src/rt/func.c

/* Copyright (c) 1986 Regents of the University of California */

#ifndef lint
static char SCCSid[] = "$SunId$ LBL";
#endif

/*
 *  func.c - interface to calcomp functions.
 *
 *     4/7/86
 */

#include  "ray.h"

#include  "otypes.h"


typedef struct {
        double  xfm[4][4];              /* transform matrix */
        double  sca;                    /* scalefactor */
}  XF;

static OBJREC  *fobj;           /* current function object */
static RAY  *fray;              /* current function ray */
static XF  fxf;                 /* current transformation */


setmap(m, r, xfm, sca)          /* set channels for function call */
OBJREC  *m;
register RAY  *r;
double  xfm[4][4];
double  sca;
{
        extern double  l_noise3(), l_noise3a(), l_noise3b(), l_noise3c();
        extern double  l_hermite(), l_fnoise3(), l_arg();
        extern long  eclock;
        static char  *initfile = "rayinit.cal";

        if (initfile != NULL) {
                loadfunc(initfile);
                scompile("Dx=$1;Dy=$2;Dz=$3;", NULL, 0);
                scompile("Nx=$4;Ny=$5;Nz=$6;", NULL, 0);
                scompile("Px=$7;Py=$8;Pz=$9;", NULL, 0);
                scompile("T=$10;Rdot=$11;", NULL, 0);
                scompile("S=$12;Tx=$13;Ty=$14;Tz=$15;", NULL, 0);
                scompile("Ix=$16;Iy=$17;Iz=$18;", NULL, 0);
                scompile("Jx=$19;Jy=$20;Jz=$21;", NULL, 0);
                scompile("Kx=$22;Ky=$23;Kz=$24;", NULL, 0);
                funset("arg", 1, l_arg);
                funset("noise3", 3, l_noise3);
                funset("noise3a", 3, l_noise3a);
                funset("noise3b", 3, l_noise3b);
                funset("noise3c", 3, l_noise3c);
                funset("hermite", 5, l_hermite);
                funset("fnoise3", 3, l_fnoise3);
                initfile = NULL;
        }
        fobj = m;
        fray = r;
        fxf.sca = r->robs * sca;
        multmat4(fxf.xfm, r->robx, xfm);
        eclock++;               /* notify expression evaluator */
}


setfunc(m, r)                           /* simplified interface to setmap */
register OBJREC  *m;
RAY  *r;
{
        register XF  *mxf;

        if ((mxf = (XF *)m->os) == NULL) {
                register int  n;
                register char  **sa;

                for (n = m->oargs.nsargs, sa = m->oargs.sarg;
                                n > 0 && **sa != '-'; n--, sa++)
                        ;
                mxf = (XF *)malloc(sizeof(XF));
                if (mxf == NULL)
                        goto memerr;
                if (invxf(mxf->xfm, &mxf->sca, n, sa) != n)
                        objerror(m, USER, "bad transform");
                if (mxf->sca < 0.0)
                        mxf->sca = -mxf->sca;
                m->os = (char *)mxf;
        }
        setmap(m, r, mxf->xfm, mxf->sca);
        return;
memerr:
        error(SYSTEM, "out of memory in setfunc");
#undef  mxf
}


loadfunc(fname)                 /* load definition file */
char  *fname;
{
        extern char  *libpath;          /* library search path */
        char  *ffname;

        if ((ffname = getpath(fname, libpath, R_OK)) == NULL) {
                sprintf(errmsg, "cannot find function file \"%s\"", fname);
                error(USER, errmsg);
        }
        fcompile(ffname);
}


double
l_arg()                         /* return nth real argument */
{
        extern double  argument();
        register int  n;

        n = argument(1) + .5;           /* round to integer */

        if (n < 1)
                return(fobj->oargs.nfargs);

        if (n > fobj->oargs.nfargs) {
                sprintf(errmsg, "missing real argument %d", n);
                objerror(fobj, USER, errmsg);
        }
        return(fobj->oargs.farg[n-1]);
}


double
chanvalue(n)                    /* return channel n to calcomp */
register int  n;
{
        double  sum;
        register RAY  *r;

        n--;                            /* for convenience */

        if (n < 0 || n > 23)
                error(USER, "illegal channel number");

        if (n == 9) {                   /* distance */

                sum = fray->rot;
                for (r = fray->parent; r != NULL; r = r->parent)
                        sum += r->rot;
                return(sum * fxf.sca);

