mirror of
https://github.com/OPM/opm-simulators.git
synced 2024-12-23 07:53:29 -06:00
c1c850538a
modeled after the linsolver support. a few built-in presets, as well as reading options from a json file
530 lines
20 KiB
C++
530 lines
20 KiB
C++
// -*- mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
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// vi: set et ts=4 sw=4 sts=4:
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/*
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This file is part of the Open Porous Media project (OPM).
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OPM is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 2 of the License, or
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(at your option) any later version.
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OPM is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with OPM. If not, see <http://www.gnu.org/licenses/>.
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Consult the COPYING file in the top-level source directory of this
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module for the precise wording of the license and the list of
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copyright holders.
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*/
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#include <config.h>
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#include <ebos/eclgenericcpgridvanguard.hh>
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#if HAVE_MPI
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#include <ebos/eclmpiserializer.hh>
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#endif
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#include <opm/simulators/utils/ParallelEclipseState.hpp>
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#include <opm/simulators/utils/ParallelSerialization.hpp>
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#include <opm/simulators/utils/PropsCentroidsDataHandle.hpp>
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#include <opm/simulators/utils/SetupZoltanParams.hpp>
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#include <opm/grid/cpgrid/GridHelpers.hpp>
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#include <opm/input/eclipse/Schedule/Schedule.hpp>
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#include <opm/input/eclipse/Schedule/Well/Well.hpp>
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#include <opm/common/utility/ActiveGridCells.hpp>
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#include <dune/grid/common/mcmgmapper.hh>
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#include <dune/grid/common/partitionset.hh>
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#include <dune/common/version.hh>
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#if HAVE_DUNE_FEM
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#include <dune/fem/gridpart/adaptiveleafgridpart.hh>
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#include <dune/fem/gridpart/common/gridpart2gridview.hh>
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#include <ebos/femcpgridcompat.hh>
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#endif //HAVE_DUNE_FEM
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#include <cassert>
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#include <numeric>
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#include <optional>
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#include <sstream>
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#include <stdexcept>
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#include <string>
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#include <tuple>
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#include <vector>
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#include <fmt/format.h>
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namespace Opm {
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std::optional<std::function<std::vector<int> (const Dune::CpGrid&)>> externalLoadBalancer;
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template<class ElementMapper, class GridView, class Scalar>
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EclGenericCpGridVanguard<ElementMapper,GridView,Scalar>::EclGenericCpGridVanguard()
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{
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this->mpiRank = 0;
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#if HAVE_MPI
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this->mpiRank = EclGenericVanguard::comm().rank();
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#endif // HAVE_MPI
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}
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template<class ElementMapper, class GridView, class Scalar>
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void EclGenericCpGridVanguard<ElementMapper,GridView,Scalar>::releaseEquilGrid()
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{
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this->equilGrid_.reset();
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this->equilCartesianIndexMapper_.reset();
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}
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#if HAVE_MPI
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template<class ElementMapper, class GridView, class Scalar>
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void EclGenericCpGridVanguard<ElementMapper, GridView, Scalar>::
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doLoadBalance_(const Dune::EdgeWeightMethod edgeWeightsMethod,
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const bool ownersFirst,
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const bool serialPartitioning,
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const bool enableDistributedWells,
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const double zoltanImbalanceTol,
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const GridView& gridView,
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const Schedule& schedule,
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std::vector<double>& centroids,
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EclipseState& eclState1,
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EclGenericVanguard::ParallelWellStruct& parallelWells,
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const int numJacobiBlocks)
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{
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if (!this->zoltanParams().empty())
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this->grid_->setZoltanParams(setupZoltanParams(this->zoltanParams()));
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const auto mpiSize = this->grid_->comm().size();
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const auto partitionJacobiBlocks =
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(numJacobiBlocks > 1) && (mpiSize == 1);
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if ((mpiSize > 1) || (numJacobiBlocks > 1)) {
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if (this->grid_->size(0) > 0) {
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// Generally needed in parallel runs both when there is and when
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// there is not an externally defined load-balancing function.
