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https://github.com/OPM/opm-simulators.git
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fa7af3540c
Damaris initialization is added after InitMpi but before starting the simulation. Damaris will invoke a separate core for writing in parallel and leave the rest of cores for the simulator. The main changes are in main where start_damaris and then in eclwriterm where we use damaris to output the PRESSURE. To test Damaris one can use --enable-damaris-output=true and to use parallel HDF5 one can use --enable-async-damaris-output=true (false is the default choice)
477 lines
15 KiB
C++
477 lines
15 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::EclOutputBlackOilModule
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*/
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#ifndef EWOMS_ECL_GENERIC_OUTPUT_BLACK_OIL_MODULE_HH
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#define EWOMS_ECL_GENERIC_OUTPUT_BLACK_OIL_MODULE_HH
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#include <array>
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#include <map>
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#include <numeric>
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#include <optional>
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#include <stdexcept>
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#include <utility>
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#include <opm/output/data/Wells.hpp>
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#include <opm/output/eclipse/Inplace.hpp>
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#include <opm/input/eclipse/Schedule/SummaryState.hpp>
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#include <opm/input/eclipse/EclipseState/SummaryConfig/SummaryConfig.hpp>
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#include <opm/simulators/utils/ParallelCommunication.hpp>
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#include <ebos/eclinterregflows.hh>
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namespace Opm {
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namespace data { class Solution; }
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class EclipseState;
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template<class FluidSystem, class Scalar>
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class EclGenericOutputBlackoilModule {
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public:
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Scalar* getPRESSURE_ptr(void) {
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return (this->oilPressure_.data()) ;
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};
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int getPRESSURE_size( void ) {
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return (this->oilPressure_.size()) ;
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};
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// write cumulative production and injection reports to output
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void outputCumLog(size_t reportStepNum,
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const bool substep,
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bool forceDisableCumOutput);
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// write production report to output
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void outputProdLog(size_t reportStepNum,
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const bool substep,
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bool forceDisableProdOutput);
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// write injection report to output
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void outputInjLog(size_t reportStepNum,
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const bool substep,
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bool forceDisableInjOutput);
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// write Fluid In Place to output log
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Inplace outputFipLog(std::map<std::string, double>& miscSummaryData,
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std::map<std::string, std::vector<double>>& regionData,
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const bool substep,
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const Parallel::Communication& comm);
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// write Reservoir Volumes to output log
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Inplace outputFipresvLog(std::map<std::string, double>& miscSummaryData,
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std::map<std::string, std::vector<double>>& regionData,
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const bool substep,
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const Parallel::Communication& comm);
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void outputErrorLog(const Parallel::Communication& comm) const;
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void addRftDataToWells(data::Wells& wellDatas,
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size_t reportStepNum);
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/*!
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* \brief Move all buffers to data::Solution.
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*/
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void assignToSolution(data::Solution& sol);
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void setRestart(const data::Solution& sol,
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unsigned elemIdx,
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unsigned globalDofIndex);
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Scalar getSolventSaturation(unsigned elemIdx) const
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{
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if (sSol_.size() > elemIdx)
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return sSol_[elemIdx];
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return 0;
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}
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Scalar getPolymerConcentration(unsigned elemIdx) const
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{
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if (cPolymer_.size() > elemIdx)
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return cPolymer_[elemIdx];
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return 0;
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}
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Scalar getFoamConcentration(unsigned elemIdx) const
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{
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if (cFoam_.size() > elemIdx)
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return cFoam_[elemIdx];
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return 0;
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}
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Scalar getSaltConcentration(unsigned elemIdx) const
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{
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if (cSalt_.size() > elemIdx)
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return cSalt_[elemIdx];
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return 0;
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}
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Scalar getSaltSaturation(unsigned elemIdx) const
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{
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if (pSalt_.size() > elemIdx)
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return pSalt_[elemIdx];
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return 0;
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}
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Scalar getPermFactor(unsigned elemIdx) const
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{
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if (permFact_.size() > elemIdx)
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return permFact_[elemIdx];
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return 0;
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}
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Scalar getMicrobialConcentration(unsigned elemIdx) const
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{
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if (cMicrobes_.size() > elemIdx)