        }
        if (n == 10)                    /* dot product */
                return(fray->rod);

        if (n < 3)                      /* ray direction */

                return( (       fray->rdir[0]*fxf.xfm[0][n] +
                                fray->rdir[1]*fxf.xfm[1][n] +
                                fray->rdir[2]*fxf.xfm[2][n]     )
                         / fxf.sca );

        if (n < 6)                      /* surface normal */

                return( (       fray->ron[0]*fxf.xfm[0][n-3] +
                                fray->ron[1]*fxf.xfm[1][n-3] +
                                fray->ron[2]*fxf.xfm[2][n-3]    )
                         / fxf.sca );

        if (n < 9)                      /* intersection */

                return( fray->rop[0]*fxf.xfm[0][n-6] +
                                fray->rop[1]*fxf.xfm[1][n-6] +
                                fray->rop[2]*fxf.xfm[2][n-6] +
                                             fxf.xfm[3][n-6] );

        if (n == 11)                    /* scale */
                return(fxf.sca);

        if (n < 15)                     /* origin */
                return(fxf.xfm[3][n-12]);

        if (n < 18)                     /* i unit vector */
                return(fxf.xfm[0][n-15] / fxf.sca);

        if (n < 21)                     /* j unit vector */
                return(fxf.xfm[1][n-15] / fxf.sca);