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// In addition to being used in CpGrid::loadBalance(), the
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// transmissibilities are also output to the .INIT file. Thus,
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// transmissiblity values must exist on the I/O rank for derived
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// classes such as EclCpGridVanguard<>.
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this->allocTrans();
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}
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// CpGrid's loadBalance() method uses transmissibilities as edge
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// weights. This is arguably a layering violation and extracting
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// the per-face transmissibilities as a linear array is relatively
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// expensive. We therefore extract transmissibility values only if
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// the values are actually needed.
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auto loadBalancerSet = static_cast<int>(externalLoadBalancer.has_value());
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this->grid_->comm().broadcast(&loadBalancerSet, 1, 0);
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const auto faceTrans = ((loadBalancerSet == 0) || partitionJacobiBlocks)
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? this->extractFaceTrans(gridView)
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: std::vector<double>{};
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const auto wells = ((mpiSize > 1) || partitionJacobiBlocks)
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? schedule.getWellsatEnd()
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: std::vector<Well>{};
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// Distribute the grid and switch to the distributed view.
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if (mpiSize > 1) {
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this->distributeGrid(edgeWeightsMethod, ownersFirst,
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serialPartitioning, enableDistributedWells,
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zoltanImbalanceTol, loadBalancerSet != 0,
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faceTrans, wells, centroids,
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eclState1, parallelWells);
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}
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// Calling Schedule::filterConnections would remove any perforated
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// cells that exist only on other ranks even in the case of
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// distributed wells. But we need all connections to figure out the
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// first cell of a well (e.g. for pressure). Hence this is now
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// skipped. Rank 0 had everything even before.
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#if HAVE_OPENCL
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if (partitionJacobiBlocks) {
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this->cell_part_ = this->grid_->
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zoltanPartitionWithoutScatter(&wells, faceTrans.data(),
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numJacobiBlocks,
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zoltanImbalanceTol);
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}
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#endif // HAVE_OPENCL
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}
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}
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template<class ElementMapper, class GridView, class Scalar>
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void EclGenericCpGridVanguard<ElementMapper,GridView,Scalar>::distributeFieldProps_(EclipseState& eclState1)
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{
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const auto mpiSize = this->grid_->comm().size();
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if (mpiSize == 1) {
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return;
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}
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if (auto* parallelEclState = dynamic_cast<ParallelEclipseState*>(&eclState1);
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parallelEclState != nullptr)
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{
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// Reset Cartesian index mapper for automatic creation of field
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// properties
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parallelEclState->resetCartesianMapper(this->cartesianIndexMapper_.get());
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parallelEclState->switchToDistributedProps();
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}
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else {
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const auto message = std::string {
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"Parallel simulator setup is incorrect as "
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"it does not use ParallelEclipseState"
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};
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OpmLog::error(message);
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throw std::invalid_argument { message };
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}
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}
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template <class ElementMapper, class GridView, class Scalar>
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std::vector<double>
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EclGenericCpGridVanguard<ElementMapper, GridView, Scalar>::
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extractFaceTrans(const GridView& gridView) const
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{
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auto faceTrans = std::vector<double>(this->grid_->numFaces(), 0.0);
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const auto elemMapper = ElementMapper { gridView, Dune::mcmgElementLayout() };
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for (const auto& elem : elements(gridView, Dune::Partitions::interiorBorder)) {
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for (const auto& is : intersections(gridView, elem)) {
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if (!is.neighbor()) {
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continue;
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}
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const auto I = static_cast<unsigned int>(elemMapper.index(is.inside()));
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const auto J = static_cast<unsigned int>(elemMapper.index(is.outside()));
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faceTrans[is.id()] = this->getTransmissibility(I, J);
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}
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}
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return faceTrans;
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}
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template <class ElementMapper, class GridView, class Scalar>
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void
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EclGenericCpGridVanguard<ElementMapper, GridView, Scalar>::
