/usr/include/palabos/particles/multiParticleField3D.hh

/* This file is part of the Palabos library.
 *
 * 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 MULTI_PARTICLE_FIELD_3D_HH
#define MULTI_PARTICLE_FIELD_3D_HH

#include "core/globalDefs.h"
#include "particles/multiParticleField3D.h"
#include "particles/particleNonLocalTransfer3D.h"
#include <memory>

namespace plb {

template<class ParticleFieldT>
std::auto_ptr<MultiParticleField3D<ParticleFieldT> >
    defaultGenerateParticleField3D(MultiBlockManagement3D const& management, plint nDim)
{
    return std::auto_ptr<MultiParticleField3D<ParticleFieldT> > (
               new MultiParticleField3D<ParticleFieldT> (
                       management,
                       defaultMultiBlockPolicy3D().getCombinedStatistics() ) );
}

template<class ParticleFieldT>
const int MultiParticleField3D<ParticleFieldT>::staticId =
meta::registerMultiBlock3D ( MultiParticleField3D<ParticleFieldT>::basicType(),
                             MultiParticleField3D<ParticleFieldT>::descriptorType(),
                             MultiParticleField3D<ParticleFieldT>::blockName(),
                             defaultGenerateParticleField3D<ParticleFieldT> );

template<class ParticleFieldT>
MultiParticleField3D<ParticleFieldT>::MultiParticleField3D (
        MultiBlockManagement3D const& multiBlockManagement_,
        CombinedStatistics* combinedStatistics_ )

    : MultiBlock3D(multiBlockManagement_,
                   defaultMultiBlockPolicy3D().getBlockCommunicator(),
                   combinedStatistics_)
{
    allocateBlocks();
}

template<class ParticleFieldT>
MultiParticleField3D<ParticleFieldT>::~MultiParticleField3D() {
    deAllocateBlocks();
}

template<class ParticleFieldT>
MultiParticleField3D<ParticleFieldT>::MultiParticleField3D(plint nx_, plint ny_, plint nz_)
    : MultiBlock3D (
            // Default envelope-width to 1
            defaultMultiBlockPolicy3D().getMultiBlockManagement(nx_,ny_,nz_, 1),
            defaultMultiBlockPolicy3D().getBlockCommunicator(),
            defaultMultiBlockPolicy3D().getCombinedStatistics() )
{
    allocateBlocks();
}

template<class ParticleFieldT>
MultiParticleField3D<ParticleFieldT>::MultiParticleField3D(MultiBlock3D const& rhs)
    : MultiBlock3D(rhs)
{
    allocateBlocks();
}

template<class ParticleFieldT>
MultiParticleField3D<ParticleFieldT>::MultiParticleField3D(MultiBlock3D const& rhs, Box3D subDomain, bool crop)
    : MultiBlock3D (
            intersect(rhs.getMultiBlockManagement(), subDomain, crop),
            rhs.getBlockCommunicator().clone(),
            rhs.getCombinedStatistics().clone() )
{
    allocateBlocks();
}

template<class ParticleFieldT>
MultiParticleField3D<ParticleFieldT>::MultiParticleField3D(MultiParticleField3D<ParticleFieldT> const& rhs)
    : MultiBlock3D(rhs)
{
    allocateBlocks();
}

template<class ParticleFieldT>
MultiParticleField3D<ParticleFieldT>& MultiParticleField3D<ParticleFieldT>::operator= (
        MultiParticleField3D<ParticleFieldT> const& rhs )
{
    MultiParticleField3D<ParticleFieldT> tmp(rhs);
    swap(tmp);
    return *this;
}

template<class ParticleFieldT>
void MultiParticleField3D<ParticleFieldT>::swap(MultiParticleField3D<ParticleFieldT>& rhs) {
    blocks.swap(rhs.blocks);
    MultiBlock3D::swap(rhs);
}

template<class ParticleFieldT>
MultiParticleField3D<ParticleFieldT>* MultiParticleField3D<ParticleFieldT>::clone() const {
    return new MultiParticleField3D<ParticleFieldT>(*this);
}

template<class ParticleFieldT>
MultiParticleField3D<ParticleFieldT>* MultiParticleField3D<ParticleFieldT>::clone (
        MultiBlockManagement3D const& newManagement ) const
{
    MultiParticleField3D<ParticleFieldT>* newField =
        new MultiParticleField3D<ParticleFieldT> (
                newManagement,
                this->getCombinedStatistics().clone() );
    copy(*this, this->getBoundingBox(), *newField, newField->getBoundingBox());
    return newField;
}

