[ViewVC] Diff of: radiance/ray/src/hd/rholo3.c

Comparing ray/src/hd/rholo3.c (file contents):
Revision 3.13 by gregl, Mon Dec 15 20:44:28 1997 UTC vs.
Revision 3.27 by gwlarson, Thu Jan 7 22:04:49 1999 UTC

#	Line 1 \| Line 1
1	<	/* Copyright (c) 1997 Silicon Graphics, Inc. */
1	>	/* Copyright (c) 1998 Silicon Graphics, Inc. */
2
3		#ifndef lint
4		static char SCCSid[] = "$SunId$ SGI";
#	Line 10 \| Line 10 \| static char SCCSid[] = "$SunId$ SGI";
10
11		#include "rholo.h"
12
13	+	#ifndef NFRAG2CHUNK
14	+	#define NFRAG2CHUNK 4096 /* number of fragments to start chunking */
15	+	#endif
16	+
17	+	#ifndef abs
18		#define abs(x) ((x) > 0 ? (x) : -(x))
19	+	#endif
20	+	#ifndef sgn
21		#define sgn(x) ((x) > 0 ? 1 : (x) < 0 ? -1 : 0)
22	+	#endif
23
24	+	#define rchunk(n) (((n)+(RPACKSIZ/2))/RPACKSIZ)
25	+
26		static PACKHEAD complist=NULL; / list of beams to compute */
27		static int complen=0; /* length of complist */
28		static int listpos=0; /* current list position for next_packet */
29		static int lastin= -1; /* last ordered position in list */
30	+	static int chunky=0; /* clump beams together on disk */
31
32
33		int
34	<	beamcmp(b0, b1) /* comparison for descending compute order */
34	>	beamcmp(b0, b1) /* comparison for compute order */
35		register PACKHEAD b0, b1;
36		{
37	<	return( b1->nr(b0->nc+1) - b0->nr(b1->nc+1) );
37	>	BEAMI bip0, bip1;
38	>	register long c;
39	>	/* first check desired quantities */
40	>	if (chunky)
41	>	c = rchunk(b1->nr)*(rchunk(b0->nc)+1) -
42	>	rchunk(b0->nr)*(rchunk(b1->nc)+1);
43	>	else
44	>	c = b1->nr(b0->nc+1) - b0->nr(b1->nc+1);
45	>	if (c) return(c);
46	>	/* only one file, so skip the following: */
47	>	#if 0
48	>	/* next, check file descriptors */
49	>	c = hdlist[b0->hd]->fd - hdlist[b1->hd]->fd;
50	>	if (c) return(c);
51	>	#endif
52	>	/* finally, check file positions */
53	>	bip0 = &hdlist[b0->hd]->bi[b0->bi];
54	>	bip1 = &hdlist[b1->hd]->bi[b1->bi];
55	>	/* put diskless beams last */
56	>	if (!bip0->nrd)
57	>	return(bip1->nrd > 0);
58	>	if (!bip1->nrd)
59	>	return(-1);
60	>	c = bip0->fo - bip1->fo;
61	>	return(c < 0 ? -1 : c > 0);
62		}
63
64
65	+	int
66	+	beamidcmp(b0, b1) /* comparison for beam searching */
67	+	register PACKHEAD b0, b1;
68	+	{
69	+	register int c = b0->hd - b1->hd;
70	+
71	+	if (c) return(c);
72	+	return(b0->bi - b1->bi);
73	+	}
74	+
75	+
76	+	int
77	+	dispbeam(b, hb) /* display a holodeck beam */
78	+	register BEAM *b;
79	+	register HDBEAMI *hb;
80	+	{
81	+	static int n = 0;
82	+	static PACKHEAD *p = NULL;
83	+
84	+	if (b == NULL)
85	+	return;
86	+	if (b->nrm > n) { /* (re)allocate packet holder */
87	+	n = b->nrm;
88	+	if (p == NULL) p = (PACKHEAD *)malloc(packsiz(n));
89	+	else p = (PACKHEAD )realloc((char )p, packsiz(n));
90	+	if (p == NULL)
91	+	error(SYSTEM, "out of memory in dispbeam");
92	+	}
93	+	/* assign packet fields */