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distributeGrid(const Dune::EdgeWeightMethod edgeWeightsMethod,
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const bool ownersFirst,
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const bool serialPartitioning,
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const bool enableDistributedWells,
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const double zoltanImbalanceTol,
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const bool loadBalancerSet,
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const std::vector<double>& faceTrans,
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const std::vector<Well>& wells,
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std::vector<double>& centroids,
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EclipseState& eclState1,
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EclGenericVanguard::ParallelWellStruct& parallelWells)
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{
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if (auto* eclState = dynamic_cast<ParallelEclipseState*>(&eclState1);
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eclState != nullptr)
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{
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this->distributeGrid(edgeWeightsMethod, ownersFirst,
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serialPartitioning, enableDistributedWells,
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zoltanImbalanceTol, loadBalancerSet, faceTrans,
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wells, centroids, eclState, parallelWells);
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}
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else {
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const auto message = std::string {
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"Parallel simulator setup is incorrect as "
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"it does not use ParallelEclipseState"
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};
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OpmLog::error(message);
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throw std::invalid_argument { message };
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}
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this->grid_->switchToDistributedView();
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}
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template <class ElementMapper, class GridView, class Scalar>
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void
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EclGenericCpGridVanguard<ElementMapper, GridView, Scalar>::
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distributeGrid(const Dune::EdgeWeightMethod edgeWeightsMethod,
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const bool ownersFirst,
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const bool serialPartitioning,
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const bool enableDistributedWells,
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const double zoltanImbalanceTol,
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const bool loadBalancerSet,
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const std::vector<double>& faceTrans,
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const std::vector<Well>& wells,
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std::vector<double>& centroids,
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ParallelEclipseState* eclState,
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EclGenericVanguard::ParallelWellStruct& parallelWells)
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{
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const auto isIORank = this->grid_->comm().rank() == 0;
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const auto* eclGrid = isIORank
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? &eclState->getInputGrid()
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: nullptr;
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PropsCentroidsDataHandle<Dune::CpGrid> handle {
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*this->grid_, *eclState, eclGrid, centroids,
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this->cartesianIndexMapper()
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};
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const auto addCornerCells = false;
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const auto overlapLayers = 1;
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if (loadBalancerSet) {
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auto parts = isIORank
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? (*externalLoadBalancer)(*this->grid_)
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: std::vector<int>{};
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parallelWells =
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std::get<1>(this->grid_->loadBalance(handle, parts, &wells, ownersFirst,
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addCornerCells, overlapLayers));
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}
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else {
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const auto useZoltan = true;
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parallelWells =
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std::get<1>(this->grid_->loadBalance(handle, edgeWeightsMethod,
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&wells, serialPartitioning,
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faceTrans.data(), ownersFirst,
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addCornerCells, overlapLayers,
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useZoltan, zoltanImbalanceTol,
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enableDistributedWells));
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}
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}
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#endif // HAVE_MPI
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template<class ElementMapper, class GridView, class Scalar>
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void EclGenericCpGridVanguard<ElementMapper,GridView,Scalar>::doCreateGrids_(EclipseState& eclState)
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{
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const EclipseGrid* input_grid = nullptr;
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std::vector<double> global_porv;
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// At this stage the ParallelEclipseState instance is still in global
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// view; on rank 0 we have undistributed data for the entire grid, on
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// the other ranks the EclipseState is empty.
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if (mpiRank == 0) {
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input_grid = &eclState.getInputGrid();
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global_porv = eclState.fieldProps().porv(true);
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OpmLog::info("\nProcessing grid");
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}
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#if HAVE_MPI
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this->grid_ = std::make_unique<Dune::CpGrid>(EclGenericVanguard::comm());
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#else
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this->grid_ = std::make_unique<Dune::CpGrid>();
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#endif
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// Note: removed_cells is guaranteed to be empty on ranks other than 0.
