/usr/include/palabos/multiGrid/gridConversion3D.h is in libplb-dev 1.5~r1+repack1-3.
This file is owned by root:root, with mode 0o644.
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*
* Copyright (C) 2011-2015 FlowKit Sarl
* Route d'Oron 2
* 1010 Lausanne, Switzerland
* E-mail contact: contact@flowkit.com
*
* The most recent release of Palabos can be downloaded at
* <http://www.palabos.org/>
*
* The library Palabos is free software: you can redistribute it and/or
* modify it under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation, either version 3 of the
* License, or (at your option) any later version.
*
* The library 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 Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef GRID_CONVERSION_3D_H
#define GRID_CONVERSION_3D_H
#include "core/globalDefs.h"
#include "atomicBlock/dataProcessingFunctional3D.h"
#include "atomicBlock/dataProcessorWrapper3D.h"
#include "multiBlock/multiDataProcessorWrapper3D.h"
#include "particles/multiParticleField3D.h"
#include "core/util.h"
#include "core/dynamics.h"
namespace plb {
Box3D scaleBox(Box3D box, plint nLevel);
/// Copy data from a fine to a coarse ScalarField3D.
template<typename T>
class ScalarCopyFineToCoarseZerothOrder3D : public BoxProcessingFunctional3D_SS<T,T>
{
public:
ScalarCopyFineToCoarseZerothOrder3D(plint dimDx_, plint dimDt_, plint dxScale_, plint dtScale_);
ScalarCopyFineToCoarseZerothOrder3D(ScalarCopyFineToCoarseZerothOrder3D<T> const& rhs);
ScalarCopyFineToCoarseZerothOrder3D<T>& operator= (
ScalarCopyFineToCoarseZerothOrder3D<T> const& rhs );
virtual void process( Box3D fineDomain,
ScalarField3D<T>& fineField, ScalarField3D<T>& coarseField );
virtual ScalarCopyFineToCoarseZerothOrder3D<T>* clone() const;
virtual BlockDomain::DomainT appliesTo() const {
return BlockDomain::bulk;
}
virtual void getTypeOfModification(std::vector<modif::ModifT>& modified) const {
modified[0] = modif::nothing;
modified[1] = modif::staticVariables;
}
private:
plint dimDx, dimDt;
plint dxScale, dtScale;
};
/// Copy data from a fine to a coarse TensorField3D.
template<typename T, int nDim>
class TensorCopyFineToCoarseZerothOrder3D : public BoxProcessingFunctional3D_TT<T,nDim,T,nDim>
{
public:
TensorCopyFineToCoarseZerothOrder3D(plint dimDx_, plint dimDt_, plint dxScale_, plint dtScale_);
TensorCopyFineToCoarseZerothOrder3D(TensorCopyFineToCoarseZerothOrder3D<T,nDim> const& rhs);
TensorCopyFineToCoarseZerothOrder3D<T,nDim>& operator= (
TensorCopyFineToCoarseZerothOrder3D<T,nDim> const& rhs );
virtual void process( Box3D fineDomain,
TensorField3D<T,nDim>& fineField, TensorField3D<T,nDim>& coarseField );
virtual TensorCopyFineToCoarseZerothOrder3D<T,nDim>* clone() const;
virtual BlockDomain::DomainT appliesTo() const {
return BlockDomain::bulk;
}
virtual void getTypeOfModification(std::vector<modif::ModifT>& modified) const {
modified[0] = modif::nothing;
modified[1] = modif::staticVariables;
}
private:
plint dimDx, dimDt;
plint dxScale, dtScale;
};
/// Copy data from a fine to a coarse ScalarField3D.
template<typename T, template<typename U> class Descriptor>
class LatticeCopyFineToCoarseZerothOrder3D : public BoxProcessingFunctional3D_LL<T,Descriptor,T,Descriptor>
{
public:
LatticeCopyFineToCoarseZerothOrder3D(plint dxScale_, plint dtScale_);
LatticeCopyFineToCoarseZerothOrder3D(LatticeCopyFineToCoarseZerothOrder3D<T,Descriptor> const& rhs);
LatticeCopyFineToCoarseZerothOrder3D<T,Descriptor>& operator= (
LatticeCopyFineToCoarseZerothOrder3D<T,Descriptor> const& rhs );
virtual void process( Box3D fineDomain,
BlockLattice3D<T,Descriptor>& fineLattice,
BlockLattice3D<T,Descriptor>& coarseLattice );
virtual LatticeCopyFineToCoarseZerothOrder3D<T,Descriptor>* clone() const;
virtual BlockDomain::DomainT appliesTo() const {
return BlockDomain::bulk;
}
virtual void getTypeOfModification(std::vector<modif::ModifT>& modified) const {
modified[0] = modif::nothing;
modified[1] = modif::staticVariables;
}
private:
plint dxScale, dtScale;
};
/// Copy data from a fine to a coarse ScalarField3D.
