[ViewVC] Diff of: radiance/ray/src/hd/rholo2.c

Comparing ray/src/hd/rholo2.c (file contents):
Revision 3.22 by greg, Sat Feb 22 02:07:25 2003 UTC vs.
Revision 3.31 by greg, Thu Apr 21 22:31:42 2022 UTC

#	Line 5 \| Line 5 \| static const char RCSid[] = "$Id$";
5		* Rtrace support routines for holodeck rendering
6		*/
7
8	+	#include <time.h>
9	+
10		#include "rholo.h"
11		#include "paths.h"
12		#include "random.h"
#	Line 20 \| Line 22 \| struct gclim {
22		double gmin[2], gmax[2]; /* grid coordinate limits */
23		}; /* a grid coordinate range */
24
25	+	static void initeyelim(struct gclim gcl, HOLO hp, GCOORD *gc);
26	+	static void groweyelim(struct gclim gcl, GCOORD gc,
27	+	double r0, double r1, int tight);
28	+	static int clipeyelim(short rrng[2][2], struct gclim *gcl);
29
30	<	static
31	<	initeyelim(gcl, hp, gc) /* initialize grid coordinate limits */
32	<	register struct gclim *gcl;
33	<	register HOLO *hp;
34	<	GCOORD *gc;
30	>
31	>	static void
32	>	initeyelim( /* initialize grid coordinate limits */
33	>	struct gclim *gcl,
34	>	HOLO *hp,
35	>	GCOORD *gc
36	>	)
37		{
38	<	register FLOAT *v;
39	<	register int i;
38	>	RREAL *v;
39	>	int i;
40
41		if (hp != NULL) {
42		hdgrid(gcl->egp, gcl->hp = hp, myeye.vpt);
#	Line 38 \| Line 46 \| *GCOORD gc;**
46		gcl->erg2 = (1./3.) myeye.rng*myeye.rng;
47		}
48		if (gc != NULL)
49	<	copystruct(&gcl->gc, gc);
49	>	gcl->gc = *gc;
50		gcl->gmin[0] = gcl->gmin[1] = FHUGE;
51		gcl->gmax[0] = gcl->gmax[1] = -FHUGE;
52		}
53
54
55	<	static
56	<	groweyelim(gcl, gc, r0, r1, tight) /* grow grid limits about eye point */
57	<	register struct gclim *gcl;
58	<	GCOORD *gc;
59	<	double r0, r1;
60	<	int tight;
55	>	static void
56	>	groweyelim( /* grow grid limits about eye point */
57	>	struct gclim *gcl,
58	>	GCOORD *gc,
59	>	double r0,
60	>	double r1,
61	>	int tight
62	>	)
63		{
64		FVECT gp, ab;
65		double ab2, od, cfact;
#	Line 97 \| Line 107 \| int tight;
107		f = wallpos(wallpossqcoef[gw] + licoef[gw]) + cnst;
108		for (i = 0; i < 2; i++) {
109		if (i) { /* swap x and y coefficients */
110	<	register double t;
110	>	double t;
111		t = a; a = c; c = t;
112		t = d; d = e; e = t;
113		}
#	Line 106 \| Line 116 \| int tight;
116		d(cd-be) + fb*b);
117		while (n-- > 0) {
118		if (gc->w>>1 == gi[i] &&
119	<	(gc->w&1) ^ root[n] < gp[gc->w>>1]) {
119	>	(gc->w&1) ^ (root[n] < gp[gc->w>>1])) {
120		if (gc->w&1)
121		gcl->gmin[i] = -FHUGE;
122		else
#	Line 132 \| Line 142 \| int tight;
142		n = quadratic(root, a, byex+d, yex(yex*c+e)+f);
143		while (n-- > 0) {
144		if (gc->w>>1 == gi[i] &&
145	<	(gc->w&1) ^ root[n] < gp[gc->w>>1])
145	>	(gc->w&1) ^ (root[n] < gp[gc->w>>1]))
146		continue;
147		if (root[n] < gcl->gmin[i])
148		gcl->gmin[i] = root[n];
#	Line 145 \| Line 155 \| int tight;
155
156
157		static int
158	<	clipeyelim(rrng, gcl) /* clip eye limits to grid cell */
159	<	register short rrng[2][2];
160	<	register struct gclim *gcl;
158	>	clipeyelim( /* clip eye limits to grid cell */
159	>	short rrng[2][2],
160	>	struct gclim *gcl
161	>	)
162		{
163		int incell = 1;
164	<	register int i;
164	>	int i;
165
166		for (i = 0; i < 2; i++) {
167		if (gcl->gmin[i] < gcl->gc.i[i])
#	Line 170 \| Line 181 \| *register struct gclim gcl;**
181		}
182
183
184	<	packrays(rod, p) /* pack ray origins and directions */
185	<	register float *rod;
186	<	register PACKET *p;
184	>	void
185	>	packrays( /* pack ray origins and directions */
186	>	float *rod,
187	>	PACKET *p
188	>	)
189		{
190		#if 0
191		double dist2sum = 0.;
#	Line 185 \| Line 198 \| *register PACKET p;**
198		GCOORD gc[2];
199		FVECT ro, rd;
200		double d;
201	<	register int i;
201	>	int i;
202
203		if (!hdbcoord(gc, hdlist[p->hd], p->bi))
204		error(CONSISTENCY, "bad beam index in packrays");
#	Line 203 \| Line 216 \| *register PACKET p;**
216		retry:
217		if (useyelim) {
218		initeyelim(&eyelim, NULL, gc+1);
219	<	p->ra[i].r[0][0] = (int)(frandom()*rrng0[0][1])
220	<	+ rrng0[0][0];
