* Copyright (c) 1989 The Regents of the University of California.
* %sccs.include.redist.c%
static char sccsid
[] = "@(#)fmod.c 5.2 (Berkeley) %G%";
* double fmod(double x, double y)
* The fmod function computes the floating-point remainder of x/y.
* The fmod function returns the value x-i*y, for some integer i
* such that, if y is nonzero, the result has the same sign as x and
* magnitude less than the magnitude of y.
* fmod(x,0) traps/faults on floating-point divided-by-zero.
* On IEEE-754 conforming machines with "isnan()" primitive,
* fmod(x,0), fmod(INF,y) are invalid operations and NaN is returned.
#if !defined(vax) && !defined(tahoe)
extern int isnan(),finite();
#endif /* !defined(vax) && !defined(tahoe) */
extern double frexp(),ldexp(),fabs();
#if !defined(vax) && !defined(tahoe) /* per "fmod" manual entry, SunOS 4.0 */
|| isnan(y
) || !finite(x
)
#endif /* !defined(vax) && !defined(tahoe) */
r
-= w
<= r
? w
: w
*(double)0.5;
return x
>= (double)0 ? r
: -r
;
double ro
= fmod(x
,y
),rn
= _fmod(x
,y
);
(void)printf(" x = 0x%08.8x %08.8x (%24.16e)\n",x
,x
);
(void)printf(" y = 0x%08.8x %08.8x (%24.16e)\n",y
,y
);
(void)printf(" fmod = 0x%08.8x %08.8x (%24.16e)\n",ro
,ro
);
(void)printf("_fmod = 0x%08.8x %08.8x (%24.16e)\n",rn
,rn
);
for (i
= 0; i
< NTEST
; i
++) {
for (cases
= 0; cases
< NCASES
; cases
++) {
(void)printf("Number of failures: %d (out of a total of %d)\n",
(void)printf("No discrepancies were found\n");