94	+	bcopy((char )hdbray(b), (char )packra(p), b->nrm*sizeof(RAYVAL));
95	+	p->nr = p->nc = b->nrm;
96	+	for (p->hd = 0; hdlist[p->hd] != hb->h; p->hd++)
97	+	if (hdlist[p->hd] == NULL)
98	+	error(CONSISTENCY, "unregistered holodeck in dispbeam");
99	+	p->bi = hb->b;
100	+	disp_packet(p); /* display it */
101	+	}
102	+
103	+
104		bundle_set(op, clist, nents) /* bundle set operation */
105		int op;
106		PACKHEAD *clist;
107		int nents;
108		{
109	<	BEAM *b;
110	<	PACKHEAD *p;
111	<	register int i, n;
112	<
109	>	int oldnr, n;
110	>	HDBEAMI *hbarr;
111	>	register PACKHEAD *csm;
112	>	register int i;
113	>	/* search for common members */
114	>	for (csm = clist+nents; csm-- > clist; )
115	>	csm->nc = -1;
116	>	qsort((char *)clist, nents, sizeof(PACKHEAD), beamidcmp);
117	>	for (i = 0; i < complen; i++) {
118	>	csm = (PACKHEAD )bsearch((char )(complist+i), (char *)clist,
119	>	nents, sizeof(PACKHEAD), beamidcmp);
120	>	if (csm == NULL)
121	>	continue;
122	>	oldnr = complist[i].nr;
123	>	csm->nc = complist[i].nc;
124	>	switch (op) {
125	>	case BS_ADD: /* add to count */
126	>	complist[i].nr += csm->nr;
127	>	csm->nr = 0;
128	>	break;
129	>	case BS_ADJ: /* reset count */
130	>	complist[i].nr = csm->nr;
131	>	csm->nr = 0;
132	>	break;
133	>	case BS_DEL: /* delete count */
134	>	if (csm->nr == 0 \|\| csm->nr >= complist[i].nr)
135	>	complist[i].nr = 0;
136	>	else
137	>	complist[i].nr -= csm->nr;
138	>	break;
139	>	}
140	>	if (complist[i].nr != oldnr)
141	>	lastin = -1; /* flag sort */
142	>	}
143	>	/* record computed rays for uncommon beams */
144	>	for (csm = clist+nents; csm-- > clist; )
145	>	if (csm->nc < 0)
146	>	csm->nc = bnrays(hdlist[csm->hd], csm->bi);
147	>	/* complete list operations */
148		switch (op) {
149		case BS_NEW: /* new computation set */
150	<	if (complen)
150	>	listpos = 0; lastin = -1;
151	>	if (complen) /* free old list */
152		free((char *)complist);
153	<	if (nents <= 0) {
154	<	complist = NULL;
45	<	listpos = complen = 0;
46	<	lastin = -1;
153	>	complist = NULL;
154	>	if (!(complen = nents))
155		return;
48	–	}
156		complist = (PACKHEAD )malloc(nentssizeof(PACKHEAD));
157		if (complist == NULL)
158		goto memerr;
159		bcopy((char )clist, (char )complist, nents*sizeof(PACKHEAD));
53	–	complen = nents; /* finish initialization below */
160		break;
161		case BS_ADD: /* add to computation set */
162		case BS_ADJ: /* adjust set quantities */
163		if (nents <= 0)
164		return;
165	<	/* merge any common members */
60	<	for (n = 0; n < nents; n++) {
61	<	for (i = 0; i < complen; i++)
62	<	if (clist[n].bi == complist[i].bi &&
63	<	clist[n].hd == complist[i].hd) {
64	<	int oldnr = complist[i].nr;
65	<	if (op == BS_ADD)
66	<	complist[i].nr += clist[n].nr;
67	<	else /* op == BS_ADJ */
68	<	complist[i].nr = clist[n].nr;
69	<	clist[n].nr = 0;
70	<	clist[n].nc = complist[i].nc;
