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root/Development/ray/src/hd/rholo2.c

Comparing ray/src/hd/rholo2.c (file contents):
Revision 3.12 by gwlarson, Wed Jun 10 17:46:21 1998 UTC vs.
Revision 3.17 by gwlarson, Tue Nov 24 17:38:09 1998 UTC

#	Line 13 | Line 13 | static char SCCSid[] = "$SunId$ SGI";
13		#include "random.h"
14
15
16	+	VIEWPOINT       myeye;          /* target view position */
17	+
18	+
19		packrays(rod, p)                /* pack ray origins and directions */
20		register float  *rod;
21		register PACKET *p;
22		{
23	<	static FVECT    ro, rd;
23	>	short   packord[RPACKSIZ];
24	>	float   packdc2[RPACKSIZ];
25	>	int     iterleft = 3*p->nr;
26	>	BYTE    rpos[2][2];
27	>	FVECT   ro, rd, rp1;
28		GCOORD  gc[2];
29	<	int     ila[2], hsh;
30	<	double  d, sl[4];
31	<	register int    i;
29	>	double  d, dc2, md2, td2;
30	>	int     i;
31	>	register int    ii;
32
33		if (!hdbcoord(gc, hdlist[p->hd], p->bi))
34		error(CONSISTENCY, "bad beam index in packrays");
35	<	ila[0] = p->hd; ila[1] = p->bi;
36	<	hsh = ilhash(ila,2) + p->nc;
37	<	for (i = 0; i < p->nr; i++) {
38	<	multisamp(sl, 4, urand(hsh+i));
39	<	p->ra[i].r[0][0] = sl[0] * 256.;
40	<	p->ra[i].r[0][1] = sl[1] * 256.;
41	<	p->ra[i].r[1][0] = sl[2] * 256.;
42	<	p->ra[i].r[1][1] = sl[3] * 256.;
43	<	d = hdray(ro, rd, hdlist[p->hd], gc, p->ra[i].r);
44	<	if (!vdef(OBSTRUCTIONS))
45	<	d *= frandom();                 /* random offset */
35	>	td2 = (myeye.rng+FTINY)*(myeye.rng+FTINY);
36	>	for (i = 0, md2 = 0.; i < p->nr || md2 > td2; ) {
37	>	rpos[0][0] = frandom() * 256.;
38	>	rpos[0][1] = frandom() * 256.;
39	>	rpos[1][0] = frandom() * 256.;
40	>	rpos[1][1] = frandom() * 256.;
41	>	d = hdray(ro, rd, hdlist[p->hd], gc, rpos);
42	>	if (myeye.rng > FTINY) {                /* check eyepoint */
43	>	register int    nexti;
44	>
45	>	VSUM(rp1, ro, rd, d);
46	>	dc2 = dist2line(myeye.vpt, ro, rp1);
47	>	dc2 /= (double)(p->nr*p->nr);
48	>	if (i == p->nr) {               /* packet full */
49	>	nexti = packord[i-1];
50	>	if (!iterleft--)
51	>	break;          /* tried enough! */
52	>	if (dc2 >= packdc2[nexti])
53	>	continue;       /* worse than worst */
54	>	md2 -= packdc2[nexti];
55	>	} else
56	>	nexti = i++;
57	>	md2 += packdc2[nexti] = dc2;    /* new distance */
58	>	for (ii = i; --ii; ) {          /* insertion sort */
59	>	if (dc2 > packdc2[packord[ii-1]])
60	>	break;
61	>	packord[ii] = packord[ii-1];
62	>	}
63	>	packord[ii] = nexti;
64	>	ii = nexti;                     /* put it here */
65	>	} else
66	>	ii = i++;
67		if (p->offset != NULL) {
68	+	if (!vdef(OBSTRUCTIONS))
69	+	d *= frandom();         /* random offset */
70		VSUM(ro, ro, rd, d);            /* advance ray */
71	<	p->offset[i] = d;
71	>	p->offset[ii] = d;
72		}
73	<	VCOPY(rod, ro);
74	<	rod += 3;
75	<	VCOPY(rod, rd);
76	<	rod += 3;
73	>	p->ra[ii].r[0][0] = rpos[0][0];
74	>	p->ra[ii].r[0][1] = rpos[0][1];
75	>	p->ra[ii].r[1][0] = rpos[1][0];
76	>	p->ra[ii].r[1][1] = rpos[1][1];
77	>	VCOPY(rod+6*ii, ro);
78	>	VCOPY(rod+6*ii+3, rd);
79		}
80	+	#ifdef DEBUG
81	+	fprintf(stderr, "%f mean distance for target %f (%d iterations left)\n",
82	+	sqrt(md2), myeye.rng, iterleft);
83	+	#endif
84		}
85
86
#	Line 147 | Line 183 | getradfile()                   /* run rad and get needed variables */
183		strcpy(pippt, "> /dev/null");   /* nothing to match */
184		else
185		sprintf(cp, ")[ \t]*=' > %s", tf2);
186	<	if (system(combuf)) {
187	<	unlink(tf2);                    /* clean up */
188	<	unlink(tf1);
189	<	error(WARNING, "error executing rad command");
154	<	return(-1);
155	<	}
186	>	#ifdef DEBUG
187	>	wputs(combuf); wputs("\n");
188	>	#endif
189	>	system(combuf);                         /* ignore exit code */
190		if (pippt == NULL) {
191		loadvars(tf2);                  /* load variables */
192		unlink(tf2);

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