/*
* Copyright (c) 2010, 2011 by
* Ralf Corsepius, Ulm/Germany. All rights reserved.
*
* Permission to use, copy, modify, and distribute this software
* is freely granted, provided that this notice is preserved.
*/
#include <math.h>
#include <stdio.h>
#ifndef M_PI_2
#define M_PI_2 1.57079632679489661923
#endif
#ifndef M_PI_4
#define M_PI_4 0.78539816339744830962
#endif
#define CONCAT(x, y) x ## y
#define XCONCAT(x, y) CONCAT(x, y)
#define STRINGIFY(x, y) # x # y
#define XSTRINGIFY(x, y) STRINGIFY(x, y)
#ifdef SUFFIX
#define FUNC(name) XCONCAT(name, SUFFIX)
#define STR(name) XSTRINGIFY(name, SUFFIX)
#else
#define FUNC(name) XCONCAT(name, )
#define STR(name) XSTRINGIFY(name, ) " "
#endif
extern void FUNC(domath) (void);
void
FUNC(domath) (void)
{
#ifndef PROVIDE_EMPTY_FUNC
FTYPE f1;
FTYPE f2;
int i1;
f1 = FUNC(acos) (0.0);
fprintf( stdout, STR(acos) " : " PRI "\n", f1);
f1 = FUNC(acosh) (0.0);
fprintf( stdout, STR(acosh) " : " PRI "\n", f1);
f1 = FUNC(asin) (1.0);
fprintf( stdout, STR(asin) " : " PRI "\n", f1);
f1 = FUNC(asinh) (1.0);
fprintf( stdout, STR(asinh) " : " PRI "\n", f1);
f1 = FUNC(atan) (M_PI_4);
fprintf( stdout, STR(atan) " : " PRI "\n", f1);
f1 = FUNC(atan2) (2.3, 2.3);
fprintf( stdout, STR(atan2) " : " PRI "\n", f1);
f1 = FUNC(atanh) (1.0);
fprintf( stdout, STR(atanh) " : " PRI "\n", f1);
f1 = FUNC(cbrt) (27.0);
fprintf( stdout, STR(cbrt) " : " PRI "\n", f1);
f1 = FUNC(ceil) (3.5);
fprintf( stdout, STR(ceil) " : " PRI "\n", f1);
f1 = FUNC(copysign) (3.5, -2.5);
fprintf( stdout, STR(copysign) " : " PRI "\n", f1);
f1 = FUNC(cos) (M_PI_2);
fprintf( stdout, STR(cos) " : " PRI "\n", f1);
f1 = FUNC(cosh) (M_PI_2);
fprintf( stdout, STR(cosh) " : " PRI "\n", f1);
f1 = FUNC(erf) (42.0);
fprintf( stdout, STR(erf) " : " PRI "\n", f1);
f1 = FUNC(erfc) (42.0);
fprintf( stdout, STR(erfc) " : " PRI "\n", f1);
f1 = FUNC(exp) (0.42);
fprintf( stdout, STR(exp) " : " PRI "\n", f1);
f1 = FUNC(exp2) (0.42);
fprintf( stdout, STR(exp2) " : " PRI "\n", f1);
f1 = FUNC(expm1) (0.00042);
fprintf( stdout, STR(expm1) " : " PRI "\n", f1);
f1 = FUNC(fabs) (-1.123);
fprintf( stdout, STR(fabs) " : " PRI "\n", f1);
f1 = FUNC(fdim) (1.123, 2.123);
fprintf( stdout, STR(fdim) " : " PRI "\n", f1);
f1 = FUNC(floor) (0.5);
fprintf( stdout, STR(floor) " : " PRI "\n", f1);
f1 = FUNC(floor) (-0.5);
fprintf( stdout, STR(floor) " : " PRI "\n", f1);
f1 = FUNC(fma) (2.1, 2.2, 3.01);
fprintf( stdout, STR(fma) " : " PRI "\n", f1);
f1 = FUNC(fmax) (-0.42, 0.42);
fprintf( stdout, STR(fmax) " : " PRI "\n", f1);
f1 = FUNC(fmin) (-0.42, 0.42);
fprintf( stdout, STR(fmin) " : " PRI "\n", f1);
f1 = FUNC(fmod) (42.0, 3.0);
fprintf( stdout, STR(fmod) " : " PRI "\n", f1);
/* no type-specific variant */
i1 = fpclassify(1.0);
fprintf( stdout, "fpclassify : %d\n", i1);
f1 = FUNC(frexp) (42.0, &i1);
fprintf( stdout, STR(frexp) " : " PRI "\n", f1);
f1 = FUNC(hypot) (42.0, 42.0);
fprintf( stdout, STR(hypot) " : " PRI "\n", f1);
i1 = FUNC(ilogb) (42.0);
fprintf( stdout, STR(ilogb) " : %d\n", i1);
/* no type-specific variant */
i1 = isfinite(3.0);
fprintf( stdout, "isfinite : %d\n", i1);
/* no type-specific variant */
i1 = isgreater(3.0, 3.1);
fprintf( stdout, "isgreater : %d\n", i1);
/* no type-specific variant */
i1 = isgreaterequal(3.0, 3.1);
fprintf( stdout, "isgreaterequal : %d\n", i1);
/* no type-specific variant */
i1 = isinf(3.0);
fprintf( stdout, "isinf : %d\n", i1);
/* no type-specific variant */
i1 = isless(3.0, 3.1);
fprintf( stdout, "isless : %d\n", i1);
/* no type-specific variant */
i1 = islessequal(3.0, 3.1);
