src/rt/t_data.c

#ifndef lint
static const char       RCSid[] = "$Id$";
#endif
/*
 *  t_data.c - routine for stored textures
 */

#include "copyright.h"

#include  "ray.h"

#include  "data.h"

#include  "func.h"

/*
 *      A stored texture is specified as follows:
 *
 *      modifier texdata name
 *      8+ xfunc yfunc zfunc xdfname ydfname zdfname vfname v0 v1 .. xf
 *      0
 *      n A1 A2 .. An
 *
 *  Vfname is the name of the file where the variable definitions
 *  can be found.  The list of real arguments can be accessed by
 *  definitions in the file.  The dfnames are the data file
 *  names.  The dimensions of the data files and the number
 *  of variables must match.  The funcs take three arguments to produce
 *  interpolated values from the file.  The xf is a transformation
 *  to get from the original coordinates to the current coordinates.
 */


t_data(m, r)                    /* interpolate texture data */
register OBJREC  *m;
RAY  *r;
{
        int  nv;
        FVECT  disp;
        double  dval[3], pt[MAXDIM];
        double  d;
        DATARRAY  *dp;
        register MFUNC  *mf;
        register int  i;

        if (m->oargs.nsargs < 8)
                objerror(m, USER, "bad # arguments");
        dp = getdata(m->oargs.sarg[3]);
        i = (1 << (nv = dp->nd)) - 1;
        mf = getfunc(m, 6, i<<7, 1);
        setfunc(m, r);
        errno = 0;
        for (i = 0; i < nv; i++)
                pt[i] = evalue(mf->ep[i]);
        if (errno)
                goto computerr;
        dval[0] = datavalue(dp, pt);
        for (i = 1; i < 3; i++) {
                dp = getdata(m->oargs.sarg[i+3]);
                if (dp->nd != nv)
                        objerror(m, USER, "dimension error");
                dval[i] = datavalue(dp, pt);
        }
        errno = 0;
        for (i = 0; i < 3; i++)
                disp[i] = funvalue(m->oargs.sarg[i], 3, dval);
        if (errno)
                goto computerr;
        if (mf->f != &unitxf)
                multv3(disp, disp, mf->f->xfm);
        if (r->rox != NULL) {
                multv3(disp, disp, r->rox->f.xfm);
                d = 1.0 / (mf->f->sca * r->rox->f.sca);
        } else
                d = 1.0 / mf->f->sca;
        for (i = 0; i < 3; i++)
                r->pert[i] += disp[i] * d;
        return(0);
computerr:
        objerror(m, WARNING, "compute error");
        return(0);
}
Revision:	2.6
Committed:	Tue Feb 25 02:47:23 2003 UTC (22 years, 8 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 2.5:	+1 -56 lines
Log Message:	Replaced inline copyright notice with #include "copyright.h"
#	User	Rev	Content
1	greg	1.1	#ifndef lint
2	greg	2.5	static const char RCSid[] = "$Id$";
3	greg	1.1	#endif
4			/*
5			* t_data.c - routine for stored textures
6	greg	2.5	*/
7
8	greg	2.6	#include "copyright.h"
9	greg	1.1
10			#include "ray.h"
11
12			#include "data.h"
13
14	greg	2.2	#include "func.h"
15
16	greg	1.1	/*
17			* A stored texture is specified as follows:
18			*
19			* modifier texdata name
20			* 8+ xfunc yfunc zfunc xdfname ydfname zdfname vfname v0 v1 .. xf
21			* 0
22			* n A1 A2 .. An
23			*
24			* Vfname is the name of the file where the variable definitions
25			* can be found. The list of real arguments can be accessed by
26			* definitions in the file. The dfnames are the data file
27			* names. The dimensions of the data files and the number
28			* of variables must match. The funcs take three arguments to produce
29			* interpolated values from the file. The xf is a transformation
30			* to get from the original coordinates to the current coordinates.
31			*/
32
33
34			t_data(m, r) /* interpolate texture data */
35			register OBJREC *m;
36			RAY *r;
37			{
38			int nv;
39	greg	2.3	FVECT disp;
40			double dval[3], pt[MAXDIM];
41	greg	1.4	double d;
42	greg	1.1	DATARRAY *dp;
43	greg	2.2	register MFUNC *mf;
44	greg	1.1	register int i;
45
46			if (m->oargs.nsargs < 8)
47			objerror(m, USER, "bad # arguments");
48	greg	2.2	dp = getdata(m->oargs.sarg[3]);
49			i = (1 << (nv = dp->nd)) - 1;
50			mf = getfunc(m, 6, i<<7, 1);
51			setfunc(m, r);
52			errno = 0;
53	greg	2.3	for (i = 0; i < nv; i++)
54	greg	2.2	pt[i] = evalue(mf->ep[i]);
55	greg	2.3	if (errno)
56			goto computerr;
57	greg	2.2	dval[0] = datavalue(dp, pt);
58			for (i = 1; i < 3; i++) {
59			dp = getdata(m->oargs.sarg[i+3]);
60	greg	1.1	if (dp->nd != nv)
61	greg	2.2	objerror(m, USER, "dimension error");
62	greg	1.1	dval[i] = datavalue(dp, pt);
63			}
64			errno = 0;
65	greg	2.3	for (i = 0; i < 3; i++)
66	greg	2.2	disp[i] = funvalue(m->oargs.sarg[i], 3, dval);
67	greg	2.3	if (errno)
68			goto computerr;
69	greg	2.2	if (mf->f != &unitxf)
70			multv3(disp, disp, mf->f->xfm);
71	greg	1.6	if (r->rox != NULL) {
72			multv3(disp, disp, r->rox->f.xfm);
73	greg	2.2	d = 1.0 / (mf->f->sca * r->rox->f.sca);
74	greg	1.6	} else
75	greg	2.2	d = 1.0 / mf->f->sca;
76	greg	1.1	for (i = 0; i < 3; i++)
77	greg	1.4	r->pert[i] += disp[i] * d;
78	greg	2.4	return(0);
79	greg	1.1	computerr:
80			objerror(m, WARNING, "compute error");
81	greg	2.4	return(0);
82	greg	1.1	}