71	<	if (complist[i].nr != oldnr)
72	<	lastin = -1; /* flag sort */
73	<	break;
74	<	}
75	<	if (i >= complen)
76	<	clist[n].nc = bnrays(hdlist[clist[n].hd],
77	<	clist[n].bi);
78	<	}
79	<	/* sort updated list */
80	<	sortcomplist();
81	<	/* sort new entries */
165	>	sortcomplist(); /* sort updated list & new entries */
166		qsort((char *)clist, nents, sizeof(PACKHEAD), beamcmp);
167		/* what can't we satisfy? */
168	<	for (n = 0; n < nents && clist[n].nr > clist[n].nc; n++)
168	>	for (i = nents, csm = clist; i-- && csm->nr > csm->nc; csm++)
169		;
170	<	if (op == BS_ADJ)
171	<	nents = n;
170	>	n = csm - clist;
171	>	if (op == BS_ADJ) { /* don't regenerate adjusted beams */
172	>	for (++i; i-- && csm->nr > 0; csm++)
173	>	;
174	>	nents = csm - clist;
175	>	}
176		if (n) { /* allocate space for merged list */
177		PACKHEAD *newlist;
178		newlist = (PACKHEAD *)malloc(
#	Line 102 \| Line 190 \| int nents;
190		lastin = complen-1; /* list is now sorted */
191		break;
192		case BS_DEL: /* delete from computation set */
193	<	if (nents <= 0)
106	<	return;
107	<	/* find each member */
108	<	for (i = 0; i < complen; i++)
109	<	for (n = 0; n < nents; n++)
110	<	if (clist[n].bi == complist[i].bi &&
111	<	clist[n].hd == complist[i].hd) {
112	<	if (clist[n].nr == 0 \|\|
113	<	clist[n].nr >= complist[i].nr)
114	<	complist[i].nr = 0;
115	<	else
116	<	complist[i].nr -= clist[n].nr;
117	<	lastin = -1; /* flag full sort */
118	<	break;
119	<	}
120	<	return; /* no display */
193	>	return; /* already done */
194		default:
195		error(CONSISTENCY, "bundle_set called with unknown operation");
196		}
197	<	if (outdev == NULL)
197	>	if (outdev == NULL \|\| !nents) /* nothing to display? */
198		return;
199	<	n = 32RPACKSIZ; / allocate packet holder */
200	<	p = (PACKHEAD *)malloc(packsiz(n));
201	<	if (p == NULL)
202	<	goto memerr;
203	<	/* display what we have */
204	<	for (i = 0; i < nents; i++)
205	<	if ((b = hdgetbeam(hdlist[clist[i].hd], clist[i].bi)) != NULL) {
206	<	if (b->nrm > n) {
207	<	n = b->nrm;
135	<	p = (PACKHEAD )realloc((char )p, packsiz(n));
136	<	if (p == NULL)
137	<	goto memerr;
138	<	}
139	<	bcopy((char )hdbray(b), (char )packra(p),
140	<	b->nrm*sizeof(RAYVAL));
141	<	p->hd = clist[i].hd;
142	<	p->bi = clist[i].bi;
143	<	p->nr = p->nc = b->nrm;
144	<	disp_packet(p);
145	<	}
146	<	free((char )p); / clean up */
147	<	if (op == BS_NEW) {
148	<	done_packets(flush_queue()); /* empty queue, so we can... */
149	<	for (i = 0; i < complen; i++) /* ...get number computed */
150	<	complist[i].nc = bnrays(hdlist[complist[i].hd],
151	<	complist[i].bi);
199	>	/* load and display beams we have */
200	>	hbarr = (HDBEAMI )malloc(nentssizeof(HDBEAMI));
201	>	for (i = nents; i--; ) {
202	>	hbarr[i].h = hdlist[clist[i].hd];
203	>	hbarr[i].b = clist[i].bi;
204	>	}
205	>	hdloadbeams(hbarr, nents, dispbeam);
