/2)
#	Line 1184 \| Line 982 \| *aflock( / lock/unlock ambient file /*
982
983		if (typ == fls.l_type) /* already called? */
984		return;
985	+
986		fls.l_type = typ;
987	<	if (fcntl(fileno(ambfp), F_SETLKW, &fls) < 0)
988	<	error(SYSTEM, "cannot (un)lock ambient file");
987	>	do
988	>	if (fcntl(fileno(ambfp), F_SETLKW, &fls) != -1)
989	>	return;
990	>	while (errno == EINTR);
991	>
992	>	error(SYSTEM, "cannot (un)lock ambient file");
993		}
994
995
#	Line 1205 \| Line 1008 \| *ambsync(void) / synchronize ambient file /*
1008		if ((flen = lseek(fileno(ambfp), (off_t)0, SEEK_END)) < 0)
1009		goto seekerr;
1010		if ((n = flen - lastpos) > 0) { /* file has grown */
1011	<	if (ambinp == NULL) { /* use duplicate filedes */
1012	<	ambinp = fdopen(dup(fileno(ambfp)), "r");
1011	>	if (ambinp == NULL) { /* get new file pointer */
1012	>	ambinp = fopen(ambfile, "rb");
1013		if (ambinp == NULL)
1014	<	error(SYSTEM, "fdopen failed in ambsync");
1014	>	error(SYSTEM, "fopen failed in ambsync");
1015		}
1016		if (fseek(ambinp, lastpos, SEEK_SET) < 0)
1017		goto seekerr;
#	Line 1220 \| Line 1023 \| *ambsync(void) / synchronize ambient file /*
1023		error(WARNING, errmsg);
1024		break;
1025		}
1026	<	avinsert(avstore(&avs));
1026	>	avstore(&avs);
1027		n -= AMBVALSIZ;
1028		}
1029	<	lastpos = flen - n;
1030	<	/*** seek always as safety measure
1031	<	if (n) **/ / alignment */
1229	<	if (lseek(fileno(ambfp), (off_t)lastpos, SEEK_SET) < 0)
1230	<	goto seekerr;
1029	>	lastpos = flen - n; /* check alignment */
1030	>	if (n && lseek(fileno(ambfp), (off_t)lastpos, SEEK_SET) < 0)
1031	>	goto seekerr;
1032		}
1033		n = fflush(ambfp); /* calls write() at last */
1034	<	if (n != EOF)
1234	<	lastpos += (long)nunflshed*AMBVALSIZ;
1235	<	else if ((lastpos = lseek(fileno(ambfp), (off_t)0, SEEK_CUR)) < 0)
1236	<	goto seekerr;
1237	<
1034	>	lastpos += (long)nunflshed*AMBVALSIZ;
1035		aflock(F_UNLCK); /* release file */
1036		nunflshed = 0;
1037		return(n);
1038		seekerr:
1039		error(SYSTEM, "seek failed in ambsync");
1040	<	return -1; /* pro forma return */
1040	>	return(EOF); /* pro forma return */
1041		}
1042
1043		#else /* ! F_SETLKW */

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Comparing ray/src/rt/ambient.c (file contents): Revision 2.85 by greg, Tue May 6 17:15:11 2014 UTC vs. Revision 2.111 by greg, Thu Nov 18 19:38:21 2021 UTC

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Comparing ray/src/rt/ambient.c (file contents):
Revision 2.85 by greg, Tue May 6 17:15:11 2014 UTC vs.
Revision 2.111 by greg, Thu Nov 18 19:38:21 2021 UTC