fprintf( stdout, "islessequal : %d\n", i1);
/* no type-specific variant */
i1 = islessgreater(3.0, 3.1);
fprintf( stdout, "islessgreater : %d\n", i1);
/* no type-specific variant */
i1 = isnan(0.0);
fprintf( stdout, "isnan : %d\n", i1);
/* no type-specific variant */
i1 = isnormal(3.0);
fprintf( stdout, "isnormal : %d\n", i1);
/* no type-specific variant */
f1 = isunordered(1.0, 2.0);
fprintf( stdout, "isunordered : %d\n", i1);
f1 = FUNC(j0) (1.2);
fprintf( stdout, STR(j0) " : " PRI "\n", f1);
f1 = FUNC(j1) (1.2);
fprintf( stdout, STR(j1) " : " PRI "\n", f1);
f1 = FUNC(jn) (2,1.2);
fprintf( stdout, STR(jn) " : " PRI "\n", f1);
f1 = FUNC(ldexp) (1.2,3);
fprintf( stdout, STR(ldexp) " : " PRI "\n", f1);
f1 = FUNC(lgamma) (42.0);
fprintf( stdout, STR(lgamma) " : " PRI "\n", f1);
f1 = FUNC(llrint) (-0.5);
fprintf( stdout, STR(llrint) " : " PRI "\n", f1);
f1 = FUNC(llrint) (0.5);
fprintf( stdout, STR(llrint) " : " PRI "\n", f1);
f1 = FUNC(llround) (-0.5);
fprintf( stdout, STR(lround) " : " PRI "\n", f1);
f1 = FUNC(llround) (0.5);
fprintf( stdout, STR(lround) " : " PRI "\n", f1);
f1 = FUNC(log) (42.0);
fprintf( stdout, STR(log) " : " PRI "\n", f1);
f1 = FUNC(log10) (42.0);
fprintf( stdout, STR(log10) " : " PRI "\n", f1);
f1 = FUNC(log1p) (42.0);
fprintf( stdout, STR(log1p) " : " PRI "\n", f1);
f1 = FUNC(log2) (42.0);
fprintf( stdout, STR(log2) " : " PRI "\n", f1);
f1 = FUNC(logb) (42.0);
fprintf( stdout, STR(logb) " : " PRI "\n", f1);
f1 = FUNC(lrint) (-0.5);
fprintf( stdout, STR(lrint) " : " PRI "\n", f1);
f1 = FUNC(lrint) (0.5);
fprintf( stdout, STR(lrint) " : " PRI "\n", f1);
f1 = FUNC(lround) (-0.5);
fprintf( stdout, STR(lround) " : " PRI "\n", f1);
f1 = FUNC(lround) (0.5);
fprintf( stdout, STR(lround) " : " PRI "\n", f1);
f1 = FUNC(modf) (42.0,&f2);
fprintf( stdout, STR(lmodf) " : " PRI "\n", f1);
f1 = FUNC(nan) ("");
fprintf( stdout, STR(nan) " : " PRI "\n", f1);
f1 = FUNC(nearbyint) (1.5);
fprintf( stdout, STR(nearbyint) " : " PRI "\n", f1);
f1 = FUNC(nextafter) (1.5,2.0);
fprintf( stdout, STR(nextafter) " : " PRI "\n", f1);
f1 = FUNC(pow) (3.01, 2.0);
fprintf( stdout, STR(pow) " : " PRI "\n", f1);
f1 = FUNC(remainder) (3.01,2.0);
fprintf( stdout, STR(remainder) " : " PRI "\n", f1);
f1 = FUNC(remquo) (29.0,3.0,&i1);
fprintf( stdout, STR(remquo) " : " PRI "\n", f1);
f1 = FUNC(rint) (0.5);
fprintf( stdout, STR(rint) " : " PRI "\n", f1);
f1 = FUNC(rint) (-0.5);
fprintf( stdout, STR(rint) " : " PRI "\n", f1);
f1 = FUNC(round) (0.5);
fprintf( stdout, STR(round) " : " PRI "\n", f1);
f1 = FUNC(round) (-0.5);
fprintf( stdout, STR(round) " : " PRI "\n", f1);
f1 = FUNC(scalbln) (1.2,3);
fprintf( stdout, STR(scalbln) " : " PRI "\n", f1);
f1 = FUNC(scalbn) (1.2,3);
fprintf( stdout, STR(scalbn) " : " PRI "\n", f1);
/* no type-specific variant */
i1 = signbit(1.0);
fprintf( stdout, "signbit : %i\n", i1);
f1 = FUNC(sin) (M_PI_4);
fprintf( stdout, STR(sin) " : " PRI "\n", f1);
f1 = FUNC(sinh) (M_PI_4);
fprintf( stdout, STR(sinh) " : " PRI "\n", f1);
f1 = FUNC(sqrt) (9.0);
fprintf( stdout, STR(sqrt) " : " PRI "\n", f1);
f1 = FUNC(tan) (M_PI_4);
fprintf( stdout, STR(tan) " : " PRI "\n", f1);
f1 = FUNC(tanh) (M_PI_4);
fprintf( stdout, STR(tanh) " : " PRI "\n", f1);
f1 = FUNC(tgamma) (2.1);
fprintf( stdout, STR(tgamma) " : " PRI "\n", f1);
f1 = FUNC(trunc) (3.5);
fprintf( stdout, STR(trunc) " : " PRI "\n", f1);
f1 = FUNC(y0) (1.2);
fprintf( stdout, STR(y0) " : " PRI "\n", f1);
f1 = FUNC(y1) (1.2);
fprintf( stdout, STR(y1) " : " PRI "\n", f1);
f1 = FUNC(yn) (3,1.2);
fprintf( stdout, STR(yn) " : " PRI "\n", f1);
#endif
}