template<typename T, template<typename U> class Descriptor>
class LatticeCopyFineToCoarseNoScale3D : public BoxProcessingFunctional3D_LL<T,Descriptor,T,Descriptor>
{
public:
LatticeCopyFineToCoarseNoScale3D(plint dxScale_);
LatticeCopyFineToCoarseNoScale3D(LatticeCopyFineToCoarseNoScale3D<T,Descriptor> const& rhs);
LatticeCopyFineToCoarseNoScale3D<T,Descriptor>& operator= (
LatticeCopyFineToCoarseNoScale3D<T,Descriptor> const& rhs );
virtual void process( Box3D fineDomain,
BlockLattice3D<T,Descriptor>& fineLattice,
BlockLattice3D<T,Descriptor>& coarseLattice );
virtual LatticeCopyFineToCoarseNoScale3D<T,Descriptor>* clone() const;
virtual BlockDomain::DomainT appliesTo() const {
return BlockDomain::bulk;
}
virtual void getTypeOfModification(std::vector<modif::ModifT>& modified) const {
modified[0] = modif::nothing;
modified[1] = modif::staticVariables;
}
private:
plint dxScale;
};
/// Copy particles from a fine to a coarse field.
template<typename T, template<typename U> class Descriptor>
class CopyRescaleParticles3D : public BoxProcessingFunctional3D
{
public:
CopyRescaleParticles3D(plint dxScale_, plint dtScale_);
virtual void processGenericBlocks (
Box3D fineDomain, std::vector<AtomicBlock3D*> blocks );
virtual CopyRescaleParticles3D<T,Descriptor>* clone() const;
virtual BlockDomain::DomainT appliesTo() const {
return BlockDomain::bulk;
}
virtual void getTypeOfModification(std::vector<modif::ModifT>& modified) const {
modified[0] = modif::nothing;
modified[1] = modif::staticVariables;
}
private:
plint dxScale, dtScale;
};
/// Copy data from a coarse to a fine ScalarField3D, using bilinear interpolation.
template<typename T>
class ScalarInterpolateCoarseToFine3D : public BoxProcessingFunctional3D_SS<T,T>
{
public:
ScalarInterpolateCoarseToFine3D(plint dimDx_, plint dimDt_, plint dxScale_, plint dtScale_);
ScalarInterpolateCoarseToFine3D(
ScalarInterpolateCoarseToFine3D<T> const& rhs);
ScalarInterpolateCoarseToFine3D<T>& operator= (
ScalarInterpolateCoarseToFine3D<T> const& rhs );
virtual void process( Box3D coarseDomain,
ScalarField3D<T>& coarseField,
ScalarField3D<T>& fineField );
virtual ScalarInterpolateCoarseToFine3D<T>* clone() const;
virtual BlockDomain::DomainT appliesTo() const {
return BlockDomain::bulk;
}
virtual void getTypeOfModification(std::vector<modif::ModifT>& modified) const {
modified[0] = modif::nothing;
modified[1] = modif::staticVariables;
}
private:
plint dimDx, dimDt;
plint dxScale, dtScale;
};
/// Copy data from a coarse to a fine TensorField3D, using bilinear interpolation.
template<typename T, int nDim>
class TensorInterpolateCoarseToFine3D : public BoxProcessingFunctional3D_TT<T,nDim,T,nDim>
{
public:
TensorInterpolateCoarseToFine3D(plint dimDx_, plint dimDt_, plint dxScale_, plint dtScale_);
TensorInterpolateCoarseToFine3D(
TensorInterpolateCoarseToFine3D<T,nDim> const& rhs);
TensorInterpolateCoarseToFine3D<T,nDim>& operator= (
TensorInterpolateCoarseToFine3D<T,nDim> const& rhs );
virtual void process( Box3D coarseDomain,
TensorField3D<T,nDim>& coarseField,
TensorField3D<T,nDim>& fineField );
virtual TensorInterpolateCoarseToFine3D<T,nDim>* clone() const;
virtual BlockDomain::DomainT appliesTo() const {
return BlockDomain::bulk;
}
virtual void getTypeOfModification(std::vector<modif::ModifT>& modified) const {
modified[0] = modif::nothing;
modified[1] = modif::staticVariables;
}
private:
plint dimDx, dimDt;
plint dxScale, dtScale;
};
/// Copy data from a coarse to a fine BlockLattice, using bilinear interpolation.
