void
ompf_static_bsched_(indvar_t *lb, indvar_t *ub, int *step)
{
extern void _ompc_static_bsched();
_ompc_static_bsched(lb, ub, UBOFS_F, step);
}
static void
__ompc_func_3 (void **__ompc_args)
{
auto double *_pp_sx;
auto double *_pp_sy;
auto int *_pp_np;
auto int *_pp_k_offset;
auto double *_pp_an;
auto int *_pp_nthreads;
auto double *_ppthd_x;
(_ppthd_x) = (((double *) (_ompc_get_thdprv (&_thdprv_x, 1048576, x))));
(_pp_sx) = (((double *) (*__ompc_args)));
(_pp_sy) = (((double *) (*((__ompc_args) + (1)))));
(_pp_np) = (((int *) (*((__ompc_args) + (2)))));
(_pp_k_offset) = (((int *) (*((__ompc_args) + (3)))));
(_pp_an) = (((double *) (*((__ompc_args) + (4)))));
(_pp_nthreads) = (((int *) (*((__ompc_args) + (5)))));
_ompc_copyin_thdprv (_ppthd_x, x, 1048576);
{
auto double t1;
auto double t2;
auto double t3;
auto double t4;
auto double x1;
auto double x2;
auto int kk;
auto int i;
auto int ik;
auto int l;
auto double qq[10];
# 150 "ep.c"
for ((i) = (0); (i) < (10); (i)++)
{
(*((qq) + (i))) = (0.0);
}
{
auto double _p_sx;
auto double _p_sy;
auto int _p_k;
auto int _p_k_0;
auto int _p_k_1;
auto int _p_k_2;
(_p_sy) = (0.0);
(_p_sx) = (0.0);
(_p_k_0) = (1);
(_p_k_1) = ((*_pp_np) + (1));
(_p_k_2) = (1);
_ompc_static_bsched (&_p_k_0, &_p_k_1, &_p_k_2);
# 153 "ep.c"
for ((_p_k) = (_p_k_0); (_p_k) < (_p_k_1); (_p_k) += (_p_k_2))
{
# 154 "ep.c"
(kk) = ((*_pp_k_offset) + (_p_k));
# 155 "ep.c"
(t1) = (2.71828183E8);
# 156 "ep.c"
(t2) = (*_pp_an);
# 160 "ep.c"
for ((i) = (1); (i) <= (100); (i)++)
{
# 161 "ep.c"
(ik) = ((kk) / (2));
# 162 "ep.c"
if (((2) * (ik)) != (kk))
{
(t3) = (randlc (&(t1), t2));
}
# 163 "ep.c"
if ((ik) == (0))
# 163 "ep.c"
break;
# 164 "ep.c"
(t3) = (randlc (&(t2), t2));
# 165 "ep.c"
(kk) = (ik);
}
# 170 "ep.c"
if ((0) == (1))
{
timer_start (3);
}
# 171 "ep.c"
vranlc ((2) * ((1) << (16)), &(t1), 1.220703125E9,
(_ppthd_x) - (1));
# 172 "ep.c"
if ((0) == (1))
{
timer_stop (3);
}
# 179 "ep.c"
if ((0) == (1))
{
timer_start (2);
}
# 181 "ep.c"
for ((i) = (0); (i) < ((1) << (16)); (i)++)
{
# 182 "ep.c"
(x1) = (((2.0) * (*((_ppthd_x) + ((2) * (i))))) - (1.0));
# 183 "ep.c"
(x2) =
(((2.0) * (*((_ppthd_x) + (((2) * (i)) + (1))))) - (1.0));
# 184 "ep.c"
(t1) = (((x1) * (x1)) + ((x2) * (x2)));
# 185 "ep.c"
if ((t1) <= (1.0))
{
# 186 "ep.c"
(t2) = (sqrt (((-(2.0)) * (log (t1))) / (t1)));
# 187 "ep.c"
(t3) = ((x1) * (t2));
# 188 "ep.c"
(t4) = ((x2) * (t2));
# 189 "ep.c"
(l) =
(((int)
(((fabs (t3)) >
(fabs (t4))) ? (fabs (t3)) : (fabs (t4)))));
# 190 "ep.c"
(*((qq) + (l))) += (1.0);
# 191 "ep.c"
(_p_sx) = ((_p_sx) + (t3));
# 192 "ep.c"
(_p_sy) = ((_p_sy) + (t4));
}
}
# 195 "ep.c"
if ((0) == (1))
{
timer_stop (2);
}
}
_ompc_reduction (&_p_sy, _pp_sy, 14, 6);
_ompc_reduction (&_p_sx, _pp_sx, 14, 6);
_ompc_barrier ();
}
{
_ompc_enter_critical (&__ompc_lock_critical);
# 199 "ep.c"
for ((i) = (0); (i) <= ((10) - (1)); (i)++)
{
(*((q) + (i))) += (*((qq) + (i)));
}
_ompc_exit_critical (&__ompc_lock_critical);
}
if (_ompc_is_master ())
{
(*_pp_nthreads) = (omp_get_num_threads ());
}
}
}