src/rt/func.c

/* Copyright (c) 1991 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"

#include  "func.h"


#define  INITFILE       "rayinit.cal"
#define  REFVNAME       "`FILE_REFCNT"
#define  CALSUF         ".cal"
#define  LCALSUF        4

XF  unitxf = {                  /* identity transform */
        1.0, 0.0, 0.0, 0.0,
        0.0, 1.0, 0.0, 0.0,
        0.0, 0.0, 1.0, 0.0,
        0.0, 0.0, 0.0, 1.0,
        1.0
};

XF  funcxf;                     /* current transformation */
static OBJREC  *fobj = NULL;    /* current function object */
static RAY  *fray = NULL;       /* current function ray */

static double  l_erf(), l_erfc(), l_arg();


MFUNC *
getfunc(m, ff, ef, dofwd)       /* get function for this modifier */
OBJREC  *m;
int  ff;
unsigned  ef;
int  dofwd;
{
        extern EPNODE  *curfunc;
        static char  initfile[] = INITFILE;
        char  sbuf[MAXSTR];
        register char  **arg;
        register MFUNC  *f;
        int  ne, na;
        register int  i;
                                        /* check to see if done already */
        if ((f = (MFUNC *)m->os) != NULL)
                return(f);
        if (initfile[0]) {              /* initialize on first call */
                setcontext("");
                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("erf", 1, ':', l_erf);
                funset("erfc", 1, ':', l_erfc);
                setnoisefuncs();
                loadfunc(initfile);
                initfile[0] = '\0';
        }
        if ((na = m->oargs.nsargs) <= ff)
                goto toofew;
        arg = m->oargs.sarg;
        if ((f = (MFUNC *)calloc(1, sizeof(MFUNC))) == NULL)
                goto memerr;
        i = strlen(arg[ff]);                    /* set up context */
        if (i == 1 && arg[ff][0] == '.')
                setcontext(f->ctx = "");        /* "." means no file */
        else {
                strcpy(sbuf,m->oargs.sarg[ff]); /* file name is context */
                if (i > LCALSUF && !strcmp(sbuf+i-LCALSUF, CALSUF))
                        sbuf[i-LCALSUF] = '\0'; /* remove suffix */
                setcontext(f->ctx = savestr(sbuf));
                if (!vardefined(REFVNAME)) {    /* file loaded? */
                        loadfunc(m->oargs.sarg[ff]);
                        varset(REFVNAME, '=', 1.0);
                } else                          /* reference_count++ */
                        varset(REFVNAME, '=', varvalue(REFVNAME)+1.0);
        }
        curfunc = NULL;                 /* parse expressions */
        sprintf(sbuf, "%s \"%s\"", ofun[m->otype].funame, m->oname);
        for (i=0, ne=0; ef && i < na; i++, ef>>=1)
                if (ef & 1) {                   /* flagged as an expression? */
                        if (ne >= MAXEXPR)
                                objerror(m, INTERNAL, "too many expressions");
                        initstr(arg[i], sbuf, 0);
                        f->ep[ne++] = getE1();
                        if (nextc != EOF)
                                syntax("unexpected character");
                }
        if (ef)
                goto toofew;
        if (i <= ff)                    /* find transform args */
                i = ff+1;
        while (i < na && arg[i][0] != '-')
                i++;
        if (i == na)                    /* no transform */
                f->f = f->b = &unitxf;
        else {                          /* get transform */
                if ((f->b = (XF *)malloc(sizeof(XF))) == NULL)
                        goto memerr;
                if (invxf(f->b, na-i, arg+i) != na-i)
                        objerror(m, USER, "bad transform");
                if (f->b->sca < 0.0)
                        f->b->sca = -f->b->sca;
                if (dofwd) {                    /* do both transforms */
                        if ((f->f = (XF *)malloc(sizeof(XF))) == NULL)
                                goto memerr;
                        xf(f->f, na-i, arg+i);
                        if (f->f->sca < 0.0)
                                f->f->sca = -f->f->sca;
                }
        }
        m->os = (char *)f;
        return(f);
toofew:
        objerror(m, USER, "too few arguments");
memerr:
        error(SYSTEM, "out of memory in getfunc");
}


freefunc(m)                     /* free memory associated with modifier */
OBJREC  *m;
{
        register MFUNC  *f;
        register int  i;

