src/rt/o_instance.c

#ifndef lint
static const char RCSid[] = "$Id: o_instance.c,v 2.6 2003/03/11 17:08:55 greg Exp $";
#endif
/*
 *  o_instance.c - routines for computing ray intersections with octrees.
 */

#include "copyright.h"

#include  "ray.h"

#include  "instance.h"


o_instance(o, r)                /* compute ray intersection with octree */
OBJREC  *o;
register RAY  *r;
{
        RAY  rcont;
        double  d;
        register INSTANCE  *ins;
        register int  i;
                                        /* get the octree */
        ins = getinstance(o, IO_ALL);
                                        /* copy and transform ray */
        rcont = *r;
        multp3(rcont.rorg, r->rorg, ins->x.b.xfm);
        multv3(rcont.rdir, r->rdir, ins->x.b.xfm);
        for (i = 0; i < 3; i++)
                rcont.rdir[i] /= ins->x.b.sca;
        rcont.rmax *= ins->x.b.sca;
                                        /* clear and trace it */
        rayclear(&rcont);
        if (!localhit(&rcont, &ins->obj->scube))
                return(0);                      /* missed */
        if (rcont.rot * ins->x.f.sca >= r->rot)
                return(0);                      /* not close enough */

        if (o->omod != OVOID) {         /* if we have modifier, use it */
                r->ro = o;
                r->rox = NULL;
        } else {                        /* else use theirs */
                r->ro = rcont.ro;
                if (rcont.rox != NULL) {
                        newrayxf(r);            /* allocate transformation */
                                        /* NOTE: r->rox may equal rcont.rox! */
                        multmat4(r->rox->f.xfm, rcont.rox->f.xfm, ins->x.f.xfm);
                        r->rox->f.sca = rcont.rox->f.sca * ins->x.f.sca;
                        multmat4(r->rox->b.xfm, ins->x.b.xfm, rcont.rox->b.xfm);
                        r->rox->b.sca = ins->x.b.sca * rcont.rox->b.sca;
                } else
                        r->rox = &ins->x;
        }
                                        /* transform it back */
        r->rot = rcont.rot * ins->x.f.sca;
        multp3(r->rop, rcont.rop, ins->x.f.xfm);
        multv3(r->ron, rcont.ron, ins->x.f.xfm);
        multv3(r->pert, rcont.pert, ins->x.f.xfm);
        d = 1./ins->x.f.sca;
        for (i = 0; i < 3; i++) {
                r->ron[i] *= d;
                r->pert[i] *= d;
        }
        r->rod = rcont.rod;
        r->uv[0] = rcont.uv[0];
        r->uv[1] = rcont.uv[1];
                                        /* return hit */
        return(1);
}
Revision:	2.7
Committed:	Mon Jul 21 22:30:19 2003 UTC (22 years, 3 months ago) by schorsch
Content type:	text/plain
Branch:	MAIN
Changes since 2.6:	+2 -2 lines
Log Message:	Eliminated copystruct() macro, which is unnecessary in ANSI. Reduced ambiguity warnings for nested if/if/else clauses.
#	User	Rev	Content
1	greg	1.1	#ifndef lint
2	schorsch	2.7	static const char RCSid[] = "$Id: o_instance.c,v 2.6 2003/03/11 17:08:55 greg Exp $";
3	greg	1.1	#endif
4			/*
5			* o_instance.c - routines for computing ray intersections with octrees.
6	greg	2.4	*/
7
8	greg	2.5	#include "copyright.h"
9	greg	1.1
10			#include "ray.h"
11
12			#include "instance.h"
13
14
15			o_instance(o, r) /* compute ray intersection with octree */
16			OBJREC *o;
17			register RAY *r;
18			{
19			RAY rcont;
20	greg	2.6	double d;
21			register INSTANCE *ins;
22	greg	1.1	register int i;
23			/* get the octree */
24	greg	2.6	ins = getinstance(o, IO_ALL);
25	greg	2.3	/* copy and transform ray */
26	schorsch	2.7	rcont = *r;
27	greg	2.6	multp3(rcont.rorg, r->rorg, ins->x.b.xfm);
28			multv3(rcont.rdir, r->rdir, ins->x.b.xfm);
29	greg	1.1	for (i = 0; i < 3; i++)
30	greg	2.6	rcont.rdir[i] /= ins->x.b.sca;
31			rcont.rmax *= ins->x.b.sca;
32	greg	2.3	/* clear and trace it */
33			rayclear(&rcont);
34	greg	2.6	if (!localhit(&rcont, &ins->obj->scube))
35	greg	1.11	return(0); /* missed */
36	greg	2.6	if (rcont.rot * ins->x.f.sca >= r->rot)
37	greg	1.11	return(0); /* not close enough */
38	greg	1.4
39			if (o->omod != OVOID) { /* if we have modifier, use it */
40	greg	1.1	r->ro = o;
41	greg	1.8	r->rox = NULL;
42	greg	1.4	} else { /* else use theirs */
43	greg	1.1	r->ro = rcont.ro;
44	greg	1.8	if (rcont.rox != NULL) {
45	greg	1.9	newrayxf(r); /* allocate transformation */
46			/* NOTE: r->rox may equal rcont.rox! */
47	greg	2.6	multmat4(r->rox->f.xfm, rcont.rox->f.xfm, ins->x.f.xfm);
48			r->rox->f.sca = rcont.rox->f.sca * ins->x.f.sca;
49			multmat4(r->rox->b.xfm, ins->x.b.xfm, rcont.rox->b.xfm);
50			r->rox->b.sca = ins->x.b.sca * rcont.rox->b.sca;
51	greg	1.8	} else
52	greg	2.6	r->rox = &ins->x;
53	greg	1.1	}
54			/* transform it back */
55	greg	2.6	r->rot = rcont.rot * ins->x.f.sca;
56			multp3(r->rop, rcont.rop, ins->x.f.xfm);
57			multv3(r->ron, rcont.ron, ins->x.f.xfm);
58			multv3(r->pert, rcont.pert, ins->x.f.xfm);
59			d = 1./ins->x.f.sca;
60			for (i = 0; i < 3; i++) {
61			r->ron[i] *= d;
62			r->pert[i] *= d;
63			}
64	greg	1.1	r->rod = rcont.rod;
65	greg	2.6	r->uv[0] = rcont.uv[0];
66			r->uv[1] = rcont.uv[1];
67	greg	1.1	/* return hit */
68			return(1);
69			}