// -*- mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
// vi: set et ts=4 sw=4 sts=4:
/*
This file is part of the Open Porous Media project (OPM).
OPM 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.
OPM 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 OPM. If not, see .
Consult the COPYING file in the top-level source directory of this
module for the precise wording of the license and the list of
copyright holders.
*/
/*!
* \file
* \copydoc Ewoms::EclCpGridManager
*/
#ifndef EWOMS_ECL_CP_GRID_MANAGER_HH
#define EWOMS_ECL_CP_GRID_MANAGER_HH
#include "eclbasegridmanager.hh"
#include "ecltransmissibility.hh"
#include
#include
namespace Ewoms {
template
class EclCpGridManager;
namespace Properties {
NEW_TYPE_TAG(EclCpGridManager, INHERITS_FROM(EclBaseGridManager));
NEW_PROP_TAG(ExportGlobalTransmissibility);
// declare the properties
SET_TYPE_PROP(EclCpGridManager, GridManager, Ewoms::EclCpGridManager);
SET_TYPE_PROP(EclCpGridManager, Grid, Dune::CpGrid);
SET_TYPE_PROP(EclCpGridManager, EquilGrid, typename GET_PROP_TYPE(TypeTag, Grid));
SET_BOOL_PROP(EclCpGridManager, ExportGlobalTransmissibility, false);
} // namespace Properties
/*!
* \ingroup EclBlackOilSimulator
*
* \brief Helper class for grid instantiation of ECL file-format using problems.
*
* This class uses Dune::CpGrid as the simulation grid.
*/
template
class EclCpGridManager : public EclBaseGridManager
{
friend class EclBaseGridManager;
typedef EclBaseGridManager ParentType;
typedef typename GET_PROP_TYPE(TypeTag, Scalar) Scalar;
typedef typename GET_PROP_TYPE(TypeTag, Simulator) Simulator;
typedef typename GET_PROP_TYPE(TypeTag, ElementMapper) ElementMapper;
public:
typedef typename GET_PROP_TYPE(TypeTag, Grid) Grid;
typedef typename GET_PROP_TYPE(TypeTag, EquilGrid) EquilGrid;
typedef typename GET_PROP_TYPE(TypeTag, GridView) GridView;
private:
typedef Dune::CartesianIndexMapper CartesianIndexMapper;
public:
/*!
* \brief Inherit the constructors from the base class.
*/
using EclBaseGridManager::EclBaseGridManager;
~EclCpGridManager()
{
delete cartesianIndexMapper_;
delete equilCartesianIndexMapper_;
delete grid_;
delete equilGrid_;
delete globalTrans_;
}
/*!
* \brief Return a reference to the simulation grid.
*/
Grid& grid()
{ return *grid_; }
/*!
* \brief Return a reference to the simulation grid.
*/
const Grid& grid() const
{ return *grid_; }
/*!
* \brief Returns a refefence to the grid which should be used by the EQUIL
* initialization code.
*
* The EQUIL keyword is used to specify the initial condition of the reservoir in
* hydrostatic equilibrium. Since the code which does this is not accepting arbitrary
* DUNE grids (the code is part of the opm-core module), this is not necessarily the
* same as the grid which is used for the actual simulation.
*/
const EquilGrid& equilGrid() const
{ return *equilGrid_; }
/*!
* \brief Indicates that the initial condition has been computed and the memory used
* by the EQUIL grid can be released.
*
* Depending on the implementation, subsequent accesses to the EQUIL grid lead to
* crashes.
*/
void releaseEquilGrid()
{
delete equilGrid_;
equilGrid_ = 0;
delete equilCartesianIndexMapper_;
equilCartesianIndexMapper_ = 0;
}
/*!
* \brief Distribute the simulation grid over multiple processes
*
* (For parallel simulation runs.)