        if ((f = (MFUNC *)m->os) == NULL)
                return;
        for (i = 0; f->ep[i] != NULL; i++)
                epfree(f->ep[i]);
        if (f->ctx[0]) {                        /* done with definitions */
                setcontext(f->ctx);
                i = varvalue(REFVNAME)-.5;      /* reference_count-- */
                if (i > 0)
                        varset(REFVNAME, '=', (double)i);
                else
                        dcleanup(2);            /* remove definitions */
                freestr(f->ctx);
        }
        if (f->b != &unitxf)
                free((char *)f->b);
        if (f->f != NULL && f->f != &unitxf)
                free((char *)f->f);
        free((char *)f);
        m->os = NULL;
}


setfunc(m, r)                   /* set channels for function call */
OBJREC  *m;
register RAY  *r;
{
        static long  lastrno = -1;
        register MFUNC  *f;
                                        /* get function */
        if ((f = (MFUNC *)m->os) == NULL)
                error(m, CONSISTENCY, "setfunc called before getfunc");
                                        /* set evaluator context */
        setcontext(f->ctx);
                                        /* check to see if matrix set */
        if (m == fobj && r->rno == lastrno)
                return(0);
        fobj = m;
        fray = r;
        if (r->rox != NULL)
                if (f->b != &unitxf) {
                        funcxf.sca = r->rox->b.sca * f->b->sca;
                        multmat4(funcxf.xfm, r->rox->b.xfm, f->b->xfm);
                } else
                        copystruct(&funcxf, &r->rox->b);
        else
                copystruct(&funcxf, f->b);
        lastrno = r->rno;
        eclock++;               /* notify expression evaluator */
        return(1);
}


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);
}


static 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]);
}


static double
l_erf()                         /* error function */
{
        extern double  erf();

        return(erf(argument(1)));
}


static double
l_erfc()                        /* cumulative error function */
{
        extern double  erfc();

        return(erfc(argument(1)));
}


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

        if (--n < 0)
                goto badchan;

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

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

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

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

        if (n < 9)                      /* intersection */

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

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

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

        }
        if (n == 10)                    /* dot product (range [-1,1]) */
                return( fray->rod <= -1.0 ? -1.0 :
                        fray->rod >= 1.0 ? 1.0 :
                        fray->rod );