206	>	free((char *)hbarr);
207	>	if (hdfragflags&FF_READ) {
208		listpos = 0;
209	<	lastin = -1; /* flag for initial sort */
209	>	lastin = -1; /* need to re-sort list */
210		}
211		return;
212		memerr:
#	Line 176 \| Line 232 \| int bi;
232		VSUM(edgeA, cp[1], cp[0], -1.0);
233		VSUM(edgeB, cp[3], cp[1], -1.0);
234		fcross(crossp[i], edgeA, edgeB);
179	–	VSUM(edgeA, cp[2], cp[3], -1.0);
180	–	VSUM(edgeB, cp[0], cp[2], -1.0);
181	–	fcross(v, edgeA, edgeB);
182	–	VSUM(crossp[i], crossp[i], v, 1.0);
235		/* compute center */
236		cent[i][0] = 0.5*(cp[0][0] + cp[2][0]);
237		cent[i][1] = 0.5*(cp[0][1] + cp[2][1]);
#	Line 188 \| Line 240 \| int bi;
240		/* compute difference vector */
241		VSUM(diffv, cent[1], cent[0], -1.0);
242		for (i = 0; i < 2; i++) { /* compute volume contributions */
243	<	vol[i] = 0.25*DOT(crossp[i], diffv);
243	>	vol[i] = 0.5*DOT(crossp[i], diffv);
244		if (vol[i] < 0.) vol[i] = -vol[i];
245		}
246		return(vol[0] + vol[1]); /* return total volume */
#	Line 201 \| Line 253 \| init_global() /* initialize global ray computation *
253		double frac;
254		int i;
255		register int j, k;
256	<	/* free old list */
257	<	if (complen > 0)
256	>	/* free old list and empty queue */
257	>	if (complen > 0) {
258		free((char *)complist);
259	+	done_packets(flush_queue());
260	+	}
261		/* allocate beam list */
262		complen = 0;
263		for (j = 0; hdlist[j] != NULL; j++)
#	Line 214 \| Line 268 \| init_global() /* initialize global ray computation *
268		/* compute beam weights */
269		k = 0;
270		for (j = 0; hdlist[j] != NULL; j++) {
271	<	frac = 512. * hdlist[j]->wg[0] *
272	<	hdlist[j]->wg[1] * hdlist[j]->wg[2];
271	>	frac = 512. * VLEN(hdlist[j]->wg[0]) *
272	>	VLEN(hdlist[j]->wg[1]) *
273	>	VLEN(hdlist[j]->wg[2]);
274		for (i = nbeams(hdlist[j]); i > 0; i--) {
275		complist[k].hd = j;
276		complist[k].bi = i;
277		complist[k].nr = frac*beamvolume(hdlist[j], i) + 0.5;
278	+	complist[k].nc = bnrays(hdlist[j], i);
279		wtotal += complist[k++].nr;
280		}
281		}
#	Line 229 \| Line 285 \| init_global() /* initialize global ray computation *
285		else
286		frac = 1024.1024.16384. / (wtotal*sizeof(RAYVAL));
287		while (k--)
288	<	complist[k].nr = frac * complist[k].nr;
289	<	listpos = 0; lastin = -1; /* flag initial sort */
288	>	complist[k].nr = frac*complist[k].nr + 0.5;
289	>	listpos = 0; lastin = -1; /* perform initial sort */
290	>	sortcomplist();
291	>	/* no view vicinity */
292	>	myeye.rng = 0;
293		}
294
295
296		mergeclists(cdest, cl1, n1, cl2, n2) /* merge two sorted lists */
297	<	PACKHEAD *cdest;
298	<	PACKHEAD cl1, cl2;
297	>	register PACKHEAD *cdest;
298	>	register PACKHEAD cl1, cl2;
299		int n1, n2;
300		{
301	<	int cmp;
301	>	register int cmp;
302
303		while (n1 \| n2) {
304		if (!n1) cmp = 1;
#	Line 260 \| Line 319 \| int n1, n2;
319		sortcomplist() /* fix our list order */