template<typename T, template<typename U> class Descriptor>
class LatticeInterpolateCoarseToFine3D : public BoxProcessingFunctional3D_LL<T,Descriptor,T,Descriptor>
{
public:
LatticeInterpolateCoarseToFine3D(plint dxScale_, plint dtScale_);
LatticeInterpolateCoarseToFine3D (
LatticeInterpolateCoarseToFine3D<T,Descriptor> const& rhs );
LatticeInterpolateCoarseToFine3D<T,Descriptor>& operator= (
LatticeInterpolateCoarseToFine3D<T,Descriptor> const& rhs );
virtual void process( Box3D coarseDomain,
BlockLattice3D<T,Descriptor>& coarseLattice,
BlockLattice3D<T,Descriptor>& fineLattice );
virtual LatticeInterpolateCoarseToFine3D<T,Descriptor>* clone() const;
virtual BlockDomain::DomainT appliesTo() const {
return BlockDomain::bulk;
}
virtual void getTypeOfModification(std::vector<modif::ModifT>& modified) const {
modified[0] = modif::nothing;
modified[1] = modif::staticVariables;
}
private:
plint dxScale, dtScale;
};
/// Copy data from a coarse to a fine BlockLattice, using bilinear interpolation.
template<typename T, template<typename U> class Descriptor>
class LatticeLinearInterpolateCoarseToFine3D : public BoxProcessingFunctional3D_LL<T,Descriptor,T,Descriptor>
{
public:
LatticeLinearInterpolateCoarseToFine3D(plint dxScale_, plint dtScale_);
LatticeLinearInterpolateCoarseToFine3D (
LatticeLinearInterpolateCoarseToFine3D<T,Descriptor> const& rhs );
LatticeLinearInterpolateCoarseToFine3D<T,Descriptor>& operator= (
LatticeLinearInterpolateCoarseToFine3D<T,Descriptor> const& rhs );
virtual void process( Box3D coarseDomain,
BlockLattice3D<T,Descriptor>& coarseLattice,
BlockLattice3D<T,Descriptor>& fineLattice );
virtual LatticeLinearInterpolateCoarseToFine3D<T,Descriptor>* clone() const;
virtual BlockDomain::DomainT appliesTo() const {
return BlockDomain::bulk;
}
virtual void getTypeOfModification(std::vector<modif::ModifT>& modified) const {
modified[0] = modif::nothing;
modified[1] = modif::staticVariables;
}
private:
plint dxScale, dtScale;
};
template <typename T>
std::auto_ptr<MultiScalarField3D<T> > coarsen (
MultiScalarField3D<T>& fineField,
plint dimDx, plint dimDt, plint dxScale, plint dtScale );
template <typename T>
std::auto_ptr<MultiScalarField3D<T> > refine (
MultiScalarField3D<T>& coarseField,
plint dimDx, plint dimDt, plint dxScale, plint dtScale );
template <typename T, int nDim>
std::auto_ptr<MultiTensorField3D<T,nDim> > coarsen (
MultiTensorField3D<T,nDim>& fineField,
plint dimDx, plint dimDt, plint dxScale, plint dtScale );
template <typename T, int nDim>
std::auto_ptr<MultiTensorField3D<T,nDim> > refine (
MultiTensorField3D<T,nDim>& coarseField,
plint dimDx, plint dimDt, plint dxScale, plint dtScale );
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiBlockLattice3D<T,Descriptor> > coarsen (
MultiBlockLattice3D<T,Descriptor>& fineLattice,
plint dxScale, plint dtScale, Dynamics<T,Descriptor>* backgroundDynamics );
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiBlockLattice3D<T,Descriptor> > coarsenNoScale (
MultiBlockLattice3D<T,Descriptor>& fineLattice, plint dxScale, Dynamics<T,Descriptor>* backgroundDynamics );
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiBlockLattice3D<T,Descriptor> > refine (
MultiBlockLattice3D<T,Descriptor>& coarseLattice,
plint dxScale, plint dtScale, Dynamics<T,Descriptor>* backgroundDynamics );
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiParticleField3D<DenseParticleField3D<T,Descriptor> > > refine (
MultiParticleField3D<DenseParticleField3D<T,Descriptor> >& coarseField,
plint dxScale, plint dtScale );
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiParticleField3D<DenseParticleField3D<T,Descriptor> > > coarsen (
MultiParticleField3D<DenseParticleField3D<T,Descriptor> >& fineField,
plint dxScale, plint dtScale );
} // namespace plb
#endif // GRID_CONVERSION_3D_H
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