[ViewVC] Diff of: radiance/ray/src/hd/rhd

Comparing ray/src/hd/rhd_qtree.c (file contents):
Revision 3.9 by gregl, Tue Nov 25 16:52:04 1997 UTC vs.
Revision 3.29 by greg, Fri Oct 5 19:19:16 2018 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1997 Silicon Graphics, Inc. */
2	–
1		#ifndef lint
2	<	static char SCCSid[] = "$SunId$ SGI";
2	>	static const char RCSid[] = "$Id$";
3		#endif
6	–
4		/*
5		* Quadtree driver support routines.
6		*/
7
8	+	#include <string.h>
9	+
10		#include "standard.h"
11		#include "rhd_qtree.h"
12		/* quantity of leaves to free at a time */
13		#ifndef LFREEPCT
14		#define LFREEPCT 25
15		#endif
16	+	/* maximum allowed angle difference (deg.) */
17	+	#ifndef MAXANG
18	+	#define MAXANG 20
19	+	#endif
20	+	#if MAXANG>0
21	+	#define MAXDIFF2 ( MAXANGMAXANG (PI*PI/180./180.))
22	+	#endif
23
24	+	#define abs(i) ((i) < 0 ? -(i) : (i))
25	+
26		RTREE qtrunk; /* our quadtree trunk */
27	<	double qtDepthEps = .02; /* epsilon to compare depths (z fraction) */
27	>	double qtDepthEps = .05; /* epsilon to compare depths (z fraction) */
28		int qtMinNodesiz = 2; /* minimum node dimension (pixels) */
29		struct rleaves qtL; /* our pile of leaves */
30
31	+	int rayqleft = 0; /* rays left to queue before flush */
32	+
33	+	static int32 falleaves; /* our list of fallen leaves */
34	+
35	+	#define composted(li) (qtL.bl <= qtL.tl ? \
36	+	((li) < qtL.bl \|\| (li) >= qtL.tl) : \
37	+	((li) < qtL.bl && (li) >= qtL.tl))
38	+
39		#define TBUNDLESIZ 409 /* number of twigs in a bundle */
40
41		static RTREE *twigbundle; / free twig blocks (NULL term.) */
42		static int nexttwig; /* next free twig */
43
44	+	static RTREE *newtwig(void);
45	+	static void qtFreeTree(int really);
46	+	static void shaketree(RTREE *tp);
47	+	static int putleaf(int li, int drop);
48
49	+
50		static RTREE *
51	<	newtwig() /* allocate a twig */
51	>	newtwig(void) /* allocate a twig */
52		{
53	<	register int bi;
53	>	int bi;
54
55		if (twigbundle == NULL) { /* initialize */
56		twigbundle = (RTREE *)malloc(sizeof(RTREE ));
#	Line 39 \| Line 60 \| *newtwig() / allocate a twig /*
60		}
61		bi = nexttwig / TBUNDLESIZ;
62		if (twigbundle[bi] == NULL) { /* new block */
63	<	twigbundle = (RTREE *)realloc((char )twigbundle,
63	>	twigbundle = (RTREE *)realloc((void )twigbundle,
64		(bi+2)sizeof(RTREE ));
65		if (twigbundle == NULL)
66		goto memerr;
#	Line 52 \| Line 73 \| *newtwig() / allocate a twig /*
73		return(twigbundle[bi] + (nexttwig++ - bi*TBUNDLESIZ));
74		memerr:
75		error(SYSTEM, "out of memory in newtwig");
76	+	return NULL; /* pro forma return */
77		}
78
79
80	<	qtFreeTree(really) /* free allocated twigs */
81	<	int really;
80	>	static void
81	>	qtFreeTree( /* free allocated twigs */
82	>	int really
83	>	)
84		{