template<class ParticleFieldT>
void MultiParticleField3D<ParticleFieldT>::allocateBlocks() 
{
    for (pluint iBlock=0; iBlock<this->getLocalInfo().getBlocks().size(); ++iBlock)
    {
        plint blockId = this->getLocalInfo().getBlocks()[iBlock];
        SmartBulk3D bulk(this->getMultiBlockManagement(), blockId);
        Box3D envelope = bulk.computeEnvelope();
        ParticleFieldT* newBlock =
            new ParticleFieldT (
                    envelope.getNx(), envelope.getNy(), envelope.getNz() );
        newBlock -> setLocation(Dot3D(envelope.x0, envelope.y0, envelope.z0));
        blocks[blockId] = newBlock;
    }
}

template<class ParticleFieldT>
void MultiParticleField3D<ParticleFieldT>::deAllocateBlocks() 
{
    for ( typename BlockMap::iterator it = blocks.begin();
          it != blocks.end(); ++it )
    {
        delete it->second;
    }
}

template<class ParticleFieldT>
ParticleFieldT& MultiParticleField3D<ParticleFieldT>::getComponent(plint blockId)
{
    typename BlockMap::iterator it = blocks.find(blockId);
    PLB_ASSERT (it != blocks.end());
    return *it->second;
}

template<class ParticleFieldT>
ParticleFieldT const& MultiParticleField3D<ParticleFieldT>::
    getComponent(plint blockId) const
{
    typename BlockMap::const_iterator it = blocks.find(blockId);
    PLB_ASSERT (it != blocks.end());
    return *it->second;
}

template<class ParticleFieldT>
plint MultiParticleField3D<ParticleFieldT>::sizeOfCell() const {
    /// Particles are dynamic objects and have no static cell size.
    return 0;
}

template<class ParticleFieldT>
plint MultiParticleField3D<ParticleFieldT>::getCellDim() const {
    /// Particles are dynamic objects and have no well-defined dimensionality.
    return 0;
}

template<class ParticleFieldT>
int MultiParticleField3D<ParticleFieldT>::getStaticId() const {
    return staticId;
}

template<class ParticleFieldT>
void MultiParticleField3D<ParticleFieldT>::copyReceive (
                MultiBlock3D const& fromBlock, Box3D const& fromDomain,
                Box3D const& toDomain, modif::ModifT whichData )
{
    MultiParticleField3D<ParticleFieldT> const* fromField =
        dynamic_cast<MultiParticleField3D<ParticleFieldT> const* >(&fromBlock);
    PLB_ASSERT( fromField );
    copy(*fromField, fromDomain, *this, toDomain);
}

template<class ParticleFieldT>
std::string MultiParticleField3D<ParticleFieldT>::getBlockName() const {
    return blockName();
}

template<class ParticleFieldT>
std::vector<std::string> MultiParticleField3D<ParticleFieldT>::getTypeInfo() const {
    std::vector<std::string> answer;
    answer.push_back( basicType() );
    answer.push_back( descriptorType() );
    return answer;
}

template<class ParticleFieldT>
std::string MultiParticleField3D<ParticleFieldT>::blockName() {
    return ParticleFieldT::getBlockName();
}

template<class ParticleFieldT>
std::string MultiParticleField3D<ParticleFieldT>::basicType() {
    return ParticleFieldT::basicType();
}

template<class ParticleFieldT>
std::string MultiParticleField3D<ParticleFieldT>::descriptorType() {
    return ParticleFieldT::descriptorType();
}

template<class ParticleFieldT>
MultiParticleField3D<ParticleFieldT>& findMultiParticleField3D(id_t id) {
    MultiBlock3D* multiBlock = multiBlockRegistration3D().find(id);
    if (!multiBlock || multiBlock->getStaticId() != MultiParticleField3D<ParticleFieldT>::staticId) {
        throw PlbLogicException("Trying to access a multi block lattice that is not registered.");
    }
    return (MultiParticleField3D<ParticleFieldT>&)(*multiBlock);
}

}  // namespace plb

#endif  // MULTI_PARTICLE_FIELD_3D_H
libplb-dev 1.5~r1+repack1-2build2 / usr / include / palabos / particles / multiParticleField3D.hh
