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/* xlmath - xlisp built-in arithmetic functions */
/* Copyright (c) 1985, by David Michael Betz
All Rights Reserved
Permission is granted for unrestricted non-commercial use */
/* CHANGE LOG
* --------------------------------------------------------------------
* 28Apr03 dm eliminate some compiler warnings
*/
#include "xlisp.h"
#include <math.h>
/* external variables */
extern LVAL s_true;
/* forward declarations */
FORWARD LOCAL LVAL unary(int fcn);
FORWARD LOCAL LVAL binary(int fcn);
FORWARD LOCAL LVAL predicate(int fcn);
FORWARD LOCAL LVAL compare(int fcn);
FORWARD LOCAL void badiop(void);
FORWARD LOCAL void badfop(void);
/* binary functions */
LVAL xadd(void) { return (binary('+')); } /* + */
LVAL xsub(void) { return (binary('-')); } /* - */
LVAL xmul(void) { return (binary('*')); } /* * */
LVAL xdiv(void) { return (binary('/')); } /* / */
LVAL xrem(void) { return (binary('%')); } /* rem */
LVAL xmin(void) { return (binary('m')); } /* min */
LVAL xmax(void) { return (binary('M')); } /* max */
LVAL xexpt(void) { return (binary('E')); } /* expt */
LVAL xlogand(void) { return (binary('&')); } /* logand */
LVAL xlogior(void) { return (binary('|')); } /* logior */
LVAL xlogxor(void) { return (binary('^')); } /* logxor */
LVAL xatan(void) { return (binary('A')); } /* atan */
/* xgcd - greatest common divisor */
LVAL xgcd(void)
{
FIXTYPE m,n,r;
LVAL arg;
if (!moreargs()) /* check for identity case */
return (cvfixnum((FIXTYPE)0));
arg = xlgafixnum();
n = getfixnum(arg);
if (n < (FIXTYPE)0) n = -n; /* absolute value */
while (moreargs()) {
arg = xlgafixnum();
m = getfixnum(arg);
if (m < (FIXTYPE)0) m = -m; /* absolute value */
for (;;) { /* euclid's algorithm */
r = m % n;
if (r == (FIXTYPE)0)
break;
m = n;
n = r;
}
}
return (cvfixnum(n));
}
/* binary - handle binary operations */
LOCAL LVAL binary(int fcn)
{
FIXTYPE ival=0,iarg=0;
FLOTYPE fval=0,farg=0;
LVAL arg;
int mode=0;
/* get the first argument */
arg = xlgetarg();
/* set the type of the first argument */
if (fixp(arg)) {
ival = getfixnum(arg);
mode = 'I';
}
else if (floatp(arg)) {
fval = getflonum(arg);
mode = 'F';
}
else
xlerror("bad argument type",arg);
/* treat a single argument as a special case */
if (!moreargs()) {
switch (fcn) {
case '-':
switch (mode) {
case 'I':
ival = -ival;
break;
case 'F':
fval = -fval;
break;
}
break;
case '/':
switch (mode) {
case 'I':
checkizero(ival);
ival = 1 / ival;
break;
case 'F':
checkfzero(fval);
fval = 1.0 / fval;
break;
}
break;
case 'A':
switch (mode) {
case 'I':
mode = 'F';
fval = ival;
case 'F':
fval = atan(fval);
break;
}
break;
}
}
/* handle each remaining argument */
while (moreargs()) {
/* get the next argument */
arg = xlgetarg();
/* check its type */
if (fixp(arg)) {
switch (mode) {
case 'I':
iarg = getfixnum(arg);
break;
case 'F':
farg = (FLOTYPE)getfixnum(arg);
break;
}
}
else if (floatp(arg)) {
switch (mode) {
case 'I':
fval = (FLOTYPE)ival;
farg = getflonum(arg);
mode = 'F';
break;
case 'F':
farg = getflonum(arg);
break;
}
}
else
xlerror("bad argument type",arg);
/* accumulate the result value */
switch (mode) {
case 'I':
switch (fcn) {
case '+': ival += iarg; break;
case '-': ival -= iarg; break;
case '*': ival *= iarg; break;
