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499 lines
17 KiB
C++
499 lines
17 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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/*!
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* \file
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* \copydoc Opm::EclBaseVanguard
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*/
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#ifndef EWOMS_ECL_BASE_VANGUARD_HH
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#define EWOMS_ECL_BASE_VANGUARD_HH
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#include <opm/models/io/basevanguard.hh>
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#include <opm/models/utils/propertysystem.hh>
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#include <opm/models/utils/parametersystem.hh>
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#include <opm/models/discretization/common/fvbaseproperties.hh>
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#include <ebos/eclgenericvanguard.hh>
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#include <opm/grid/common/GridEnums.hpp>
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#include <opm/grid/common/CartesianIndexMapper.hpp>
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#include <opm/parser/eclipse/EclipseState/Aquifer/NumericalAquifer/NumericalAquiferCell.hpp>
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#include <opm/simulators/flow/BlackoilModelParametersEbos.hpp>
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#include <array>
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#include <optional>
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#include <unordered_set>
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#include <vector>
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namespace Opm {
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template <class TypeTag>
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class EclBaseVanguard;
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}
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namespace Opm::Properties {
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namespace TTag {
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struct EclBaseVanguard {};
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}
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// declare the properties required by the for the ecl simulator vanguard
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template<class TypeTag, class MyTypeTag>
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struct EquilGrid {
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using type = UndefinedProperty;
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};
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template<class TypeTag, class MyTypeTag>
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struct EnableOpmRstFile {
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using type = UndefinedProperty;
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};
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template<class TypeTag, class MyTypeTag>
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struct EclStrictParsing {
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using type = UndefinedProperty;
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};
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template<class TypeTag, class MyTypeTag>
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struct SchedRestart {
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using type = UndefinedProperty;
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};
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template<class TypeTag, class MyTypeTag>
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struct EclOutputInterval {
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using type = UndefinedProperty;
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};
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template<class TypeTag, class MyTypeTag>
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struct IgnoreKeywords {
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using type = UndefinedProperty;
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};
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template<class TypeTag, class MyTypeTag>
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struct EdgeWeightsMethod {
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using type = UndefinedProperty;
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};
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template<class TypeTag, class MyTypeTag>
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struct OwnerCellsFirst {
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using type = UndefinedProperty;
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};
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template<class TypeTag, class MyTypeTag>
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struct SerialPartitioning {
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using type = UndefinedProperty;
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};
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template<class TypeTag, class MyTypeTag>
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struct ZoltanImbalanceTol {
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using type = UndefinedProperty;
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};
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template<class TypeTag, class MyTypeTag>
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struct AllowDistributedWells {
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using type = UndefinedProperty;
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};
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template<class TypeTag>
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struct IgnoreKeywords<TypeTag, TTag::EclBaseVanguard> {
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static constexpr auto value = "";
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};
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template<class TypeTag>
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struct EclDeckFileName<TypeTag, TTag::EclBaseVanguard> {
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static constexpr auto value = "";
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};
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template<class TypeTag>
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struct EclOutputInterval<TypeTag, TTag::EclBaseVanguard> {
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static constexpr int value = -1;
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};
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template<class TypeTag>
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struct EnableOpmRstFile<TypeTag, TTag::EclBaseVanguard> {
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static constexpr bool value = false;
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};
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template<class TypeTag>
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struct EclStrictParsing<TypeTag, TTag::EclBaseVanguard> {
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static constexpr bool value = false;
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};
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template<class TypeTag>
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struct SchedRestart<TypeTag, TTag::EclBaseVanguard> {
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static constexpr bool value = true;
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};
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template<class TypeTag>
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struct EdgeWeightsMethod<TypeTag, TTag::EclBaseVanguard> {
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static constexpr int value = 1;
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};
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template<class TypeTag>
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struct OwnerCellsFirst<TypeTag, TTag::EclBaseVanguard> {
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static constexpr bool value = true;
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};
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template<class TypeTag>
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struct SerialPartitioning<TypeTag, TTag::EclBaseVanguard> {
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static constexpr bool value = false;
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};
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template<class TypeTag>
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struct ZoltanImbalanceTol<TypeTag, TTag::EclBaseVanguard> {
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static constexpr double value = 1.1;
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};
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template<class TypeTag>
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struct AllowDistributedWells<TypeTag, TTag::EclBaseVanguard> {
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static constexpr bool value = false;
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};
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template<class T1, class T2>
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struct UseMultisegmentWell;
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// Same as in BlackoilModelParametersEbos.hpp but for here.