        if (n < 24)                     /* k unit vector */
                return(fxf.xfm[2][n-21] / fxf.sca);
}
Revision:	1.9
Committed:	Thu Jul 19 11:17:12 1990 UTC (33 years, 9 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 1.8:	+8 -8 lines
Log Message:	added line numbers to error reporting in cal functions
#	Content
1	/* Copyright (c) 1986 Regents of the University of California */
2
3	#ifndef lint
4	static char SCCSid[] = "$SunId$ LBL";
5	#endif
6
7	/*
8	* func.c - interface to calcomp functions.
9	*
10	* 4/7/86
11	*/
12
13	#include "ray.h"
14
15	#include "otypes.h"
16
17
18	typedef struct {
19	double xfm[4][4]; /* transform matrix */
20	double sca; /* scalefactor */
21	} XF;
22
23	static OBJREC fobj; / current function object */
24	static RAY fray; / current function ray */
25	static XF fxf; /* current transformation */
26
27
28	setmap(m, r, xfm, sca) /* set channels for function call */
29	OBJREC *m;
30	register RAY *r;
31	double xfm[4][4];
32	double sca;
33	{
34	extern double l_noise3(), l_noise3a(), l_noise3b(), l_noise3c();
35	extern double l_hermite(), l_fnoise3(), l_arg();
36	extern long eclock;
37	static char *initfile = "rayinit.cal";
38
39	if (initfile != NULL) {
40	loadfunc(initfile);
41	scompile("Dx=$1;Dy=$2;Dz=$3;", NULL, 0);
42	scompile("Nx=$4;Ny=$5;Nz=$6;", NULL, 0);
43	scompile("Px=$7;Py=$8;Pz=$9;", NULL, 0);
44	scompile("T=$10;Rdot=$11;", NULL, 0);
45	scompile("S=$12;Tx=$13;Ty=$14;Tz=$15;", NULL, 0);
46	scompile("Ix=$16;Iy=$17;Iz=$18;", NULL, 0);
47	scompile("Jx=$19;Jy=$20;Jz=$21;", NULL, 0);
48	scompile("Kx=$22;Ky=$23;Kz=$24;", NULL, 0);
49	funset("arg", 1, l_arg);
50	funset("noise3", 3, l_noise3);
51	funset("noise3a", 3, l_noise3a);
52	funset("noise3b", 3, l_noise3b);
53	funset("noise3c", 3, l_noise3c);
54	funset("hermite", 5, l_hermite);
55	funset("fnoise3", 3, l_fnoise3);
56	initfile = NULL;
57	}
58	fobj = m;
59	fray = r;
60	fxf.sca = r->robs * sca;
61	multmat4(fxf.xfm, r->robx, xfm);
62	eclock++; /* notify expression evaluator */
63	}
64
65
66	setfunc(m, r) /* simplified interface to setmap */
67	register OBJREC *m;
68	RAY *r;
69	{
70	register XF *mxf;
71
72	if ((mxf = (XF *)m->os) == NULL) {
73	register int n;
74	register char **sa;
75
76	for (n = m->oargs.nsargs, sa = m->oargs.sarg;
77	n > 0 && **sa != '-'; n--, sa++)
78	;
79	mxf = (XF *)malloc(sizeof(XF));
80	if (mxf == NULL)
81	goto memerr;
82	if (invxf(mxf->xfm, &mxf->sca, n, sa) != n)
83	objerror(m, USER, "bad transform");
84	if (mxf->sca < 0.0)
85	mxf->sca = -mxf->sca;
86	m->os = (char *)mxf;
87	}
88	setmap(m, r, mxf->xfm, mxf->sca);
89	return;
90	memerr:
91	error(SYSTEM, "out of memory in setfunc");
92	#undef mxf
93	}
94
95
96	loadfunc(fname) /* load definition file */
97	char *fname;
98	{
99	extern char libpath; / library search path */
100	char *ffname;
101
102	if ((ffname = getpath(fname, libpath, R_OK)) == NULL) {
103	sprintf(errmsg, "cannot find function file \"%s\"", fname);
104	error(USER, errmsg);
105	}
106	fcompile(ffname);
107	}
108
109
110	double
111	l_arg() /* return nth real argument */
112	{
113	extern double argument();
114	register int n;
115
116	n = argument(1) + .5; /* round to integer */
117
118	if (n < 1)
119	return(fobj->oargs.nfargs);
120
121	if (n > fobj->oargs.nfargs) {
122	sprintf(errmsg, "missing real argument %d", n);
123	objerror(fobj, USER, errmsg);
124	}
125	return(fobj->oargs.farg[n-1]);
126	}
127
128
129	double
130	chanvalue(n) /* return channel n to calcomp */
131	register int n;
132	{
133	double sum;
134	register RAY *r;
135
136	n--; /* for convenience */
137
138	if (n < 0 \|\| n > 23)
139	error(USER, "illegal channel number");
140
141	if (n == 9) { /* distance */
142
143	sum = fray->rot;
144	for (r = fray->parent; r != NULL; r = r->parent)
145	sum += r->rot;
146	return(sum * fxf.sca);
147
148	}
149	if (n == 10) /* dot product */
150	return(fray->rod);
151
152	if (n < 3) /* ray direction */
153
154	return( ( fray->rdir[0]*fxf.xfm[0][n] +
155	fray->rdir[1]*fxf.xfm[1][n] +
156	fray->rdir[2]*fxf.xfm[2][n] )
157	/ fxf.sca );
158
159	if (n < 6) /* surface normal */
160
161	return( ( fray->ron[0]*fxf.xfm[0][n-3] +
162	fray->ron[1]*fxf.xfm[1][n-3] +
163	fray->ron[2]*fxf.xfm[2][n-3] )
164	/ fxf.sca );
165
166	if (n < 9) /* intersection */
167
168	return( fray->rop[0]*fxf.xfm[0][n-6] +
169	fray->rop[1]*fxf.xfm[1][n-6] +
170	fray->rop[2]*fxf.xfm[2][n-6] +
171	fxf.xfm[3][n-6] );
172
173	if (n == 11) /* scale */
174	return(fxf.sca);
175
176	if (n < 15) /* origin */
177	return(fxf.xfm[3][n-12]);
178
179	if (n < 18) /* i unit vector */
180	return(fxf.xfm[0][n-15] / fxf.sca);
181
182	if (n < 21) /* j unit vector */
183	return(fxf.xfm[1][n-15] / fxf.sca);
184
185	if (n < 24) /* k unit vector */
186	return(fxf.xfm[2][n-21] / fxf.sca);
187	}