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#include <cassert>
#include <cstdlib>
#include "cctk.h"
#include "ggf.hh"
#include "gh.hh"
#include "carpet.hh"
namespace Carpet {
using namespace std;
void CycleTimeLevels (const cGH* cgh)
{
Checkpoint ("CycleTimeLevels");
assert (is_level_mode());
for (int group=0; group<CCTK_NumGroups(); ++group) {
if (CCTK_QueryGroupStorageI(cgh, group)) {
switch (CCTK_GroupTypeI(group)) {
case CCTK_GF:
assert (reflevel>=0 and reflevel<reflevels);
for (int m=0; m<(int)arrdata.at(group).size(); ++m) {
for (int var=0; var<CCTK_NumVarsInGroupI(group); ++var) {
arrdata.at(group).at(m).data.at(var)->
cycle_all (reflevel, mglevel);
}
}
break;
case CCTK_SCALAR:
case CCTK_ARRAY:
if (do_global_mode) {
int const numtimelevels = CCTK_NumTimeLevelsI (group);
int const firstvarindex = CCTK_FirstVarIndexI (group);
for (int var=0; var<CCTK_NumVarsInGroupI(group); ++var) {
arrdata.at(group).at(0).data.at(var)->cycle_all (0, mglevel);
{
int const varindex = firstvarindex + var;
int const c = CCTK_MyProc(cgh);
for (int tl=0; tl<numtimelevels; ++tl) {
cgh->data[varindex][tl]
= (tl < groupdata.at(group).info.activetimelevels
? ((*arrdata.at(group).at(0).data.at(var))
(tl, 0, c, 0)->storage())
: NULL);
}
}
}
}
break;
default:
assert (0);
} // switch grouptype
} // if storage
} // for group
}
void FlipTimeLevels (const cGH* cgh)
{
Checkpoint ("FlipTimeLevels");
assert (is_level_mode());
for (int group=0; group<CCTK_NumGroups(); ++group) {
if (CCTK_QueryGroupStorageI(cgh, group)) {
switch (CCTK_GroupTypeI(group)) {
case CCTK_GF:
assert (reflevel>=0 and reflevel<reflevels);
for (int m=0; m<(int)arrdata.at(group).size(); ++m) {
for (int var=0; var<CCTK_NumVarsInGroupI(group); ++var) {
arrdata.at(group).at(m).data.at(var)->
flip_all (reflevel, mglevel);
}
}
break;
case CCTK_SCALAR:
case CCTK_ARRAY:
if (do_global_mode) {
int const numtimelevels = CCTK_NumTimeLevelsI (group);
int const firstvarindex = CCTK_FirstVarIndexI (group);
for (int var=0; var<CCTK_NumVarsInGroupI(group); ++var) {
arrdata.at(group).at(0).data.at(var)->flip_all (0, mglevel);
{
int const varindex = firstvarindex + var;
int const c = CCTK_MyProc(cgh);
for (int tl=0; tl<numtimelevels; ++tl) {
cgh->data[varindex][tl]
= (tl < groupdata.at(group).info.activetimelevels
? ((*arrdata.at(group).at(0).data.at(var))
(tl, 0, c, 0)->storage())
: NULL);
}
}
}
}
break;
default:
assert (0);
} // switch grouptype
} // if storage
} // for group
}
void FillTimeLevels (const cGH* cgh)
{
Checkpoint ("FillTimeLevels");
assert (is_level_mode());
for (int group=0; group<CCTK_NumGroups(); ++group) {
if (CCTK_QueryGroupStorageI(cgh, group)) {
switch (CCTK_GroupTypeI(group)) {
case CCTK_GF:
assert (reflevel>=0 and reflevel<reflevels);
for (int m=0; m<(int)arrdata.at(group).size(); ++m) {
for (int var=0; var<CCTK_NumVarsInGroupI(group); ++var) {
arrdata.at(group).at(m).data.at(var)->
fill_all (reflevel, mglevel);
}
}
break;
case CCTK_SCALAR:
case CCTK_ARRAY:
if (do_global_mode) {
for (int var=0; var<CCTK_NumVarsInGroupI(group); ++var) {
arrdata.at(group).at(0).data.at(var)->fill_all (0, mglevel);
}
}
break;
default:
assert (0);
} // switch grouptype
} // if storage
} // for group
}
} // namespace Carpet
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