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template<class TypeTag>
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struct UseMultisegmentWell<TypeTag, TTag::EclBaseVanguard> {
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static constexpr bool value = true;
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};
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} // namespace Opm::Properties
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namespace Opm {
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/*!
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* \ingroup EclBlackOilSimulator
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*
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* \brief Helper class for grid instantiation of ECL file-format using problems.
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*/
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template <class TypeTag>
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class EclBaseVanguard : public BaseVanguard<TypeTag>,
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public EclGenericVanguard
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{
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using ParentType = BaseVanguard<TypeTag>;
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using Implementation = GetPropType<TypeTag, Properties::Vanguard>;
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using Scalar = GetPropType<TypeTag, Properties::Scalar>;
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using Simulator = GetPropType<TypeTag, Properties::Simulator>;
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using ElementMapper = GetPropType<TypeTag, Properties::ElementMapper>;
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enum { enableExperiments = getPropValue<TypeTag, Properties::EnableExperiments>() };
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public:
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using Grid = GetPropType<TypeTag, Properties::Grid>;
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using GridView = GetPropType<TypeTag, Properties::GridView>;
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protected:
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static const int dimension = Grid::dimension;
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using Element = typename GridView::template Codim<0>::Entity;
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using CartesianIndexMapper = Dune::CartesianIndexMapper<Grid>;
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public:
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/*!
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* \brief Register the common run-time parameters for all ECL simulator vanguards.
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*/
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static void registerParameters()
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{
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EWOMS_REGISTER_PARAM(TypeTag, std::string, EclDeckFileName,
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"The name of the file which contains the ECL deck to be simulated");
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EWOMS_REGISTER_PARAM(TypeTag, int, EclOutputInterval,
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"The number of report steps that ought to be skipped between two writes of ECL results");
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EWOMS_REGISTER_PARAM(TypeTag, bool, EnableOpmRstFile,
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"Include OPM-specific keywords in the ECL restart file to enable restart of OPM simulators from these files");
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EWOMS_REGISTER_PARAM(TypeTag, std::string, IgnoreKeywords,
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"List of Eclipse keywords which should be ignored. As a ':' separated string.");
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EWOMS_REGISTER_PARAM(TypeTag, bool, EclStrictParsing,
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"Use strict mode for parsing - all errors are collected before the applicaton exists.");
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EWOMS_REGISTER_PARAM(TypeTag, bool, SchedRestart,
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"When restarting: should we try to initialize wells and groups from historical SCHEDULE section.");
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EWOMS_REGISTER_PARAM(TypeTag, int, EdgeWeightsMethod,
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"Choose edge-weighing strategy: 0=uniform, 1=trans, 2=log(trans).");
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EWOMS_REGISTER_PARAM(TypeTag, bool, OwnerCellsFirst,
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"Order cells owned by rank before ghost/overlap cells.");
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EWOMS_REGISTER_PARAM(TypeTag, bool, SerialPartitioning,
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"Perform partitioning for parallel runs on a single process.");
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EWOMS_REGISTER_PARAM(TypeTag, double, ZoltanImbalanceTol,
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"Tolerable imbalance of the loadbalancing provided by Zoltan (default: 1.1).");
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EWOMS_REGISTER_PARAM(TypeTag, bool, AllowDistributedWells,
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"Allow the perforations of a well to be distributed to interior of multiple processes");
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// register here for the use in the tests without BlackoildModelParametersEbos
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EWOMS_REGISTER_PARAM(TypeTag, bool, UseMultisegmentWell, "Use the well model for multi-segment wells instead of the one for single-segment wells");
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}
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/*!
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* \brief Create the grid for problem data files which use the ECL file format.
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*
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* This is the file format used by the commercial ECLiPSE simulator. Usually it uses
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* a cornerpoint description of the grid.