case '/': checkizero(iarg); ival /= iarg; break;
case '%': checkizero(iarg); ival %= iarg; break;
case 'M': if (iarg > ival) ival = iarg; break;
case 'm': if (iarg < ival) ival = iarg; break;
case '&': ival &= iarg; break;
case '|': ival |= iarg; break;
case '^': ival ^= iarg; break;
case 'A': fval = atan2((double) ival, (double) iarg);
mode = 'F';
xllastarg();
break;
default: badiop();
}
break;
case 'F':
switch (fcn) {
case '+': fval += farg; break;
case '-': fval -= farg; break;
case '*': fval *= farg; break;
case '/': checkfzero(farg); fval /= farg; break;
case 'M': if (farg > fval) fval = farg; break;
case 'm': if (farg < fval) fval = farg; break;
case 'E': fval = pow(fval,farg); break;
case 'A': fval = atan2(fval, farg);
xllastarg();
break;
default: badfop();
}
break;
}
}
/* return the result */
switch (mode) {
case 'I': return (cvfixnum(ival));
case 'F': return (cvflonum(fval));
}
/* This shouldn't fall through, but just in case, this will
catch it and make the compiler happy... */
xlerror("bad argument type",arg);
return NULL;
}
/* checkizero - check for integer division by zero */
void checkizero(FIXTYPE iarg)
{
if (iarg == 0)
xlfail("division by zero");
}
/* checkfzero - check for floating point division by zero */
void checkfzero(FLOTYPE farg)
{
if (farg == 0.0)
xlfail("division by zero");
}
/* checkfneg - check for square root of a negative number */
void checkfneg(FLOTYPE farg)
{
if (farg < 0.0)
xlfail("square root of a negative number");
}
/* real-random */
LVAL xrealrand(void)
{
xllastarg();
return cvflonum(xlrealrand());
}
/* unary functions */
LVAL xlognot(void) { return (unary('~')); } /* lognot */
LVAL xabs(void) { return (unary('A')); } /* abs */
LVAL xadd1(void) { return (unary('+')); } /* 1+ */
LVAL xsub1(void) { return (unary('-')); } /* 1- */
LVAL xsin(void) { return (unary('S')); } /* sin */
LVAL xcos(void) { return (unary('C')); } /* cos */
LVAL xtan(void) { return (unary('T')); } /* tan */
LVAL xexp(void) { return (unary('E')); } /* exp */
LVAL xsqrt(void) { return (unary('R')); } /* sqrt */
LVAL xfix(void) { return (unary('I')); } /* truncate */
LVAL xfloat(void) { return (unary('F')); } /* float */
LVAL xrand(void) { return (unary('?')); } /* random */
/* unary - handle unary operations */
LOCAL LVAL unary(int fcn)
{
FLOTYPE fval;
FIXTYPE ival;
LVAL arg;
/* get the argument */
arg = xlgetarg();
xllastarg();
/* check its type */
if (fixp(arg)) {
ival = getfixnum(arg);
switch (fcn) {
case '~': ival = ~ival; break;
case 'A': ival = (ival < 0 ? -ival : ival); break;
case '+': ival++; break;
case '-': ival--; break;
case 'I': break;
case 'F': return (cvflonum((FLOTYPE)ival));
case '?': ival = (FIXTYPE)xlrand((int)ival); break;
default: badiop();
}
return (cvfixnum(ival));
}
else if (floatp(arg)) {
fval = getflonum(arg);
switch (fcn) {
case 'A': fval = (fval < 0.0 ? -fval : fval); break;
case '+': fval += 1.0; break;
case '-': fval -= 1.0; break;
case 'S': fval = sin(fval); break;
case 'C': fval = cos(fval); break;
case 'T': fval = tan(fval); break;
case 'E': fval = exp(fval); break;
case 'R': checkfneg(fval); fval = sqrt(fval); break;
case 'I': return (cvfixnum((FIXTYPE)fval));
case 'F': break;
default: badfop();
}
return (cvflonum(fval));
}
else {
xlerror("bad argument type",arg);