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return cMicrobes_[elemIdx];
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return 0;
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}
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Scalar getOxygenConcentration(unsigned elemIdx) const
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{
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if (cOxygen_.size() > elemIdx)
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return cOxygen_[elemIdx];
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return 0;
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}
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Scalar getUreaConcentration(unsigned elemIdx) const
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{
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if (cUrea_.size() > elemIdx)
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return cUrea_[elemIdx];
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return 0;
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}
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Scalar getBiofilmConcentration(unsigned elemIdx) const
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{
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if (cBiofilm_.size() > elemIdx)
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return cBiofilm_[elemIdx];
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return 0;
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}
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Scalar getCalciteConcentration(unsigned elemIdx) const
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{
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if (cCalcite_.size() > elemIdx)
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return cCalcite_[elemIdx];
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return 0;
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}
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bool needInterfaceFluxes([[maybe_unused]] const bool isSubStep) const
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{
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return this->interRegionFlows_.wantInterRegflowSummary();
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}
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const std::map<std::size_t, double>& getWBPData() const
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{
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return this->wbpData_;
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}
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const std::map<std::pair<std::string, int>, double>& getBlockData()
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{
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return blockData_;
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}
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const Inplace& initialInplace() const
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{
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return this->initialInplace_.value();
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}
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// Virtual destructor for safer inheritance.
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virtual ~EclGenericOutputBlackoilModule() = default;
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protected:
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using ScalarBuffer = std::vector<Scalar>;
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using StringBuffer = std::vector<std::string>;
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enum { numPhases = FluidSystem::numPhases };
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enum { gasPhaseIdx = FluidSystem::gasPhaseIdx };
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enum { oilPhaseIdx = FluidSystem::oilPhaseIdx };
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enum { waterPhaseIdx = FluidSystem::waterPhaseIdx };
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EclGenericOutputBlackoilModule(const EclipseState& eclState,
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const Schedule& schedule,
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const SummaryConfig& summaryConfig,
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const SummaryState& summaryState,
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bool enableEnergy,
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bool enableTemperature,
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bool enableSolvent,
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bool enablePolymer,
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bool enableFoam,
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bool enableBrine,
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bool enableSaltPrecipitation,
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bool enableExtbo,
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bool enableMICP);
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struct WellProdDataType
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{
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enum WPId
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{
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WellLocationi = 0, //WLi
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WellLocationj = 1, //WLj
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OilRate = 2, //OR
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WaterRate = 3, //WR
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GasRate = 4, //GR
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FluidResVol = 5, //FRV
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WaterCut = 6, //WC
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GasOilRatio = 7, //GOR
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WatGasRatio = 8, //WGR
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BHP = 9, //BHP
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THP = 10, //THP
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SteadyStatePI = 11, //SteadyStatePI
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WellName = 0, //WName
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CTRLMode = 1, //CTRL
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};
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static constexpr int numWPValues = 12;
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static constexpr int numWPNames = 2;
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};
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struct WellInjDataType
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{
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enum WIId
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{
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WellLocationi = 0, //WLi
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WellLocationj = 1, //WLj
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OilRate = 2, //OR
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WaterRate = 3, //WR
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GasRate = 4, //GR
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FluidResVol = 5, //FRV
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BHP = 6, //BHP
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THP = 7, //THP
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SteadyStateII = 8, //SteadyStateII
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WellName = 0, //WName
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CTRLModeOil = 1, //CTRLo
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CTRLModeWat = 2, //CTRLw
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CTRLModeGas = 3, //CTRLg
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};
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static constexpr int numWIValues = 9;
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static constexpr int numWINames = 4;
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};
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struct WellCumDataType
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{
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enum WCId
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{
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WellLocationi = 0, //WLi
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WellLocationj = 1, //WLj
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OilProd = 2, //OP
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WaterProd = 3, //WP
