/*
* Copyright (c) 1994-2000 FUJITSU LABORATORIES LIMITED
* All rights reserved.
*
* FUJITSU LABORATORIES LIMITED ("FLL") hereby grants you a limited,
* non-exclusive and royalty-free license to use, copy, modify and
* redistribute, solely for non-commercial and non-profit purposes, the
* computer program, "Risa/Asir" ("SOFTWARE"), subject to the terms and
* conditions of this Agreement. For the avoidance of doubt, you acquire
* only a limited right to use the SOFTWARE hereunder, and FLL or any
* third party developer retains all rights, including but not limited to
* copyrights, in and to the SOFTWARE.
*
* (1) FLL does not grant you a license in any way for commercial
* purposes. You may use the SOFTWARE only for non-commercial and
* non-profit purposes only, such as academic, research and internal
* business use.
* (2) The SOFTWARE is protected by the Copyright Law of Japan and
* international copyright treaties. If you make copies of the SOFTWARE,
* with or without modification, as permitted hereunder, you shall affix
* to all such copies of the SOFTWARE the above copyright notice.
* (3) An explicit reference to this SOFTWARE and its copyright owner
* shall be made on your publication or presentation in any form of the
* results obtained by use of the SOFTWARE.
* (4) In the event that you modify the SOFTWARE, you shall notify FLL by
* e-mail at risa-admin@sec.flab.fujitsu.co.jp of the detailed specification
* for such modification or the source code of the modified part of the
* SOFTWARE.
*
* THE SOFTWARE IS PROVIDED AS IS WITHOUT ANY WARRANTY OF ANY KIND. FLL
* MAKES ABSOLUTELY NO WARRANTIES, EXPRESSED, IMPLIED OR STATUTORY, AND
* EXPRESSLY DISCLAIMS ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS
* FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT OF THIRD PARTIES'
* RIGHTS. NO FLL DEALER, AGENT, EMPLOYEES IS AUTHORIZED TO MAKE ANY
* MODIFICATIONS, EXTENSIONS, OR ADDITIONS TO THIS WARRANTY.
* UNDER NO CIRCUMSTANCES AND UNDER NO LEGAL THEORY, TORT, CONTRACT,
* OR OTHERWISE, SHALL FLL BE LIABLE TO YOU OR ANY OTHER PERSON FOR ANY
* DIRECT, INDIRECT, SPECIAL, INCIDENTAL, PUNITIVE OR CONSEQUENTIAL
* DAMAGES OF ANY CHARACTER, INCLUDING, WITHOUT LIMITATION, DAMAGES
* ARISING OUT OF OR RELATING TO THE SOFTWARE OR THIS AGREEMENT, DAMAGES
* FOR LOSS OF GOODWILL, WORK STOPPAGE, OR LOSS OF DATA, OR FOR ANY
* DAMAGES, EVEN IF FLL SHALL HAVE BEEN INFORMED OF THE POSSIBILITY OF
* SUCH DAMAGES, OR FOR ANY CLAIM BY ANY OTHER PARTY. EVEN IF A PART
* OF THE SOFTWARE HAS BEEN DEVELOPED BY A THIRD PARTY, THE THIRD PARTY
* DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE,
* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE.