*/
void loadBalance()
{
#if HAVE_MPI
int mpiRank = 0;
int mpiSize = 1;
MPI_Comm_rank(MPI_COMM_WORLD, &mpiRank);
MPI_Comm_size(MPI_COMM_WORLD, &mpiSize);
if (mpiSize > 1) {
// the CpGrid's loadBalance() method likes to have the transmissibilities as
// its edge weights. since this is (kind of) a layering violation and
// transmissibilities are relatively expensive to compute, we only do it if
// more than a single process is involved in the simulation.
cartesianIndexMapper_ = new CartesianIndexMapper(*grid_);
globalTrans_ = new EclTransmissibility(*this);
globalTrans_->update();
// convert to transmissibility for faces
// TODO: grid_->numFaces() is not generic. use grid_->size(1) instead? (might
// not work)
const auto& gridView = grid_->leafGridView();
unsigned numFaces = grid_->numFaces();
std::vector faceTrans(numFaces, 0.0);
ElementMapper elemMapper(this->gridView());
auto elemIt = gridView.template begin();
const auto& elemEndIt = gridView.template end();
for (; elemIt != elemEndIt; ++ elemIt) {
const auto& elem = *elemIt;
auto isIt = gridView.ibegin(elem);
const auto& isEndIt = gridView.iend(elem);
for (; isIt != isEndIt; ++ isIt) {
const auto& is = *isIt;
if (!is.neighbor())
continue;
#if DUNE_VERSION_NEWER(DUNE_COMMON, 2,4)
unsigned I = elemMapper.index(is.inside());
unsigned J = elemMapper.index(is.outside());
#else
unsigned I = elemMapper.map(is.inside());
unsigned J = elemMapper.map(is.outside());
#endif
// FIXME (?): this is not portable!
unsigned faceIdx = is.id();
faceTrans[faceIdx] = globalTrans_->transmissibility(I, J);
}
}
//distribute the grid and switch to the distributed view.
defunctWellNames_ = std::get<1>(grid_->loadBalance(&this->eclState(), faceTrans.data()));
grid_->switchToDistributedView();
delete cartesianIndexMapper_;
cartesianIndexMapper_ = nullptr;
if (!GET_PROP_VALUE(TypeTag, ExportGlobalTransmissibility)) {
delete globalTrans_;
globalTrans_ = nullptr;
}
}
#endif
cartesianIndexMapper_ = new CartesianIndexMapper(*grid_);
}
/*!
* \brief Returns the object which maps a global element index of the simulation grid
* to the corresponding element index of the logically Cartesian index.
*/
const CartesianIndexMapper& cartesianIndexMapper() const
{ return *cartesianIndexMapper_; }
/*!
* \brief Returns mapper from compressed to cartesian indices for the EQUIL grid
*/
const CartesianIndexMapper& equilCartesianIndexMapper() const
{ return *equilCartesianIndexMapper_; }
std::unordered_set defunctWellNames() const
{ return defunctWellNames_; }
const EclTransmissibility& globalTransmissibility() const
{ return *globalTrans_; }
void releaseGlobalTransmissibility()
{
delete globalTrans_;
globalTrans_ = nullptr;
}
protected:
void createGrids_()
{
const auto& gridProps = this->eclState().get3DProperties();
const std::vector& porv = gridProps.getDoubleGridProperty("PORV").getData();
grid_ = new Dune::CpGrid();
grid_->processEclipseFormat(this->eclState().getInputGrid(),
/*isPeriodic=*/false,
/*flipNormals=*/false,
/*clipZ=*/false,
porv);
// we use separate grid objects: one for the calculation of the initial condition
// via EQUIL and one for the actual simulation. The reason is that the EQUIL code
// is allergic to distributed grids and the simulation grid is distributed before
// the initial condition is calculated.
// After loadbalance grid_ will contain a global and distribute view.
// equilGrid_being a shallow copy only the global view.
equilGrid_ = new Dune::CpGrid(*grid_);
equilCartesianIndexMapper_ = new CartesianIndexMapper(*equilGrid_);
}
Grid* grid_;
EquilGrid* equilGrid_;
CartesianIndexMapper* cartesianIndexMapper_;
CartesianIndexMapper* equilCartesianIndexMapper_;
EclTransmissibility* globalTrans_;
std::unordered_set defunctWellNames_;
};
} // namespace Ewoms
#endif