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*/
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EclBaseVanguard(Simulator& simulator)
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: ParentType(simulator)
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{
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fileName_ = EWOMS_GET_PARAM(TypeTag, std::string, EclDeckFileName);
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edgeWeightsMethod_ = Dune::EdgeWeightMethod(EWOMS_GET_PARAM(TypeTag, int, EdgeWeightsMethod));
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ownersFirst_ = EWOMS_GET_PARAM(TypeTag, bool, OwnerCellsFirst);
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serialPartitioning_ = EWOMS_GET_PARAM(TypeTag, bool, SerialPartitioning);
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zoltanImbalanceTol_ = EWOMS_GET_PARAM(TypeTag, double, ZoltanImbalanceTol);
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enableDistributedWells_ = EWOMS_GET_PARAM(TypeTag, bool, AllowDistributedWells);
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ignoredKeywords_ = EWOMS_GET_PARAM(TypeTag, std::string, IgnoreKeywords);
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eclStrictParsing_ = EWOMS_GET_PARAM(TypeTag, bool, EclStrictParsing);
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int output_param = EWOMS_GET_PARAM(TypeTag, int, EclOutputInterval);
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if (output_param >= 0)
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outputInterval_ = output_param;
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useMultisegmentWell_ = EWOMS_GET_PARAM(TypeTag, bool, UseMultisegmentWell);
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enableExperiments_ = enableExperiments;
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init();
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}
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const CartesianIndexMapper& cartesianMapper() const
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{ return asImp_().cartesianIndexMapper(); }
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/*!
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* \brief Returns the number of logically Cartesian cells in each direction
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*/
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const std::array<int, dimension>& cartesianDimensions() const
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{ return asImp_().cartesianIndexMapper().cartesianDimensions(); }
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/*!
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* \brief Returns the overall number of cells of the logically Cartesian grid
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*/
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int cartesianSize() const
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{ return asImp_().cartesianIndexMapper().cartesianSize(); }
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/*!
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* \brief Returns the overall number of cells of the logically EquilCartesian grid
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*/
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int equilCartesianSize() const
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{ return asImp_().equilCartesianIndexMapper().cartesianSize(); }
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/*!
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* \brief Returns the Cartesian cell id for identifaction with ECL data
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*/
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unsigned cartesianIndex(unsigned compressedCellIdx) const
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{ return asImp_().cartesianIndexMapper().cartesianIndex(compressedCellIdx); }
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/*!
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* \brief Return the index of the cells in the logical Cartesian grid
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*/
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unsigned cartesianIndex(const std::array<int,dimension>& coords) const
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{
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unsigned cartIndex = coords[0];
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int factor = cartesianDimensions()[0];
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for (unsigned i = 1; i < dimension; ++i) {
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cartIndex += coords[i]*factor;
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factor *= cartesianDimensions()[i];
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}
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return cartIndex;
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}
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/*!
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* \brief Return compressed index from cartesian index
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*
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*/
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int compressedIndex(int cartesianCellIdx) const
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{
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int index = cartesianToCompressed_[cartesianCellIdx];
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return index;
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}
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/*!
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* \brief Extract Cartesian index triplet (i,j,k) of an active cell.
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*
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* \param [in] cellIdx Active cell index.
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* \param [out] ijk Cartesian index triplet
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*/
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void cartesianCoordinate(unsigned cellIdx, std::array<int,3>& ijk) const
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{ return asImp_().cartesianIndexMapper().cartesianCoordinate(cellIdx, ijk); }
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/*!
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* \brief Returns the Cartesian cell id given an element index for the grid used for equilibration
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*/
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unsigned equilCartesianIndex(unsigned compressedEquilCellIdx) const
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{ return asImp_().equilCartesianIndexMapper().cartesianIndex(compressedEquilCellIdx); }
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/*!
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* \brief Extract Cartesian index triplet (i,j,k) of an active cell of the grid used for EQUIL.
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*
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* \param [in] cellIdx Active cell index.
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* \param [out] ijk Cartesian index triplet
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*/
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void equilCartesianCoordinate(unsigned cellIdx, std::array<int,3>& ijk) const
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{ return asImp_().equilCartesianIndexMapper().cartesianCoordinate(cellIdx, ijk); }
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/*!
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* \brief Get the cell centroids for a distributed grid.
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*
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* Currently this only non-empty for a loadbalanced CpGrid.
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*/
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const std::vector<double>& cellCentroids() const
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{
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return centroids_;
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}
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/*!
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* \brief Returns the depth of a degree of freedom [m]
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*
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* For ECL problems this is defined as the average of the depth of an element and is
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* thus slightly different from the depth of an element's centroid.
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*/
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Scalar cellCenterDepth(unsigned globalSpaceIdx) const
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{
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return cellCenterDepth_[globalSpaceIdx];
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}
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const std::vector<Scalar>& cellCenterDepths() const
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{
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return cellCenterDepth_;
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}
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/*!
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* \brief Returns the thickness of a degree of freedom [m]
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*
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* For ECL problems this is defined as the average of the depths of the top surface
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* corners minus the average of the depths of the bottom surface corners
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* The cell thickness is computed only when needed.