*
* $OpenXM: OpenXM_contrib2/asir2000/builtin/math.c,v 1.13 2018/03/29 01:32:50 noro Exp $
*/
#include "ca.h"
#include <math.h>
#include "parse.h"
#if defined(VISUAL) || defined(__MINGW32__)
#include <float.h>
#endif
void Pdsqrt(),Pdsin(),Pdcos(),Pdtan(),Pdasin(),Pdacos(),Pdatan(),Pdlog(),Pdexp();
void Pabs(),Pdfloor(),Pdceil(),Pdrint(),Pdisnan();
struct ftab math_tab[] = {
{"dsqrt",Pdsqrt,1},
{"dabs",Pabs,1},
{"dsin",Pdsin,1},
{"dcos",Pdcos,1},
{"dtan",Pdtan,1},
{"dlog",Pdlog,1},
{"dexp",Pdexp,1},
{"dasin",Pdasin,1},
{"dacos",Pdacos,1},
{"datan",Pdatan,1},
{"floor",Pdfloor,1},
{"dfloor",Pdfloor,1},
{"ceil",Pdceil,1},
{"dceil",Pdceil,1},
{"rint",Pdrint,1},
{"drint",Pdrint,1},
{"disnan",Pdisnan,1},
{0,0,0},
};
void get_ri(Num z,double *r,double *i)
{
if ( !z ) {
*r = 0; *i = 0; return;
}
if ( OID(z) != O_N )
error("get_ri : invalid argument");
switch ( NID(z) ) {
case N_Q: case N_R: case N_B:
*r = ToReal(z); *i = 0;
break;
case N_C:
*r = ToReal(((C)z)->r);
*i = ToReal(((C)z)->i);
break;
default:
error("get_ri : invalid argument");
break;
}
}
void Pabs(arg,rp)
NODE arg;
Real *rp;
{
double s,r,i;
if ( !ARG0(arg) ) {
*rp = 0; return;
}
get_ri((Num)ARG0(arg),&r,&i);
if ( i == 0 )
s = fabs(r);
else if ( r == 0 )
s = fabs(i);
else
s = sqrt(r*r+i*i);
MKReal(s,*rp);
}
void Pdsqrt(arg,rp)
NODE arg;
Num *rp;
{
double s,r,i,a;
C z;
Real real;
if ( !ARG0(arg) ) {
*rp = 0; return;
}
get_ri((Num)ARG0(arg),&r,&i);
if ( i == 0 )
if ( r > 0 ) {
s = sqrt(r);
MKReal(s,real);
*rp = (Num)real;
} else {
NEWC(z);
z->r = 0;
s = sqrt(-r); MKReal(s,real); z->i = (Num)real;
*rp = (Num)z;
}
else {
a = sqrt(r*r+i*i);
NEWC(z);
s = sqrt((r+a)/2); MKReal(s,real); z->r = (Num)real;
s = i>0?sqrt((-r+a)/2):-sqrt((-r+a)/2);
MKReal(s,real); z->i = (Num)real;
*rp = (Num)z;
}
}
void Pdsin(arg,rp)
NODE arg;
Real *rp;
{
double s;
s = sin(ToReal(ARG0(arg)));
MKReal(s,*rp);
}
void Pdcos(arg,rp)
NODE arg;
Real *rp;
{
double s;
s = cos(ToReal(ARG0(arg)));
MKReal(s,*rp);
}
void Pdtan(arg,rp)
NODE arg;
Real *rp;
{
double s;
s = tan(ToReal(ARG0(arg)));
MKReal(s,*rp);
}
void Pdasin(arg,rp)
NODE arg;
Real *rp;
{
double s;
s = asin(ToReal(ARG0(arg)));
MKReal(s,*rp);
}
void Pdacos(arg,rp)
NODE arg;
Real *rp;
{
double s;
s = acos(ToReal(ARG0(arg)));
MKReal(s,*rp);
}
void Pdatan(arg,rp)
NODE arg;
Real *rp;
{
double s;
s = atan(ToReal(ARG0(arg)));
MKReal(s,*rp);
}
void Pdlog(arg,rp)
NODE arg;
Real *rp;
{
double s;
s = log(ToReal(ARG0(arg)));
MKReal(s,*rp);
}
void Pdexp(arg,rp)
NODE arg;
Real *rp;
{
double s;
s = exp(ToReal(ARG0(arg)));
MKReal(s,*rp);
}
void Pdfloor(arg,rp)
NODE arg;
Q *rp;
{
L a;
unsigned int au,al;
int sgn;
Q q;
double d;
if ( !ARG0(arg) ) {
*rp = 0;
return;
}
d = floor(ToReal(ARG0(arg)));