85	<	register int i;
85	>	int i;
86
87		qtrunk.flgs = CH_ANY; /* chop down tree */
88		if (twigbundle == NULL)
#	Line 67 \| Line 91 \| int really;
91		nexttwig = 0;
92		if (!really) { /* just clear allocated blocks */
93		while (i--)
94	<	bzero((char )twigbundle[i], TBUNDLESIZsizeof(RTREE));
94	>	memset((char )twigbundle[i], '\0', TBUNDLESIZsizeof(RTREE));
95		return;
96		}
97		/* else "really" means free up memory */
98		for (i = 0; twigbundle[i] != NULL; i++)
99	<	free((char *)twigbundle[i]);
100	<	free((char *)twigbundle);
99	>	free((void *)twigbundle[i]);
100	>	free((void *)twigbundle);
101		twigbundle = NULL;
102		}
103
104
105	<	static int
106	<	newleaf() /* allocate a leaf from our pile */
83	<	{
84	<	int li;
85	<
86	<	li = qtL.tl++;
87	<	if (qtL.tl >= qtL.nl) /* get next leaf in ring */
88	<	qtL.tl = 0;
89	<	if (qtL.tl == qtL.bl) /* need to shake some free */
90	<	qtCompost(LFREEPCT);
91	<	return(li);
92	<	}
105	>	#define LEAFSIZ (3*sizeof(float)+sizeof(int32)+\
106	>	sizeof(TMbright)+6*sizeof(uby8))
107
94	–
95	–	#define LEAFSIZ (3sizeof(float)+sizeof(TMbright)+6sizeof(BYTE))
96	–
108		int
109	<	qtAllocLeaves(n) /* allocate space for n leaves */
110	<	register int n;
109	>	qtAllocLeaves( /* allocate space for n leaves */
110	>	int n
111	>	)
112		{
113		unsigned nbytes;
114	<	register unsigned i;
114	>	unsigned i;
115
116		qtFreeTree(0); /* make sure tree is empty */
117		if (n <= 0)
#	Line 118 \| Line 130 \| register int n;
130		return(0);
131		/* assign larger alignment types earlier */
132		qtL.wp = (float (*)[3])qtL.base;
133	<	qtL.brt = (TMbright *)(qtL.wp + n);
134	<	qtL.chr = (BYTE (*)[3])(qtL.brt + n);
135	<	qtL.rgb = (BYTE (*)[3])(qtL.chr + n);
133	>	qtL.wd = (int32 *)(qtL.wp + n);
134	>	qtL.brt = (TMbright *)(qtL.wd + n);
135	>	qtL.chr = (uby8 (*)[3])(qtL.brt + n);
136	>	qtL.rgb = (uby8 (*)[3])(qtL.chr + n);
137		qtL.nl = n;
138		qtL.tml = qtL.bl = qtL.tl = 0;
139	+	falleaves = -1;
140		return(n);
141		}
142
143		#undef LEAFSIZ
144
145
146	<	qtFreeLeaves() /* free our allocated leaves and twigs */
146	>	void
147	>	qtFreeLeaves(void) /* free our allocated leaves and twigs */
148		{
149		qtFreeTree(1); /* free tree also */
150		if (qtL.nl <= 0)
#	Line 140 \| Line 155 \| *qtFreeLeaves() / free our allocated leaves and twig**
155		}
156
157
158	<	static
159	<	shaketree(tp) /* shake dead leaves from tree */
160	<	register RTREE *tp;
158	>	static void
159	>	shaketree( /* shake dead leaves from tree */
160	>	RTREE *tp
161	>	)
162		{
163	<	register int i, li;
163	>	int i, li;
164
165		for (i = 0; i < 4; i++)
166		if (tp->flgs & BRF(i)) {
#	Line 153 \| Line 169 \| *register RTREE tp;**
169		tp->flgs &= ~BRF(i);
170		} else if (tp->flgs & LFF(i)) {
171		li = tp->k[i].li;
172	<	if (qtL.bl < qtL.tl ?
