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#include <cctk.h>
#include <cctk_Parameters.h>
#include <loopcontrol.h>
#include <algorithm>
#include <cassert>
#include <cmath>
#include "operator_prototypes_3d.hh"
#include "typeprops.hh"
using namespace std;
namespace CarpetLib {
#define SRCIND3(i,j,k) \
index3 (srcioff + (i), srcjoff + (j), srckoff + (k), \
srcipadext, srcjpadext, srckpadext, \
srciext, srcjext, srckext)
#define DSTIND3(i,j,k) \
index3 (dstioff + (i), dstjoff + (j), dstkoff + (k), \
dstipadext, dstjpadext, dstkpadext, \
dstiext, dstjext, dstkext)
template <typename T>
void
restrict_3d_cc_rf2 (T const * restrict const src,
ivect3 const & restrict srcpadext,
ivect3 const & restrict srcext,
T * restrict const dst,
ivect3 const & restrict dstpadext,
ivect3 const & restrict dstext,
ibbox3 const & restrict srcbbox,
ibbox3 const & restrict dstbbox,
ibbox3 const & restrict,
ibbox3 const & restrict regbbox,
void * extraargs)
{
assert (not extraargs);
DECLARE_CCTK_PARAMETERS;
typedef typename typeprops<T>::real RT;
if (any (srcbbox.stride() >= regbbox.stride() or
dstbbox.stride() != regbbox.stride()))
{
CCTK_WARN (0, "Internal error: strides disagree");
}
if (any (reffact2 * srcbbox.stride() != dstbbox.stride())) {
CCTK_WARN (0, "Internal error: destination strides are not twice the source strides");
}
// This could be handled, but is likely to point to an error
// elsewhere
if (regbbox.empty()) {
CCTK_WARN (0, "Internal error: region extent is empty");
}
if (not regbbox.expanded_for(srcbbox).is_contained_in(srcbbox) or
not regbbox.is_contained_in(dstbbox))
{
cerr << "srcbbox: " << srcbbox << endl
<< "dstbbox: " << dstbbox << endl
<< "regbbox: " << regbbox << endl;
CCTK_WARN (0, "Internal error: region extent is not contained in array extent");
}
ivect3 const regext = regbbox.shape() / regbbox.stride();
assert (all (srcbbox.stride() % 2 == 0));
assert (all ((regbbox.lower() - srcbbox.lower() - srcbbox.stride() / 2) %
srcbbox.stride() == 0));
ivect3 const srcoff =
(regbbox.lower() - srcbbox.lower() - srcbbox.stride() / 2) /
srcbbox.stride();
assert (all ((regbbox.lower() - dstbbox.lower()) % dstbbox.stride() == 0));
ivect3 const dstoff =
(regbbox.lower() - dstbbox.lower()) / dstbbox.stride();
int const srcipadext = srcpadext[0];
int const srcjpadext = srcpadext[1];
int const srckpadext = srcpadext[2];
int const dstipadext = dstpadext[0];
int const dstjpadext = dstpadext[1];
int const dstkpadext = dstpadext[2];
int const srciext = srcext[0];
int const srcjext = srcext[1];
int const srckext = srcext[2];
int const dstiext = dstext[0];
int const dstjext = dstext[1];
int const dstkext = dstext[2];
int const regiext = regext[0];
int const regjext = regext[1];
int const regkext = regext[2];
int const srcioff = srcoff[0];
int const srcjoff = srcoff[1];
int const srckoff = srcoff[2];
int const dstioff = dstoff[0];
int const dstjoff = dstoff[1];
int const dstkoff = dstoff[2];
RT const one = 1;
RT const f1 = one/2;
RT const f2 = one/2;
if (not use_loopcontrol_in_operators) {
// Loop over coarse region
#pragma omp parallel for collapse(3)
for (int k=0; k<regkext; ++k) {
for (int j=0; j<regjext; ++j) {
for (int i=0; i<regiext; ++i) {
// TODO: Introduce higher-order restriction operators (but
// don't use these for hydro!)
dst [DSTIND3(i, j, k)] =
+ f1*f1*f1 * src [SRCIND3(2*i , 2*j , 2*k )]
+ f2*f1*f1 * src [SRCIND3(2*i+1, 2*j , 2*k )]
+ f1*f2*f1 * src [SRCIND3(2*i , 2*j+1, 2*k )]
+ f2*f2*f1 * src [SRCIND3(2*i+1, 2*j+1, 2*k )]
+ f1*f1*f2 * src [SRCIND3(2*i , 2*j , 2*k+1)]
+ f2*f1*f2 * src [SRCIND3(2*i+1, 2*j , 2*k+1)]
+ f1*f2*f2 * src [SRCIND3(2*i , 2*j+1, 2*k+1)]
+ f2*f2*f2 * src [SRCIND3(2*i+1, 2*j+1, 2*k+1)];
}
}
}
} else {
// Loop over coarse region
#pragma omp parallel
CCTK_LOOP3(restrict_3d_cc_rf2,
i,j,k, 0,0,0, regiext,regjext,regkext,
dstipadext,dstjpadext,dstkpadext)
{
// TODO: Introduce higher-order restriction operators (but
// don't use these for hydro!)
dst [DSTIND3(i, j, k)] =
+ f1*f1*f1 * src [SRCIND3(2*i , 2*j , 2*k )]
+ f2*f1*f1 * src [SRCIND3(2*i+1, 2*j , 2*k )]
+ f1*f2*f1 * src [SRCIND3(2*i , 2*j+1, 2*k )]
+ f2*f2*f1 * src [SRCIND3(2*i+1, 2*j+1, 2*k )]
+ f1*f1*f2 * src [SRCIND3(2*i , 2*j , 2*k+1)]
+ f2*f1*f2 * src [SRCIND3(2*i+1, 2*j , 2*k+1)]
+ f1*f2*f2 * src [SRCIND3(2*i , 2*j+1, 2*k+1)]
+ f2*f2*f2 * src [SRCIND3(2*i+1, 2*j+1, 2*k+1)];
} CCTK_ENDLOOP3(restrict_3d_cc_rf2);
}
}
#define TYPECASE(N,T) \
template \
void \
restrict_3d_cc_rf2 (T const * restrict const src, \
ivect3 const & restrict srcpadext, \
ivect3 const & restrict srcext, \
T * restrict const dst, \
ivect3 const & restrict dstpadext, \
ivect3 const & restrict dstext, \
ibbox3 const & restrict srcbbox, \
ibbox3 const & restrict dstbbox, \
ibbox3 const & restrict, \
ibbox3 const & restrict regbbox, \
void * extraargs);
#include "typecase.hh"
#undef TYPECASE
} // namespace CarpetLib
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