return NULL;
}
}
/* unary predicates */
LVAL xminusp(void) { return (predicate('-')); } /* minusp */
LVAL xzerop(void) { return (predicate('Z')); } /* zerop */
LVAL xplusp(void) { return (predicate('+')); } /* plusp */
LVAL xevenp(void) { return (predicate('E')); } /* evenp */
LVAL xoddp(void) { return (predicate('O')); } /* oddp */
/* predicate - handle a predicate function */
LOCAL LVAL predicate(int fcn)
{
FLOTYPE fval;
FIXTYPE ival=0;
LVAL arg;
/* get the argument */
arg = xlgetarg();
xllastarg();
/* check the argument type */
if (fixp(arg)) {
ival = getfixnum(arg);
switch (fcn) {
case '-': ival = (ival < 0); break;
case 'Z': ival = (ival == 0); break;
case '+': ival = (ival > 0); break;
case 'E': ival = ((ival & 1) == 0); break;
case 'O': ival = ((ival & 1) != 0); break;
default: badiop();
}
}
else if (floatp(arg)) {
fval = getflonum(arg);
switch (fcn) {
case '-': ival = (fval < 0); break;
case 'Z': ival = (fval == 0); break;
case '+': ival = (fval > 0); break;
default: badfop();
}
}
else
xlerror("bad argument type",arg);
/* return the result value */
return (ival ? s_true : NIL);
}
/* comparison functions */
LVAL xlss(void) { return (compare('<')); } /* < */
LVAL xleq(void) { return (compare('L')); } /* <= */
LVAL xequ(void) { return (compare('=')); } /* = */
LVAL xneq(void) { return (compare('#')); } /* /= */
LVAL xgeq(void) { return (compare('G')); } /* >= */
LVAL xgtr(void) { return (compare('>')); } /* > */
/* compare - common compare function */
LOCAL LVAL compare(int fcn)
{
FIXTYPE icmp,ival=0,iarg=0;
FLOTYPE fcmp,fval=0,farg=0;
LVAL arg;
int mode=0;
/* get the first argument */
arg = xlgetarg();
/* set the type of the first argument */
if (fixp(arg)) {
ival = getfixnum(arg);
mode = 'I';
}
else if (floatp(arg)) {
fval = getflonum(arg);
mode = 'F';
}
else
xlerror("bad argument type",arg);
/* handle each remaining argument */
for (icmp = TRUE; icmp && moreargs(); ival = iarg, fval = farg) {
/* get the next argument */
arg = xlgetarg();
/* check its type */
if (fixp(arg)) {
switch (mode) {
case 'I':
iarg = getfixnum(arg);
break;
case 'F':
farg = (FLOTYPE)getfixnum(arg);
break;
}
}
else if (floatp(arg)) {
switch (mode) {
case 'I':
fval = (FLOTYPE)ival;
farg = getflonum(arg);
mode = 'F';
break;
case 'F':
farg = getflonum(arg);
break;
}
}
else
xlerror("bad argument type",arg);
/* compute result of the compare */
switch (mode) {
case 'I':
icmp = ival - iarg;
switch (fcn) {
case '<': icmp = (icmp < 0); break;
case 'L': icmp = (icmp <= 0); break;
case '=': icmp = (icmp == 0); break;
case '#': icmp = (icmp != 0); break;
case 'G': icmp = (icmp >= 0); break;
case '>': icmp = (icmp > 0); break;
}
break;
case 'F':
fcmp = fval - farg;
switch (fcn) {
case '<': icmp = (fcmp < 0.0); break;
case 'L': icmp = (fcmp <= 0.0); break;
case '=': icmp = (fcmp == 0.0); break;
case '#': icmp = (fcmp != 0.0); break;
case 'G': icmp = (fcmp >= 0.0); break;
case '>': icmp = (fcmp > 0.0); break;
}
break;
}
}
/* return the result */
return (icmp ? s_true : NIL);
}
/* badiop - bad integer operation */
LOCAL void badiop(void)
{
xlfail("bad integer operation");
}
/* badfop - bad floating point operation */
LOCAL void badfop(void)
{
xlfail("bad floating point operation");
}
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