157	<	(li < qtL.bl \|\| li >= qtL.tl) :
158	<	(li < qtL.bl && li >= qtL.tl))
172	>	if (composted(li))
173		tp->flgs &= ~LFF(i);
174		}
175		}
176
177
178		int
179	<	qtCompost(pct) /* free up some leaves */
180	<	int pct;
179	>	qtCompost( /* free up some leaves */
180	>	int pct
181	>	)
182		{
183	+	int32 *fl;
184		int nused, nclear, nmapped;
169	–
185		/* figure out how many leaves to clear */
186		nclear = qtL.nl * pct / 100;
187		nused = qtL.tl - qtL.bl;
#	Line 177 \| Line 192 \| int pct;
192		if (nclear >= nused) { /* clear them all */
193		qtFreeTree(0);
194		qtL.tml = qtL.bl = qtL.tl = 0;
195	+	falleaves = -1;
196		return(nused);
197		}
198		/* else clear leaves from bottom */
#	Line 185 \| Line 201 \| int pct;
201		qtL.bl += nclear;
202		if (qtL.bl >= qtL.nl) qtL.bl -= qtL.nl;
203		if (nmapped <= nclear) qtL.tml = qtL.bl;
204	<	shaketree(&qtrunk);
204	>	shaketree(&qtrunk); /* dereference composted leaves */
205	>	for (fl = &falleaves; fl >= 0; fl = qtL.wd + fl)
206	>	while (composted(*fl))
207	>	if ((fl = qtL.wd[fl]) < 0)
208	>	return(nclear);
209		return(nclear);
210		}
211
212
213		int
214	<	qtFindLeaf(x, y) /* find closest leaf to (x,y) */
215	<	int x, y;
214	>	qtFindLeaf( /* find closest leaf to (x,y) */
215	>	int x,
216	>	int y
217	>	)
218		{
219	<	register RTREE *tp = &qtrunk;
219	>	RTREE *tp = &qtrunk;
220		int li = -1;
221		int x0=0, y0=0, x1=odev.hres, y1=odev.vres;
222		int mx, my;
223	<	register int q;
223	>	int q;
224		/* check limits */
225		if (x < 0 \|\| x >= odev.hres \|\| y < 0 \|\| y >= odev.vres)
226		return(-1);
#	Line 227 \| Line 249 \| int x, y;
249		}
250
251
252	<	static
253	<	addleaf(li) /* add a leaf to our tree */
254	<	int li;
252	>	static int
253	>	putleaf( /* put a leaf in our tree */
254	>	int li,
255	>	int drop
256	>	)
257		{
258	<	register RTREE *tp = &qtrunk;
258	>	RTREE *tp = &qtrunk;
259		int x0=0, y0=0, x1=odev.hres, y1=odev.vres;
260		int lo = -1;
261	+	double d2;
262		int x, y, mx, my;
263		double z;
264	<	FVECT ip, wp;
265	<	register int q;
266	<	/* compute leaf location */
264	>	FVECT ip, wp, vd;
265	>	int q;
266	>	/* check for dead leaf */
267	>	if (!qtL.chr[li][1] && !(qtL.chr[li][0] \| qtL.chr[li][2]))
268	>	return(0);
269	>	/* compute leaf location in view */
270		VCOPY(wp, qtL.wp[li]);
271	<	viewloc(ip, &odev.v, wp);
272	<	if (ip[2] <= 0. \|\| ip[0] < 0. \|\| ip[0] >= 1.
273	<	\|\| ip[1] < 0. \|\| ip[1] >= 1.)
