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/* { dg-do run } */
/* { dg-skip-if "-mpowerpc-gpopt not supported" { powerpc*-*-darwin* } } */
/* { dg-options "-O2 -ffast-math -fno-inline -fno-unroll-loops -lm -mpowerpc-gpopt" } */
#include <math.h>
extern void abort (void);
#define NVALS 6
static double
convert_it_1 (double x)
{
return pow (x, 1.5);
}
static double
convert_it_2 (double x)
{
return pow (x, 2.5);
}
static double
convert_it_3 (double x)
{
return pow (x, -0.5);
}
static double
convert_it_4 (double x)
{
return pow (x, 10.5);
}
static double
convert_it_5 (double x)
{
return pow (x, -3.5);
}
int
main (int argc, char *argv[])
{
double values[NVALS] = { 3.0, 1.95, 2.227, 4.0, 256.0, .0008797 };
double PREC = .999999;
unsigned i;
for (i = 0; i < NVALS; i++)
{
volatile double x, y;
x = sqrt (values[i]);
y = __builtin_powi (values[i], 1);
if (fabs (convert_it_1 (values[i]) / (x * y)) < PREC)
abort ();
x = sqrt (values[i]);
y = __builtin_powi (values[i], 2);
if (fabs (convert_it_2 (values[i]) / (x * y)) < PREC)
abort ();
x = sqrt (values[i]);
y = __builtin_powi (values[i], -1);
if (fabs (convert_it_3 (values[i]) / (x * y)) < PREC)
abort ();
x = sqrt (values[i]);
y = __builtin_powi (values[i], 10);
if (fabs (convert_it_4 (values[i]) / (x * y)) < PREC)
abort ();
x = sqrt (values[i]);
y = __builtin_powi (values[i], -4);
if (fabs (convert_it_5 (values[i]) / (x * y)) < PREC)
abort ();
}
return 0;
}
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