if ( d < -9.223372036854775808e18 || d >= 9.223372036854775808e18 )
error("dfloor : OverFlow");
if ( !d ) {
*rp = 0;
return;
}
a = (L)d;
if ( a < 0 ) {
sgn = -1;
a = -a;
} else
sgn = 1;
#if defined(i386) || defined(__alpha) || defined(VISUAL) || defined(__MINGW32__) || defined(__x86_64)
au = ((unsigned int *)&a)[1];
al = ((unsigned int *)&a)[0];
#else
al = ((unsigned int *)&a)[1];
au = ((unsigned int *)&a)[0];
#endif
if ( au ) {
NEWQ(q); SGN(q) = sgn; NM(q)=NALLOC(2); DN(q)=0;
PL(NM(q))=2; BD(NM(q))[0]=al; BD(NM(q))[1] = au;
} else {
UTOQ(al,q); SGN(q) = sgn;
}
*rp = q;
}
void Pdceil(arg,rp)
NODE arg;
Q *rp;
{
L a;
unsigned int au,al;
int sgn;
Q q;
double d;
if ( !ARG0(arg) ) {
*rp = 0;
return;
}
d = ceil(ToReal(ARG0(arg)));
if ( d < -9.223372036854775808e18 || d >= 9.223372036854775808e18 )
error("dceil : OverFlow");
if ( !d ) {
*rp = 0;
return;
}
a = (L)d;
if ( a < 0 ) {
sgn = -1;
a = -a;
} else
sgn = 1;
#if defined(i386) || defined(__alpha) || defined(VISUAL) || defined(__MINGW32__) || defined(__x86_64)
au = ((unsigned int *)&a)[1];
al = ((unsigned int *)&a)[0];
#else
al = ((unsigned int *)&a)[1];
au = ((unsigned int *)&a)[0];
#endif
if ( au ) {
NEWQ(q); SGN(q) = sgn; NM(q)=NALLOC(2); DN(q)=0;
PL(NM(q))=2; BD(NM(q))[0]=al; BD(NM(q))[1] = au;
} else {
UTOQ(al,q); SGN(q) = sgn;
}
*rp = q;
}
void Pdrint(arg,rp)
NODE arg;
Q *rp;
{
L a;
unsigned int au,al;
int sgn;
Q q;
double d;
if ( !ARG0(arg) ) {
*rp = 0;
return;
}
#if defined(VISUAL) || defined(__MINGW32__)
d = ToReal(ARG0(arg));
if ( d > 0 )
d = floor(d+0.5);
else
d = ceil(d-0.5);
#else
d = rint(ToReal(ARG0(arg)));
#endif
if ( d < -9.223372036854775808e18 || d >= 9.223372036854775808e18 )
error("drint : OverFlow");
a = (L)d;
if ( a < 0 ) {
sgn = -1;
a = -a;
} else
sgn = 1;
#if defined(i386) || defined(__alpha) || defined(VISUAL) || defined(__MINGW32__) || defined(__x86_64)
au = ((unsigned int *)&a)[1];
al = ((unsigned int *)&a)[0];
#else
al = ((unsigned int *)&a)[1];
au = ((unsigned int *)&a)[0];
#endif
if ( au ) {
NEWQ(q); SGN(q) = sgn; NM(q)=NALLOC(2); DN(q)=0;
PL(NM(q))=2; BD(NM(q))[0]=al; BD(NM(q))[1] = au;
} else if ( al ) {
UTOQ(al,q); SGN(q) = sgn;
} else
q = 0;
*rp = q;
}
void Pdisnan(NODE arg,Q *rp)
{
Real r;
double d;
#if defined(VISUAL) || defined(__MINGW32__)
int c;
#endif
r = (Real)ARG0(arg);
if ( !r || !NUM(r) || !REAL(r) ) {
*rp = 0;
return;
}
d = ToReal(r);
#if defined(VISUAL) || defined(__MINGW32__)
c = _fpclass(d);
if ( c == _FPCLASS_SNAN || c == _FPCLASS_QNAN ) *rp = ONE;
else if ( c == _FPCLASS_PINF || c == _FPCLASS_NINF ) STOQ(2,*rp);
#else
if ( isnan(d) ) *rp = ONE;
else if ( isinf(d) ) STOQ(2,*rp);
#endif
else *rp = 0;
}
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