#ifndef lint
static const char RCSid[] = "$Id: calfunc.c,v 2.8 2003/02/22 02:07:21 greg Exp $";
#endif
/*
* calfunc.c - routines for calcomp using functions.
*
* If VARIABLE is not set, only library functions
* can be accessed.
*
* 2/19/03 Eliminated conditional compiles in favor of esupport extern.
*/
/* ====================================================================
* The Radiance Software License, Version 1.0
*
* Copyright (c) 1990 - 2002 The Regents of the University of California,
* through Lawrence Berkeley National Laboratory. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
*
* 3. The end-user documentation included with the redistribution,
* if any, must include the following acknowledgment:
* "This product includes Radiance software
* (http://radsite.lbl.gov/)
* developed by the Lawrence Berkeley National Laboratory
* (http://www.lbl.gov/)."
* Alternately, this acknowledgment may appear in the software itself,
* if and wherever such third-party acknowledgments normally appear.
*
* 4. The names "Radiance," "Lawrence Berkeley National Laboratory"
* and "The Regents of the University of California" must
* not be used to endorse or promote products derived from this
* software without prior written permission. For written
* permission, please contact radiance@radsite.lbl.gov.
*
* 5. Products derived from this software may not be called "Radiance",
* nor may "Radiance" appear in their name, without prior written
* permission of Lawrence Berkeley National Laboratory.
*
* THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESSED OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL Lawrence Berkeley National Laboratory OR
* ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
* USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
* OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
* ====================================================================
*
* This software consists of voluntary contributions made by many
* individuals on behalf of Lawrence Berkeley National Laboratory. For more
* information on Lawrence Berkeley National Laboratory, please see
* .
*/
#include
#include
#include
#include "calcomp.h"
/* bits in argument flag (better be right!) */
#define AFLAGSIZ (8*sizeof(unsigned long))
#define ALISTSIZ 6 /* maximum saved argument list */
typedef struct activation {
char *name; /* function name */
struct activation *prev; /* previous activation */
double *ap; /* argument list */
unsigned long an; /* computed argument flags */
EPNODE *fun; /* argument function */
} ACTIVATION; /* an activation record */
static ACTIVATION *curact = NULL;
static double libfunc();
#ifndef MAXLIB
#define MAXLIB 64 /* maximum number of library functions */
#endif
static double l_if(), l_select(), l_rand();
static double l_floor(), l_ceil();
static double l_sqrt();
static double l_sin(), l_cos(), l_tan();
static double l_asin(), l_acos(), l_atan(), l_atan2();
static double l_exp(), l_log(), l_log10();
/* functions must be listed alphabetically */
static LIBR library[MAXLIB] = {
{ "acos", 1, ':', l_acos },
{ "asin", 1, ':', l_asin },
{ "atan", 1, ':', l_atan },
{ "atan2", 2, ':', l_atan2 },
{ "ceil", 1, ':', l_ceil },
{ "cos", 1, ':', l_cos },
{ "exp", 1, ':', l_exp },
{ "floor", 1, ':', l_floor },
{ "if", 3, ':', l_if },
{ "log", 1, ':', l_log },
{ "log10", 1, ':', l_log10 },
{ "rand", 1, ':', l_rand },
{ "select", 1, ':', l_select },
{ "sin", 1, ':', l_sin },
{ "sqrt", 1, ':', l_sqrt },
{ "tan", 1, ':', l_tan },
};
static int libsize = 16;
#define resolve(ep) ((ep)->type==VAR?(ep)->v.ln:argf((ep)->v.chan))
int
fundefined(fname) /* return # of arguments for function */
char *fname;
{
register LIBR *lp;
register VARDEF *vp;
if ((vp = varlookup(fname)) != NULL && vp->def != NULL
&& vp->def->v.kid->type == FUNC)
return(nekids(vp->def->v.kid) - 1);
lp = vp != NULL ? vp->lib : liblookup(fname);
if (lp == NULL)
return(0);
return(lp->nargs);
}
double
funvalue(fname, n, a) /* return a function value to the user */
char *fname;
int n;
double *a;
{
ACTIVATION act;
register VARDEF *vp;
double rval;
/* push environment */
act.name = fname;
act.prev = curact;
act.ap = a;
if (n >= AFLAGSIZ)
act.an = ~0;
else
act.an = (1L<def == NULL
|| vp->def->v.kid->type != FUNC)
rval = libfunc(fname, vp);
else
rval = evalue(vp->def->v.kid->sibling);
curact = act.prev; /* pop environment */
return(rval);
}
void
funset(fname, nargs, assign, fptr) /* set a library function */
char *fname;
int nargs;
int assign;
double (*fptr)();
{
int oldlibsize = libsize;
char *cp;
register LIBR *lp;
/* check for context */
for (cp = fname; *cp; cp++)
;
if (cp == fname)
return;
if (cp[-1] == CNTXMARK)
*--cp = '\0';
if ((lp = liblookup(fname)) == NULL) { /* insert */
if (libsize >= MAXLIB) {
eputs("Too many library functons!\n");
quit(1);
}
for (lp = &library[libsize]; lp > library; lp--)