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auto removed_cells =
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this->grid_->processEclipseFormat(input_grid,
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&eclState,
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/*isPeriodic=*/false,
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/*flipNormals=*/false,
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/*clipZ=*/false);
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if (mpiRank == 0) {
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const auto& active_porv = eclState.fieldProps().porv(false);
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const auto& unit_system = eclState.getUnits();
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const auto& volume_unit = unit_system.name( UnitSystem::measure::volume);
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double total_pore_volume = unit_system.from_si( UnitSystem::measure::volume, std::accumulate(active_porv.begin(), active_porv.end(), 0.0));
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OpmLog::info(fmt::format("Total number of active cells: {} / total pore volume: {:0.0f} {}", grid_->numCells(), total_pore_volume , volume_unit));
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double removed_pore_volume = 0;
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for (const auto& global_index : removed_cells)
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removed_pore_volume += active_porv[ eclState.getInputGrid().activeIndex(global_index) ];
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if (removed_pore_volume > 0) {
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removed_pore_volume = unit_system.from_si( UnitSystem::measure::volume, removed_pore_volume );
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OpmLog::info(fmt::format("Removed {} cells with a pore volume of {:0.0f} {} ({:5.3f} %) due to MINPV/MINPVV",
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removed_cells.size(),
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removed_pore_volume,
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volume_unit,
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100 * removed_pore_volume / total_pore_volume));
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}
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}
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cartesianIndexMapper_ = std::make_unique<CartesianIndexMapper>(*grid_);
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#if HAVE_MPI
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{
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const bool has_numerical_aquifer = eclState.aquifer().hasNumericalAquifer();
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int mpiSize = 1;
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MPI_Comm_size(grid_->comm(), &mpiSize);
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// when there is numerical aquifers, new NNC are generated during
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// grid processing we need to pass the NNC from root process to
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// other processes
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if (has_numerical_aquifer && mpiSize > 1) {
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auto nnc_input = eclState.getInputNNC();
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EclMpiSerializer ser(grid_->comm());
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ser.broadcast(nnc_input);
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if (mpiRank > 0) {
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eclState.setInputNNC(nnc_input);
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}
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}
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}
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#endif
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// We use separate grid objects: one for the calculation of the initial
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// condition via EQUIL and one for the actual simulation. The reason is
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// that the EQUIL code is allergic to distributed grids and the
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// simulation grid is distributed before the initial condition is
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// calculated.
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//
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// After loadbalance, grid_ will contain a global and distribute view.
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// equilGrid_ being a shallow copy only the global view.
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if (mpiRank == 0)
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{
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equilGrid_.reset(new Dune::CpGrid(*grid_));
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equilCartesianIndexMapper_ = std::make_unique<CartesianIndexMapper>(*equilGrid_);
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eclState.reset_actnum(UgGridHelpers::createACTNUM(*grid_));
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}
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{
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auto size = removed_cells.size();
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this->grid_->comm().broadcast(&size, 1, 0);
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if (mpiRank != 0) {
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removed_cells.resize(size);
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}
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this->grid_->comm().broadcast(removed_cells.data(), size, 0);
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}
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// Inform the aquifer object that we might have removed/deactivated
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// cells as part of minimum pore-volume threshold processing.
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eclState.pruneDeactivatedAquiferConnections(removed_cells);
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}
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template<class ElementMapper, class GridView, class Scalar>
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void EclGenericCpGridVanguard<ElementMapper,GridView,Scalar>::doFilterConnections_(Schedule& schedule)
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{
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// We only filter if we hold the global grid. Otherwise the filtering
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// is done after load balancing as in the future the other processes
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// will hold an empty partition for the global grid and hence filtering
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// here would remove all well connections.
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if (this->equilGrid_ != nullptr) {
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ActiveGridCells activeCells(equilGrid().logicalCartesianSize(),
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equilGrid().globalCell().data(),
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equilGrid().size(0));
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schedule.filterConnections(activeCells);
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}
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#if HAVE_MPI
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try {
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// Broadcast another time to remove inactive peforations on
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// slave processors.