208	<	p->ra[i].r[0][1] = (int)(frandom()*rrng0[1][1])
209	<	+ rrng0[1][0];
219	>	p->ra[i].r[0][0] = irandom(rrng0[0][1]) + rrng0[0][0];
220	>	p->ra[i].r[0][1] = irandom(rrng0[1][1]) + rrng0[1][0];
221		groweyelim(&eyelim, gc,
222		(1./256.)*(p->ra[i].r[0][0]+.5),
223		(1./256.)*(p->ra[i].r[0][1]+.5), 1);
#	Line 219 \| Line 230 \| *register PACKET p;**
230		#endif
231		goto retry;
232		}
233	<	p->ra[i].r[1][0] = (int)(frandom()*rrng1[0][1])
234	<	+ rrng1[0][0];
224	<	p->ra[i].r[1][1] = (int)(frandom()*rrng1[1][1])
225	<	+ rrng1[1][0];
233	>	p->ra[i].r[1][0] = irandom(rrng1[0][1]) + rrng1[0][0];
234	>	p->ra[i].r[1][1] = irandom(rrng1[1][1]) + rrng1[1][0];
235		} else {
236	<	p->ra[i].r[0][0] = frandom() * 256.;
237	<	p->ra[i].r[0][1] = frandom() * 256.;
238	<	p->ra[i].r[1][0] = frandom() * 256.;
239	<	p->ra[i].r[1][1] = frandom() * 256.;
236	>	p->ra[i].r[0][0] = random() & 0xff;
237	>	p->ra[i].r[0][1] = random() & 0xff;
238	>	p->ra[i].r[1][0] = random() & 0xff;
239	>	p->ra[i].r[1][1] = random() & 0xff;
240		}
241		d = hdray(ro, rd, hdlist[p->hd], gc, p->ra[i].r);
242		#if 0
#	Line 252 \| Line 261 \| *register PACKET p;**
261		}
262
263
264	<	donerays(p, rvl) /* encode finished ray computations */
265	<	register PACKET *p;
266	<	register float *rvl;
264	>	void
265	>	donerays( /* encode finished ray computations */
266	>	PACKET *p,
267	>	float *rvl
268	>	)
269		{
270		double d;
271	<	register int i;
271	>	int i;
272
273		for (i = 0; i < p->nr; i++) {
274		setcolr(p->ra[i].v, rvl[0], rvl[1], rvl[2]);
#	Line 272 \| Line 283 \| *register float rvl;**
283
284
285		int
286	<	done_rtrace() /* clean up and close rtrace calculation */
286	>	done_rtrace(void) /* clean up and close rtrace calculation */
287		{
288		int status;
289		/* already closed? */
290		if (!nprocs)
291	<	return;
291	>	return(0);
292		/* flush beam queue */
293		done_packets(flush_queue());
294		/* sync holodeck */
#	Line 293 \| Line 304 \| *done_rtrace() / clean up and close rtrace calculati**
304		}
305
306
307	<	new_rtrace() /* restart rtrace calculation */
307	>	void
308	>	new_rtrace(void) /* restart rtrace calculation */
309		{
310		char combuf[128];
311
#	Line 317 \| Line 329 \| *new_rtrace() / restart rtrace calculation /*
329		}
330
331
332	<	getradfile() /* run rad and get needed variables */
332	>	int
333	>	getradfile(void) /* run rad and get needed variables */
334		{
335		static short mvar[] = {OCTREE,EYESEP,-1};
336		static char tf1[] = TEMPLATE;
337		char tf2[64];
338		char combuf[256];
339	<	char *pippt;
340	<	register int i;
341	<	register char *cp;
339	>	char *pippt = NULL;
340	>	int i;
341	>	char *cp;
342		/* check if rad file specified */
343		if (!vdef(RIF))
344		return(0);
#	Line 348 \| Line 361 \| *getradfile() / run rad and get needed variables /*
361		pippt = NULL;
362		}
363		if (pippt != NULL)
364	<	strcpy(pippt, "> /dev/null"); /* nothing to match */
364	>	strcpy(pippt, "> " NULL_DEVICE); /* nothing to match */
365		else
366		sprintf(cp, ")[ \t]*=' > %s", tf2);
367		#ifdef DEBUG
#	Line 359 \| Line 372 \| *getradfile() / run rad and get needed variables /*
372		loadvars(tf2); /* load variables */
373		unlink(tf2);
374		}
375	<	rtargc += wordfile(rtargv+rtargc, tf1); /* get rtrace options */
375	>	/* get rtrace options */
376	>	rtargc += wordfile(rtargv+rtargc, MAXRTARGC-rtargc, tf1);
377		unlink(tf1); /* clean up */
378		return(1);
379		}
380
381
382	<	report(t) /* report progress so far */
383	<	time_t t;
382	>	void
383	>	report( /* report progress so far */
384	>	time_t t
385	>	)
386		{
387		static time_t seconds2go = 1000000;
388

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Comparing ray/src/hd/rholo2.c (file contents): Revision 3.22 by greg, Sat Feb 22 02:07:25 2003 UTC vs. Revision 3.31 by greg, Thu Apr 21 22:31:42 2022 UTC

Diff Legend

Comparing ray/src/hd/rholo2.c (file contents):
Revision 3.22 by greg, Sat Feb 22 02:07:25 2003 UTC vs.
Revision 3.31 by greg, Thu Apr 21 22:31:42 2022 UTC