274	<	return;
271	>	if (viewloc(ip, &odev.v, wp) != 1)
272	>	goto dropit; /* behind or outside view */
273	>	#ifdef DEBUG
274	>	if (odev.v.type == VT_PAR \| odev.v.vfore > FTINY)
275	>	error(INTERNAL, "bad view assumption in putleaf");
276	>	#endif
277	>	for (q = 0; q < 3; q++)
278	>	vd[q] = (wp[q] - odev.v.vp[q])/ip[2];
279	>	d2 = fdir2diff(qtL.wd[li], vd);
280	>	#ifdef MAXDIFF2
281	>	if (d2 > MAXDIFF2)
282	>	goto dropit; /* leaf dir. too far off */
283	>	#endif
284		x = ip[0] * odev.hres;
285		y = ip[1] * odev.vres;
286		z = ip[2];
#	Line 264 \| Line 301 \| int li;
301		if (!(tp->flgs & LFF(q))) { /* found stem for leaf */
302		tp->k[q].li = li;
303		tp->flgs \|= CHLFF(q);
304	<	break;
304	>	return(1);
305		}
306	<	/* check existing leaf */
270	<	if (lo != tp->k[q].li) {
306	>	if (lo != tp->k[q].li) { /* check old leaf */
307		lo = tp->k[q].li;
308		VCOPY(wp, qtL.wp[lo]);
309		viewloc(ip, &odev.v, wp);
310		}
311		/* is node minimum size? */
312	<	if (x1-x0 <= qtMinNodesiz \|\| y1-y0 <= qtMinNodesiz) {
313	<	if (z > (1.-qtDepthEps)ip[2]) / who is closer? */
314	<	return; /* old one is */
315	<	tp->k[q].li = li; /* new one is */
312	>	if (y1-y0 <= qtMinNodesiz \|\| x1-x0 <= qtMinNodesiz) {
313	>	if (z > (1.+qtDepthEps)*ip[2])
314	>	break; /* old one closer */
315	>	if (z >= (1.-qtDepthEps)*ip[2] &&
316	>	fdir2diff(qtL.wd[lo], vd) < d2)
317	>	break; /* old one better */
318	>	tp->k[q].li = li; /* attach new */
319		tp->flgs \|= CHF(q);
320	+	li = lo; /* drop old... */
321		break;
322		}
323		tp->flgs &= ~LFF(q); /* else grow tree */
#	Line 288 \| Line 328 \| int li;
328		my = ip[1] * odev.vres;
329		if (mx >= (x0 + x1) >> 1) q \|= 01;
330		if (my >= (y0 + y1) >> 1) q \|= 02;
331	+	tp->flgs = CH_ANY\|LFF(q); /* all new */
332		tp->k[q].li = lo;
292	–	tp->flgs \|= LFF(q)\|CH_ANY; /* all new */
333		}
334	+	dropit:
335	+	if (drop) {
336	+	if (li+1 == (qtL.tl ? qtL.tl : qtL.nl))
337	+	qtL.tl = li; /* special case */
338	+	else {
339	+	qtL.chr[li][0] = qtL.chr[li][1] = qtL.chr[li][2] = 0;
340	+	qtL.wd[li] = falleaves;
341	+	falleaves = li;
342	+	}
343	+	}
344	+	return(li == lo);
345		}
346
347
348	<	dev_value(c, p) /* add a pixel value to our quadtree */
349	<	COLR c;
350	<	FVECT p;
348	>	void
349	>	dev_value( /* add a pixel value to our quadtree */
350	>	COLR c,
351	>	FVECT d,
352	>	FVECT p
353	>	)
354		{
355	<	register int li;
356	<
357	<	li = newleaf();
358	<	VCOPY(qtL.wp[li], p);
359	<	tmCvColrs(&qtL.brt[li], qtL.chr[li], c, 1);
360	<	addleaf(li);
355	>	int li;
356	>	int mapit;
357	>	/* grab a leaf */
358	>	if (!imm_mode && falleaves >= 0) { /* check for fallen leaves */
359	>	li = falleaves;
360	>	falleaves = qtL.wd[li];
361	>	mapit = qtL.tml <= qtL.tl ?