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

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

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

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

        if (n < 24)                     /* k unit vector */
                return(funcxf.xfm[2][n-21] / funcxf.sca);
badchan:
        error(USER, "illegal channel number");
}
Revision:	2.3
Committed:	Tue Dec 24 17:43:43 1991 UTC (32 years, 4 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 2.2:	+2 -2 lines
Log Message:	minor cosmetic surgery
#	Content
1	/* Copyright (c) 1991 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	#include "func.h"
18
19
20	#define INITFILE "rayinit.cal"
21	#define REFVNAME "`FILE_REFCNT"
22	#define CALSUF ".cal"
23	#define LCALSUF 4
24
25	XF unitxf = { /* identity transform */
26	1.0, 0.0, 0.0, 0.0,
27	0.0, 1.0, 0.0, 0.0,
28	0.0, 0.0, 1.0, 0.0,
29	0.0, 0.0, 0.0, 1.0,
30	1.0
31	};
32
33	XF funcxf; /* current transformation */
34	static OBJREC fobj = NULL; / current function object */
35	static RAY fray = NULL; / current function ray */
36
37	static double l_erf(), l_erfc(), l_arg();
38
39
40	MFUNC *
41	getfunc(m, ff, ef, dofwd) /* get function for this modifier */
42	OBJREC *m;
43	int ff;
44	unsigned ef;
45	int dofwd;
46	{
47	extern EPNODE *curfunc;
48	static char initfile[] = INITFILE;
49	char sbuf[MAXSTR];
50	register char **arg;
51	register MFUNC *f;
52	int ne, na;
53	register int i;
54	/* check to see if done already */
55	if ((f = (MFUNC *)m->os) != NULL)
56	return(f);
57	if (initfile[0]) { /* initialize on first call */
58	setcontext("");
59	scompile("Dx=$1;Dy=$2;Dz=$3;", NULL, 0);
60	scompile("Nx=$4;Ny=$5;Nz=$6;", NULL, 0);
61	scompile("Px=$7;Py=$8;Pz=$9;", NULL, 0);
62	scompile("T=$10;Rdot=$11;", NULL, 0);
63	scompile("S=$12;Tx=$13;Ty=$14;Tz=$15;", NULL, 0);
64	scompile("Ix=$16;Iy=$17;Iz=$18;", NULL, 0);
65	scompile("Jx=$19;Jy=$20;Jz=$21;", NULL, 0);
66	scompile("Kx=$22;Ky=$23;Kz=$24;", NULL, 0);
67	funset("arg", 1, '=', l_arg);
68	funset("erf", 1, ':', l_erf);
69	funset("erfc", 1, ':', l_erfc);
70	setnoisefuncs();
71	loadfunc(initfile);
72	initfile[0] = '\0';
73	}
74	if ((na = m->oargs.nsargs) <= ff)
75	goto toofew;
76	arg = m->oargs.sarg;
77	if ((f = (MFUNC *)calloc(1, sizeof(MFUNC))) == NULL)
78	goto memerr;
79	i = strlen(arg[ff]); /* set up context */
80	if (i == 1 && arg[ff][0] == '.')
81	setcontext(f->ctx = ""); /* "." means no file */
82	else {
83	strcpy(sbuf,m->oargs.sarg[ff]); /* file name is context */
84	if (i > LCALSUF && !strcmp(sbuf+i-LCALSUF, CALSUF))
85	sbuf[i-LCALSUF] = '\0'; /* remove suffix */
86	setcontext(f->ctx = savestr(sbuf));
87	if (!vardefined(REFVNAME)) { /* file loaded? */
88	loadfunc(m->oargs.sarg[ff]);
89	varset(REFVNAME, '=', 1.0);
90	} else /* reference_count++ */
91	varset(REFVNAME, '=', varvalue(REFVNAME)+1.0);
92	}
93	curfunc = NULL; /* parse expressions */
94	sprintf(sbuf, "%s \"%s\"", ofun[m->otype].funame, m->oname);
95	for (i=0, ne=0; ef && i < na; i++, ef>>=1)
96	if (ef & 1) { /* flagged as an expression? */
97	if (ne >= MAXEXPR)
98	objerror(m, INTERNAL, "too many expressions");
99	initstr(arg[i], sbuf, 0);
100	f->ep[ne++] = getE1();
101	if (nextc != EOF)
102	syntax("unexpected character");
103	}
104	if (ef)
105	goto toofew;
106	if (i <= ff) /* find transform args */
107	i = ff+1;
108	while (i < na && arg[i][0] != '-')
109	i++;
110	if (i == na) /* no transform */
111	f->f = f->b = &unitxf;
112	else { /* get transform */
113	if ((f->b = (XF *)malloc(sizeof(XF))) == NULL)
114	goto memerr;
115	if (invxf(f->b, na-i, arg+i) != na-i)
116	objerror(m, USER, "bad transform");
117	if (f->b->sca < 0.0)
118	f->b->sca = -f->b->sca;
119	if (dofwd) { /* do both transforms */
120	if ((f->f = (XF *)malloc(sizeof(XF))) == NULL)
121	goto memerr;
122	xf(f->f, na-i, arg+i);
123	if (f->f->sca < 0.0)
124	f->f->sca = -f->f->sca;
125	}
126	}
127	m->os = (char *)f;
128	return(f);
129	toofew:
130	objerror(m, USER, "too few arguments");
131	memerr:
132	error(SYSTEM, "out of memory in getfunc");
133	}
134
135
136	freefunc(m) /* free memory associated with modifier */
137	OBJREC *m;
138	{
139	register MFUNC *f;
140	register int i;
141
142	if ((f = (MFUNC *)m->os) == NULL)
143	return;
144	for (i = 0; f->ep[i] != NULL; i++)
145	epfree(f->ep[i]);
146	if (f->ctx[0]) { /* done with definitions */
147	setcontext(f->ctx);
148	i = varvalue(REFVNAME)-.5; /* reference_count-- */
149	if (i > 0)
150	varset(REFVNAME, '=', (double)i);
151	else
152	dcleanup(2); /* remove definitions */
153	freestr(f->ctx);
154	}
155	if (f->b != &unitxf)
156	free((char *)f->b);
157	if (f->f != NULL && f->f != &unitxf)
158	free((char *)f->f);
159	free((char *)f);
160	m->os = NULL;
161	}
162
163
164	setfunc(m, r) /* set channels for function call */
165	OBJREC *m;
166	register RAY *r;
167	{
168	static long lastrno = -1;
169	register MFUNC *f;
170	/* get function */
171	if ((f = (MFUNC *)m->os) == NULL)
172	error(m, CONSISTENCY, "setfunc called before getfunc");
173	/* set evaluator context */
174	setcontext(f->ctx);
175	/* check to see if matrix set */
176	if (m == fobj && r->rno == lastrno)
177	return(0);
178	fobj = m;
179	fray = r;
180	if (r->rox != NULL)
181	if (f->b != &unitxf) {
182	funcxf.sca = r->rox->b.sca * f->b->sca;
183	multmat4(funcxf.xfm, r->rox->b.xfm, f->b->xfm);
184	} else
185	copystruct(&funcxf, &r->rox->b);
186	else
187	copystruct(&funcxf, f->b);
188	lastrno = r->rno;
189	eclock++; /* notify expression evaluator */
190	return(1);
191	}
192
193
194	loadfunc(fname) /* load definition file */
195	char *fname;
196	{
197	extern char libpath; / library search path */
198	char *ffname;
199
200	if ((ffname = getpath(fname, libpath, R_OK)) == NULL) {
201	sprintf(errmsg, "cannot find function file \"%s\"", fname);
202	error(USER, errmsg);
203	}
204	fcompile(ffname);
205	}
206
207
208	static double
209	l_arg() /* return nth real argument */
210	{
211	extern double argument();
212	register int n;
213
214	n = argument(1) + .5; /* round to integer */
215
216	if (n < 1)
217	return(fobj->oargs.nfargs);
218
219	if (n > fobj->oargs.nfargs) {
220	sprintf(errmsg, "missing real argument %d", n);
221	objerror(fobj, USER, errmsg);
222	}
223	return(fobj->oargs.farg[n-1]);
224	}
225
226
227	static double
228	l_erf() /* error function */
229	{
230	extern double erf();
231
232	return(erf(argument(1)));
233	}
234
235
236	static double
237	l_erfc() /* cumulative error function */
238	{
239	extern double erfc();
240
241	return(erfc(argument(1)));
242	}
243
244
245	double
246	chanvalue(n) /* return channel n to calcomp */
247	register int n;
248	{
249	double sum;
250	register RAY *r;
251
252	if (--n < 0)
253	goto badchan;
254
255	if (n < 3) /* ray direction */
256
257	return( ( fray->rdir[0]*funcxf.xfm[0][n] +
258	fray->rdir[1]*funcxf.xfm[1][n] +
259	fray->rdir[2]*funcxf.xfm[2][n] )
260	/ funcxf.sca );
261
262	if (n < 6) /* surface normal */
263
264	return( ( fray->ron[0]*funcxf.xfm[0][n-3] +
265	fray->ron[1]*funcxf.xfm[1][n-3] +
266	fray->ron[2]*funcxf.xfm[2][n-3] )
267	/ funcxf.sca );
268
269	if (n < 9) /* intersection */
270
271	return( fray->rop[0]*funcxf.xfm[0][n-6] +
272	fray->rop[1]*funcxf.xfm[1][n-6] +
273	fray->rop[2]*funcxf.xfm[2][n-6] +
274	funcxf.xfm[3][n-6] );
275
276	if (n == 9) { /* distance */
277
278	sum = fray->rot;
279	for (r = fray->parent; r != NULL; r = r->parent)
280	sum += r->rot;
281	return(sum * funcxf.sca);
282
283	}
284	if (n == 10) /* dot product (range [-1,1]) */
285	return( fray->rod <= -1.0 ? -1.0 :
286	fray->rod >= 1.0 ? 1.0 :
287	fray->rod );
288
289	if (n == 11) /* scale */
290	return(funcxf.sca);
291
292	if (n < 15) /* origin */
293	return(funcxf.xfm[3][n-12]);
294
295	if (n < 18) /* i unit vector */
296	return(funcxf.xfm[0][n-15] / funcxf.sca);
297
298	if (n < 21) /* j unit vector */
299	return(funcxf.xfm[1][n-15] / funcxf.sca);
300
301	if (n < 24) /* k unit vector */
302	return(funcxf.xfm[2][n-21] / funcxf.sca);
303	badchan:
304	error(USER, "illegal channel number");
305	}