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vamr_refinement_criteria.cpp
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vamr_refinement_criteria.cpp
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/*
* This file is part of Vlasiator.
* Copyright 2010-2016 Finnish Meteorological Institute
*
* For details of usage, see the COPYING file and read the "Rules of the Road"
* at http://www.physics.helsinki.fi/vlasiator/
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include <cstdlib>
#include <cmath>
#include "parameters.h"
#include "vamr_refinement_criteria.h"
#include "velocity_blocks.h"
#include "object_wrapper.h"
using namespace std;
namespace vamr_ref_criteria {
Base::Base() { }
Base::~Base() { }
Base* relDiffMaker() {return new RelativeDifference;}
void Base::evaluate(const Realf* velBlost,Realf* result,const uint popID) {
for (uint i=0; i<WID3; ++i) result[i] = 0.0;
}
RelativeDifference::RelativeDifference() { }
RelativeDifference::~RelativeDifference() { }
Realf RelativeDifference::evaluate(const Realf* array,const uint popID) {
// How many neighbor data points (per coordinate) the given block includes?
const int PAD=1;
Realf maxvalue = 0.0;
for (uint kc=0; kc<WID; ++kc) for (uint jc=0; jc<WID; ++jc) for (uint ic=0; ic<WID; ++ic) {
Realf f_cen = array[vblock::padIndex<PAD>(ic+1,jc+1,kc+1)];
#ifdef VAMR
#warning SpatialCell::getVelocityBlockMinValue() or dynamic algorithm not available without spatial cell data
#endif
if (fabs(f_cen) < getObjectWrapper().particleSpecies[popID].sparseMinValue) continue;
Realf f_lft = array[vblock::padIndex<PAD>(ic ,jc+1,kc+1)];
Realf f_rgt = array[vblock::padIndex<PAD>(ic+2,jc+1,kc+1)];
Realf df = evaluate(f_lft,f_cen,f_rgt);
if (df > maxvalue) maxvalue = df;
f_lft = array[vblock::padIndex<PAD>(ic+1,jc ,kc+1)];
f_rgt = array[vblock::padIndex<PAD>(ic+1,jc+2,kc+1)];
df = evaluate(f_lft,f_cen,f_rgt);
if (df > maxvalue) maxvalue = df;
//f_lft = array[vblock::padIndex<PAD>(ic+1,jc+1,kc )];
//f_rgt = array[vblock::padIndex<PAD>(ic+1,jc+1,kc+2)];
//df = evaluate(f_lft,f_cen,f_rgt);
//if (df > maxvalue) maxvalue = df;
}
return maxvalue;
}
void RelativeDifference::evaluate(const Realf* array,Realf* result,const uint popID) {
const int PAD=1;
for (uint kc=0; kc<WID; ++kc) for (uint jc=0; jc<WID; ++jc) for (uint ic=0; ic<WID; ++ic) {
Realf f_cen = array[vblock::padIndex<PAD>(ic+1,jc+1,kc+1)];
#ifdef VAMR
#warning SpatialCell::getVelocityBlockMinValue() or dynamic algorithm not available without spatial cell data
#endif
if (fabs(f_cen) < getObjectWrapper().particleSpecies[popID].sparseMinValue) {
result[vblock::index(ic,jc,kc)] = 0;
continue;
}
Realf f_lft = array[vblock::padIndex<PAD>(ic ,jc+1,kc+1)];
Realf f_rgt = array[vblock::padIndex<PAD>(ic+2,jc+1,kc+1)];
Realf df = evaluate(f_lft,f_cen,f_rgt);
f_lft = array[vblock::padIndex<PAD>(ic+1,jc ,kc+1)];
f_rgt = array[vblock::padIndex<PAD>(ic+1,jc+2,kc+1)];
df = max(df,evaluate(f_lft,f_cen,f_rgt));
//f_lft = array[vblock::padIndex<PAD>(ic+1,jc+1,kc )];
//f_rgt = array[vblock::padIndex<PAD>(ic+1,jc+1,kc+2)];
//df = max(df,evaluate(f_lft,f_cen,f_rgt));
result[vblock::index(ic,jc,kc)] = df;
}
}
Realf RelativeDifference::evaluate(const Realf& f_lft,const Realf& f_cen,const Realf& f_rgt) {
Realf df = max(fabs(f_rgt-f_cen),fabs(f_cen-f_lft));
df = df / ((f_cen + 1e-30)*df_max);
return df;
}
bool RelativeDifference::initialize(const std::string& configRegion) {
//df_max = 8.0;
df_max = 1.0;
return true;
}
void addRefinementCriteria() {
getObjectWrapper().vamrVelRefCriteria.add("relative_difference",relDiffMaker);
}
}