362	>	(li < qtL.tml \|\| li >= qtL.tl) :
363	>	(li < qtL.tml && li >= qtL.tl) ;
364	>	} else { /* else allocate new one */
365	>	li = qtL.tl++;
366	>	if (qtL.tl >= qtL.nl) /* next leaf in ring */
367	>	qtL.tl = 0;
368	>	if (qtL.tl == qtL.bl) /* need to shake some free */
369	>	qtCompost(LFREEPCT);
370	>	mapit = 0; /* we'll map it later */
371	>	}
372	>	if (p == NULL)
373	>	VSUM(qtL.wp[li], odev.v.vp, d, FHUGE);
374	>	else
375	>	VCOPY(qtL.wp[li], p);
376	>	qtL.wd[li] = encodedir(d);
377	>	tmCvColrs(tmGlobal, &qtL.brt[li], qtL.chr[li], (COLR *)c, 1);
378	>	if (putleaf(li, 1)) {
379	>	if (mapit)
380	>	tmMapPixels(tmGlobal, (uby8 *)(qtL.rgb+li), qtL.brt+li,
381	>	(uby8 *)(qtL.chr+li), 1);
382	>	if (--rayqleft == 0)
383	>	dev_flush(); /* flush output */
384	>	}
385		}
386
387
388	<	qtReplant() /* replant our tree using new view */
388	>	void
389	>	qtReplant(void) /* replant our tree using new view */
390		{
391	<	register int i;
391	>	int i;
392		/* anything to replant? */
393		if (qtL.bl == qtL.tl)
394		return;
395		qtFreeTree(0); /* blow the old tree away */
396		/* regrow it in new place */
397		for (i = qtL.bl; i != qtL.tl; ) {
398	<	addleaf(i);
398	>	putleaf(i, 0);
399		if (++i >= qtL.nl) i = 0;
400		}
401		}
402
403
404	<	qtMapLeaves(redo) /* map our leaves to RGB */
405	<	int redo;
404	>	int
405	>	qtMapLeaves( /* map our leaves to RGB */
406	>	int redo
407	>	)
408		{
409		int aorg, alen, borg, blen;
410		/* recompute mapping? */
#	Line 344 \| Line 425 \| int redo;
425		}
426		/* (re)compute tone mapping? */
427		if (qtL.tml == qtL.bl) {
428	<	tmClearHisto();
429	<	tmAddHisto(qtL.brt+aorg, alen, 1);
428	>	tmClearHisto(tmGlobal);
429	>	tmAddHisto(tmGlobal, qtL.brt+aorg, alen, 1);
430		if (blen > 0)
431	<	tmAddHisto(qtL.brt+borg, blen, 1);
432	<	if (tmComputeMapping(0., 0., 0.) != TM_E_OK)
431	>	tmAddHisto(tmGlobal, qtL.brt+borg, blen, 1);
432	>	if (tmComputeMapping(tmGlobal, 0., 0., 0.) != TM_E_OK)
433		return(0);
434		}
435	<	if (tmMapPixels(qtL.rgb+aorg, qtL.brt+aorg,
436	<	qtL.chr+aorg, alen) != TM_E_OK)
435	>	if (tmMapPixels(tmGlobal, (uby8 *)(qtL.rgb+aorg), qtL.brt+aorg,
436	>	(uby8 *)(qtL.chr+aorg), alen) != TM_E_OK)
437		return(0);
438		if (blen > 0)
439	<	tmMapPixels(qtL.rgb+borg, qtL.brt+borg,
440	<	qtL.chr+borg, blen);
439	>	tmMapPixels(tmGlobal, (uby8 *)(qtL.rgb+borg), qtL.brt+borg,
440	>	(uby8 *)(qtL.chr+borg), blen);
441		qtL.tml = qtL.tl;
442		return(1);
443		}

Diff Legend

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+Removed lines
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Comparing ray/src/hd/rhd_qtree.c (file contents): Revision 3.9 by gregl, Tue Nov 25 16:52:04 1997 UTC vs. Revision 3.29 by greg, Fri Oct 5 19:19:16 2018 UTC

Diff Legend

Comparing ray/src/hd/rhd_qtree.c (file contents):
Revision 3.9 by gregl, Tue Nov 25 16:52:04 1997 UTC vs.
Revision 3.29 by greg, Fri Oct 5 19:19:16 2018 UTC