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*/
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Scalar cellThickness(unsigned globalSpaceIdx) const
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{
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assert(!cellThickness_.empty());
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return cellThickness_[globalSpaceIdx];
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}
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/*!
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* \brief Get the number of cells in the global leaf grid view.
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* \warn This is a collective operation that needs to be called
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* on all ranks.
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*/
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std::size_t globalNumCells() const
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{
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const auto& grid = asImp_().grid();
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if (grid.comm().size() == 1)
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{
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return grid.leafGridView().size(0);
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}
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const auto& gridView = grid.leafGridView();
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constexpr int codim = 0;
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constexpr auto Part = Dune::Interior_Partition;
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auto local_cells = std::distance(gridView.template begin<codim, Part>(),
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gridView.template end<codim, Part>());
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return grid.comm().sum(local_cells);
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}
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protected:
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void callImplementationInit()
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{
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asImp_().createGrids_();
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asImp_().filterConnections_();
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std::string outputDir = EWOMS_GET_PARAM(TypeTag, std::string, OutputDir);
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bool enableEclCompatFile = !EWOMS_GET_PARAM(TypeTag, bool, EnableOpmRstFile);
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asImp_().updateOutputDir_(outputDir, enableEclCompatFile);
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asImp_().finalizeInit_();
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}
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void updateCartesianToCompressedMapping_()
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{
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size_t num_cells = asImp_().grid().leafGridView().size(0);
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cartesianToCompressed_.resize(cartesianSize(), -1);
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for (unsigned i = 0; i < num_cells; ++i) {
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unsigned cartesianCellIdx = cartesianIndex(i);
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cartesianToCompressed_[cartesianCellIdx] = i;
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}
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}
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void updateCellDepths_()
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{
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int numCells = this->gridView().size(/*codim=*/0);
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cellCenterDepth_.resize(numCells);
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ElementMapper elemMapper(this->gridView(), Dune::mcmgElementLayout());
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auto elemIt = this->gridView().template begin</*codim=*/0>();
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const auto& elemEndIt = this->gridView().template end</*codim=*/0>();
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const auto num_aqu_cells = this->allAquiferCells();
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for (; elemIt != elemEndIt; ++elemIt) {
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const Element& element = *elemIt;
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const unsigned int elemIdx = elemMapper.index(element);
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cellCenterDepth_[elemIdx] = cellCenterDepth(element);
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if (!num_aqu_cells.empty()) {
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const unsigned int global_index = cartesianIndex(elemIdx);
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const auto search = num_aqu_cells.find(global_index);
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if (search != num_aqu_cells.end()) {
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// updating the cell depth using aquifer cell depth
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cellCenterDepth_[elemIdx] = search->second->depth;
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}
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}
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}
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}
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void updateCellThickness_()
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{
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if (!this->drsdtconEnabled())
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return;
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ElementMapper elemMapper(this->gridView(), Dune::mcmgElementLayout());
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int numElements = this->gridView().size(/*codim=*/0);
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cellThickness_.resize(numElements);
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auto elemIt = this->gridView().template begin</*codim=*/0>();
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const auto& elemEndIt = this->gridView().template end</*codim=*/0>();
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for (; elemIt != elemEndIt; ++elemIt) {
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const Element& element = *elemIt;
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const unsigned int elemIdx = elemMapper.index(element);
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cellThickness_[elemIdx] = asImp_().computeCellThickness(element);
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}
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}
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private:
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// computed from averaging cell corner depths
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Scalar cellCenterDepth(const Element& 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 zz = 0.0;
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const Geometry& geometry = element.geometry();
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const int corners = geometry.corners();
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for (int i=0; i < corners; ++i)
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zz += geometry.corner(i)[zCoord];
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return zz/Scalar(corners);
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}
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Implementation& asImp_()
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{ return *static_cast<Implementation*>(this); }
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const Implementation& asImp_() const
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{ return *static_cast<const Implementation*>(this); }
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protected:
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/*! \brief The cell centroids after loadbalance was called.
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* Empty otherwise. Used by EclTransmissibilty.
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*/
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std::vector<double> centroids_;
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/*! \brief Mapping between cartesian and compressed cells.
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* It is initialized the first time it is called
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*/
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std::vector<int> cartesianToCompressed_;
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/*! \brief Cell center depths
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*/
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std::vector<Scalar> cellCenterDepth_;
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/*! \brief Cell thickness
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*/
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std::vector<Scalar> cellThickness_;
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};
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} // namespace Opm
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#endif
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