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/* { dg-do run } */
/* { dg-options "-fcilkplus" } */
#if HAVE_IO
#include <cstdio>
#include<iostream>
#endif
#include <cstdlib>
template <class T>
T my_func (T *x, T y)
{
if (*x < y)
*x = y;
else
*x = *x;
}
template <class T> T my_func (T *x, T y);
template <class T>
T main_func (T *array, T *array2, T identity_val, int size)
{
T result = identity_val;
__sec_reduce_mutating (&result, array[0:size] * array2[0:size:1], my_func);
#if HAVE_IO
std::cout << "Result = " << result << std::endl;
#endif
return result;
}
int main (void)
{
int iarray[10], iarray2[10], i_result = 0, i_max;
long larray[10], larray2[10], l_result = 0, l_max;
float farray[10], farray2[10], f_result = 0, f_max;
double darray[10], darray2[10], d_result = 0, d_max;
for (int ii = 0; ii < 10; ii++)
{
if (ii%2 && ii)
{
darray[ii] = (double)(1.0000/(double)(ii));
farray[ii] = (float)(1.00/(float)(ii));
}
else
{
darray[ii] = (double) ii + 0.10;
farray[ii] = (float) (1.00/((float)(ii) + 0.10));
}
darray2[ii] = (double) (1.00000/ (double)(ii+1));
farray2[ii] = (float) (1.00/ (float)(ii+1));
}
for (int ii = 0; ii < 10; ii++)
{
iarray[ii] = ii;
larray[ii] = (long)ii;
}
for (int ii = 0; ii < 10; ii++)
{
iarray2[ii] = (ii-5);
larray2[ii] = (long)ii-5;
}
#if HAVE_IO
printf("\nInt: ");
for (int ii=0; ii < 10; ii++)
{
printf("%2d ", iarray[ii] * iarray2[ii]);
}
printf("\nfloat: ");
for (int ii=0; ii < 10; ii++)
{
printf("%3.2f ", farray[ii] * farray2[ii]);
}
printf("\nlong: ");
for (int ii=0; ii < 10; ii++)
{
printf("%2d ", larray[ii] * larray2[ii]);
}
printf("\ndouble: ");
for (int ii=0; ii < 10; ii++)
{
printf("%4.3lf ", (float) (darray[ii] * darray2[ii]));
}
printf("\n");
#endif
i_result = main_func<int> (iarray, iarray2, 0, 10);
l_result = main_func<long>(larray, larray2, 0, 10);
f_result = main_func<float>(farray, farray2, 0.00, 10);
d_result = main_func<double>(darray, darray2, 0.0000, 10);
i_max = iarray[0] * iarray2[0];
d_max = darray[0] * darray2[0];
f_max = farray[0] * farray2[0];
l_max = larray[0] * larray2[0];
for (int ii = 0; ii < 10; ii++)
{
if (iarray[ii] * iarray2[ii] > i_max)
i_max = iarray[ii] * iarray2[ii];
if (darray[ii] * darray2[ii] > d_max)
d_max = darray[ii] * darray2[ii];
if (farray[ii] * farray2[ii] > f_max)
f_max = farray[ii] * farray2[ii];
if (larray[ii] * larray2[ii] > l_max)
l_max = larray[ii] * larray2[ii];
}
#if HAVE_IO
printf("int result = %2d\n", i_max);
printf("long result = %2d\n", l_max);
printf("float result = %4.3f\n", f_max);
printf("double result = %4.3lf\n", (float)d_max);
#endif
if (i_max != i_result)
return 1;
if (f_max != f_result)
return 2;
if (l_max != l_result)
return 3;
if (d_max != d_result)
return 4;
return 0;
}
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