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eclBroadcast(EclGenericVanguard::comm(), schedule);
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}
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catch (const std::exception& broadcast_error) {
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OpmLog::error(fmt::format("Distributing properties to all processes failed\n"
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"Internal error message: {}", broadcast_error.what()));
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MPI_Finalize();
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std::exit(EXIT_FAILURE);
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}
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#endif // HAVE_MPI
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}
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template<class ElementMapper, class GridView, class Scalar>
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const Dune::CpGrid&
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EclGenericCpGridVanguard<ElementMapper,GridView,Scalar>::equilGrid() const
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{
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assert(mpiRank == 0);
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return *equilGrid_;
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}
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template<class ElementMapper, class GridView, class Scalar>
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const Dune::CartesianIndexMapper<Dune::CpGrid>&
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EclGenericCpGridVanguard<ElementMapper,GridView,Scalar>::cartesianIndexMapper() const
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{
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return *cartesianIndexMapper_;
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}
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template<class ElementMapper, class GridView, class Scalar>
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const Dune::CartesianIndexMapper<Dune::CpGrid>&
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EclGenericCpGridVanguard<ElementMapper,GridView,Scalar>::equilCartesianIndexMapper() const
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{
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assert(mpiRank == 0);
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assert(equilCartesianIndexMapper_);
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return *equilCartesianIndexMapper_;
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}
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template<class ElementMapper, class GridView, class Scalar>
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Scalar
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EclGenericCpGridVanguard<ElementMapper,GridView,Scalar>::
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computeCellThickness(const typename GridView::template Codim<0>::Entity& element) const
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{
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typedef typename Element::Geometry Geometry;
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static constexpr int zCoord = Element::dimension - 1;
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Scalar zz1 = 0.0;
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Scalar zz2 = 0.0;
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const Geometry& geometry = element.geometry();
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// This code only works with CP-grid where the
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// number of corners are 8 and
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// also assumes that the first
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// 4 corners are the top surface and
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// the 4 next are the bottomn.
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assert(geometry.corners() == 8);
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for (int i=0; i < 4; ++i){
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zz1 += geometry.corner(i)[zCoord];
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zz2 += geometry.corner(i+4)[zCoord];
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}
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zz1 /=4;
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zz2 /=4;
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return zz2-zz1;
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}
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#if HAVE_DUNE_FEM
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template class EclGenericCpGridVanguard<
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Dune::MultipleCodimMultipleGeomTypeMapper<
|
|
Dune::GridView<
|
|
Dune::Fem::GridPart2GridViewTraits<
|
|
Dune::Fem::AdaptiveLeafGridPart<
|
|
Dune::CpGrid,
|
|
Dune::PartitionIteratorType(4),
|
|
false>>>>,
|
|
Dune::GridView<
|
|
Dune::Fem::GridPart2GridViewTraits<
|
|
Dune::Fem::AdaptiveLeafGridPart<
|
|
Dune::CpGrid,
|
|
Dune::PartitionIteratorType(4),
|
|
false>>>,
|
|
double>;
|
|
|
|
template class EclGenericCpGridVanguard<
|
|
Dune::MultipleCodimMultipleGeomTypeMapper<
|
|
Dune::Fem::GridPart2GridViewImpl<
|
|
Dune::Fem::AdaptiveLeafGridPart<
|
|
Dune::CpGrid,
|
|
Dune::PartitionIteratorType(4),
|
|
false>>>,
|
|
Dune::Fem::GridPart2GridViewImpl<
|
|
Dune::Fem::AdaptiveLeafGridPart<
|
|
Dune::CpGrid,
|
|
Dune::PartitionIteratorType(4),
|
|
false> >,
|
|
double>;
|
|
#else
|
|
template class EclGenericCpGridVanguard<
|
|
Dune::MultipleCodimMultipleGeomTypeMapper<
|
|
Dune::GridView<
|
|
Dune::DefaultLeafGridViewTraits<Dune::CpGrid>>>,
|
|
Dune::GridView<
|
|
Dune::DefaultLeafGridViewTraits<Dune::CpGrid>>,
|
|
double>;
|
|
#endif
|
|
} // namespace Opm
|