if (strcmp(lp[-1].fname, fname) > 0) {
lp[0].fname = lp[-1].fname;
lp[0].nargs = lp[-1].nargs;
lp[0].atyp = lp[-1].atyp;
lp[0].f = lp[-1].f;
} else
break;
libsize++;
}
if (fptr == NULL) { /* delete */
while (lp < &library[libsize-1]) {
lp[0].fname = lp[1].fname;
lp[0].nargs = lp[1].nargs;
lp[0].atyp = lp[1].atyp;
lp[0].f = lp[1].f;
lp++;
}
libsize--;
} else { /* or assign */
lp[0].fname = fname; /* string must be static! */
lp[0].nargs = nargs;
lp[0].atyp = assign;
lp[0].f = fptr;
}
if (libsize != oldlibsize)
libupdate(fname); /* relink library */
}
int
nargum() /* return number of available arguments */
{
register int n;
if (curact == NULL)
return(0);
if (curact->fun == NULL) {
for (n = 0; (1L<an; n++)
;
return(n);
}
return(nekids(curact->fun) - 1);
}
double
argument(n) /* return nth argument for active function */
register int n;
{
register ACTIVATION *actp = curact;
register EPNODE *ep;
double aval;
if (actp == NULL || --n < 0) {
eputs("Bad call to argument!\n");
quit(1);
}
/* already computed? */
if (n < AFLAGSIZ && 1L<an)
return(actp->ap[n]);
if (actp->fun == NULL || (ep = ekid(actp->fun, n+1)) == NULL) {
eputs(actp->name);
eputs(": too few arguments\n");
quit(1);
}
curact = actp->prev; /* pop environment */
aval = evalue(ep); /* compute argument */
curact = actp; /* push back environment */
if (n < ALISTSIZ) { /* save value */
actp->ap[n] = aval;
actp->an |= 1L<prev) {
if (n <= 0)
break;
if (actp->fun == NULL)
goto badarg;
if ((ep = ekid(actp->fun, n)) == NULL) {
eputs(actp->name);
eputs(": too few arguments\n");
quit(1);
}
if (ep->type == VAR)
return(ep->v.ln); /* found it */
if (ep->type != ARG)
goto badarg;
n = ep->v.chan; /* try previous context */
}
eputs("Bad call to argf!\n");
quit(1);
badarg:
eputs(actp->name);
eputs(": argument not a function\n");
quit(1);
}
char *
argfun(n) /* return function name for nth argument */
int n;
{
return(argf(n)->name);
}
double
efunc(ep) /* evaluate a function */
register EPNODE *ep;
{
ACTIVATION act;
double alist[ALISTSIZ];
double rval;
register VARDEF *dp;
/* push environment */
dp = resolve(ep->v.kid);
act.name = dp->name;
act.prev = curact;
act.ap = alist;
act.an = 0;
act.fun = ep;
curact = &act;
if (dp->def == NULL || dp->def->v.kid->type != FUNC)
rval = libfunc(act.name, dp);
else
rval = evalue(dp->def->v.kid->sibling);
curact = act.prev; /* pop environment */
return(rval);
}
LIBR *
liblookup(fname) /* look up a library function */
char *fname;
{
int upper, lower;
register int cm, i;
lower = 0;
upper = cm = libsize;
while ((i = (lower + upper) >> 1) != cm) {
cm = strcmp(fname, library[i].fname);
if (cm > 0)
lower = i;
else if (cm < 0)
upper = i;
else
return(&library[i]);
cm = i;
}
return(NULL);
}
/*
* The following routines are for internal use:
*/
static double
libfunc(fname, vp) /* execute library function */
char *fname;
VARDEF *vp;
{
register LIBR *lp;
double d;
int lasterrno;
if (vp != NULL)
lp = vp->lib;
else
lp = liblookup(fname);
if (lp == NULL) {
eputs(fname);
eputs(": undefined function\n");
quit(1);
}
lasterrno = errno;
errno = 0;
d = (*lp->f)(lp->fname);
#ifdef IEEE
if (errno == 0)
if (isnan(d))
errno = EDOM;
else if (isinf(d))
errno = ERANGE;
#endif
if (errno) {
wputs(fname);
if (errno == EDOM)
wputs(": domain error\n");
else if (errno == ERANGE)
wputs(": range error\n");
else
wputs(": error in call\n");
return(0.0);
}
errno = lasterrno;
return(d);
}
/*
* Library functions:
*/
static double
l_if() /* if(cond, then, else) conditional expression */
/* cond evaluates true if greater than zero */
{
if (argument(1) > 0.0)
return(argument(2));
else
return(argument(3));
}
static double
l_select() /* return argument #(A1+1) */
{
register int n;
n = argument(1) + .5;
if (n == 0)
return(nargum()-1);
if (n < 1 || n > nargum()-1) {
errno = EDOM;
return(0.0);
}
return(argument(n+1));
}
static double
l_rand() /* random function between 0 and 1 */
{
double x;
x = argument(1);
x *= 1.0/(1.0 + x*x) + 2.71828182845904;
x += .785398163397447 - floor(x);
x = 1e5 / x;
return(x - floor(x));
}
static double
l_floor() /* return largest integer not greater than arg1 */
{
return(floor(argument(1)));
}
static double
l_ceil() /* return smallest integer not less than arg1 */
{
return(ceil(argument(1)));
}
static double
l_sqrt()
{
return(sqrt(argument(1)));
}
static double
l_sin()
{
return(sin(argument(1)));
}
static double
l_cos()
{
return(cos(argument(1)));
}
static double
l_tan()
{
return(tan(argument(1)));
}
static double
l_asin()
{
return(asin(argument(1)));
}
static double
l_acos()
{
return(acos(argument(1)));
}
static double
l_atan()
{
return(atan(argument(1)));
}
static double
l_atan2()
{
return(atan2(argument(1), argument(2)));
}
static double
l_exp()
{
return(exp(argument(1)));
}
static double
l_log()
{
return(log(argument(1)));
}
static double
l_log10()
{
return(log10(argument(1)));
}