320		{
321		PACKHEAD *list2;
322	+	int listlen;
323		register int i;
324
325		if (complen <= 0) /* check to see if there is even a list */
326		return;
327	+	if (!chunky) /* check to see if fragment list is full */
328	+	if (!hdfragOK(hdlist[0]->fd, &listlen, NULL)
329	+	#if NFRAG2CHUNK
330	+	\|\| listlen >= NFRAG2CHUNK
331	+	#endif
332	+	) {
333	+	#ifdef DEBUG
334	+	error(WARNING, "using chunky comparison mode");
335	+	#endif
336	+	chunky++; /* use "chunky" comparison */
337	+	lastin = -1; /* need to re-sort list */
338	+	}
339		if (lastin < 0 \|\| listpos4 >= complen3)
340		qsort((char *)complist, complen, sizeof(PACKHEAD), beamcmp);
341		else if (listpos) { /* else sort and merge sublist */
#	Line 286 \| Line 358 \| *sortcomplist() / fix our list order /*
358		} else if (i < complen-1) {
359		list2 = (PACKHEAD )realloc((char )complist,
360		(i+1)*sizeof(PACKHEAD));
361	<	if (list2 != NULL) {
361	>	if (list2 != NULL)
362		complist = list2;
363	<	complen = i+1;
292	<	}
363	>	complen = i+1;
364		}
365		listpos = 0; lastin = i;
366		}
#	Line 300 \| Line 371 \| *sortcomplist() / fix our list order /*
371		* more or less evenly distributed, such that computing a packet causes
372		* a given bundle to move way down in the computation order. We keep
373		* track of where the computed bundle with the highest priority would end
374	<	* up, and if we get further in our compute list than this, we resort the
374	>	* up, and if we get further in our compute list than this, we re-sort the
375		* list and start again from the beginning. Since
376		* a merge sort is used, the sorting costs are minimal.
377		*/
378	<	next_packet(p) /* prepare packet for computation */
378	>	next_packet(p, n) /* prepare packet for computation */
379		register PACKET *p;
380	+	int n;
381		{
382		register int i;
383
#	Line 319 \| Line 391 \| *register PACKET p;**
391		p->nr = complist[listpos].nr - p->nc;
392		if (p->nr <= 0)
393		return(0);
394	<	if (p->nr > RPACKSIZ)
395	<	p->nr = RPACKSIZ;
394	>	#ifdef DEBUG
395	>	if (n < 1 \| n > RPACKSIZ)
396	>	error(CONSISTENCY, "next_packet called with bad n value");
397	>	#endif
398	>	if (p->nr > n)
399	>	p->nr = n;
400		complist[listpos].nc += p->nr; /* find where this one would go */
401	+	if (hdgetbeam(hdlist[p->hd], p->bi) != NULL)
402	+	hdfreefrag(hdlist[p->hd], p->bi);
403		while (lastin > listpos &&
404		beamcmp(complist+lastin, complist+listpos) > 0)
405		lastin--;

Diff Legend

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

Comparing ray/src/hd/rholo3.c (file contents): Revision 3.13 by gregl, Mon Dec 15 20:44:28 1997 UTC vs. Revision 3.27 by gwlarson, Thu Jan 7 22:04:49 1999 UTC

Diff Legend

Comparing ray/src/hd/rholo3.c (file contents):
Revision 3.13 by gregl, Mon Dec 15 20:44:28 1997 UTC vs.
Revision 3.27 by gwlarson, Thu Jan 7 22:04:49 1999 UTC