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GasProd = 4, //GP
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FluidResVolProd = 5, //FRVP
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OilInj = 6, //OI
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WaterInj = 7, //WI
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GasInj = 8, //GI
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FluidResVolInj = 9, //FRVI
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WellName = 0, //WName
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WellType = 1, //WType
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WellCTRL = 2, //WCTRL
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};
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static constexpr int numWCValues = 10;
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static constexpr int numWCNames = 3;
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};
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void doAllocBuffers(unsigned bufferSize,
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unsigned reportStepNum,
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const bool substep,
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const bool log,
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const bool isRestart,
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const bool vapparsActive,
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const bool enableHysteresis,
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unsigned numTracers);
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void fipUnitConvert_(std::unordered_map<Inplace::Phase, Scalar>& fip) const;
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void pressureUnitConvert_(Scalar& pav) const;
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void outputRegionFluidInPlace_(std::unordered_map<Inplace::Phase, Scalar> oip,
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std::unordered_map<Inplace::Phase, Scalar> cip,
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const Scalar& pav, const int reg = 0) const;
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void outputResvFluidInPlace_(std::unordered_map<Inplace::Phase, Scalar> cipr,
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const int reg = 0) const;
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void outputProductionReport_(const ScalarBuffer& wellProd,
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const StringBuffer& wellProdNames,
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const bool forceDisableProdOutput);
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void outputInjectionReport_(const ScalarBuffer& wellInj,
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const StringBuffer& wellInjNames,
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const bool forceDisableInjOutput);
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void outputCumulativeReport_(const ScalarBuffer& wellCum,
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const StringBuffer& wellCumNames,
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const bool forceDisableCumOutput);
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void outputFipLogImpl(const Inplace& inplace) const;
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void outputFipresvLogImpl(const Inplace& inplace) const;
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void makeRegionSum(Inplace& inplace,
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const std::string& region_name,
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const Parallel::Communication& comm) const;
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Inplace accumulateRegionSums(const Parallel::Communication& comm);
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void updateSummaryRegionValues(const Inplace& inplace,
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std::map<std::string, double>& miscSummaryData,
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std::map<std::string, std::vector<double>>& regionData) const;
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static bool isOutputCreationDirective_(const std::string& keyword);
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static Scalar pressureAverage_(const Scalar& pressurePvHydrocarbon,
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const Scalar& pvHydrocarbon,
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const Scalar& pressurePv,
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const Scalar& pv,
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bool hydrocarbon);
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static ScalarBuffer pressureAverage_(const ScalarBuffer& pressurePvHydrocarbon,
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const ScalarBuffer& pvHydrocarbon,
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const ScalarBuffer& pressurePv,
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const ScalarBuffer& pv,
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bool hydrocarbon);
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// Sum Fip values over regions.
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static ScalarBuffer regionSum(const ScalarBuffer& property,
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const std::vector<int>& regionId,
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const std::size_t maxNumberOfRegions,
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const Parallel::Communication& comm);
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static int regionMax(const std::vector<int>& region,
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const Parallel::Communication& comm);
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static void update(Inplace& inplace,
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const std::string& region_name,
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const Inplace::Phase phase,
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const std::size_t ntFip,
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const ScalarBuffer& values);
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static Scalar sum(const ScalarBuffer& v);
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virtual bool isDefunctParallelWell(std::string wname) const = 0;
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const EclipseState& eclState_;
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const Schedule& schedule_;
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const SummaryConfig& summaryConfig_;
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const SummaryState& summaryState_;
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EclInterRegFlowMap interRegionFlows_;
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bool enableEnergy_;
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bool enableTemperature_;
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bool enableSolvent_;
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bool enablePolymer_;
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bool enableFoam_;
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bool enableBrine_;
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bool enableSaltPrecipitation_;
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bool enableExtbo_;
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bool enableMICP_;
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bool forceDisableFipOutput_;
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bool forceDisableFipresvOutput_;
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bool outputFipRestart_;
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bool computeFip_;
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std::unordered_map<Inplace::Phase, ScalarBuffer> fip_;
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std::unordered_map<std::string, std::vector<int>> regions_;
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std::unordered_map<Inplace::Phase, std::vector<SummaryConfigNode>> regionNodes_;
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std::vector<SummaryConfigNode> RPRNodes_;
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std::vector<SummaryConfigNode> RPRPNodes_;
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std::vector<int> failedCellsPb_;
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std::vector<int> failedCellsPd_;
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ScalarBuffer gasFormationVolumeFactor_;
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ScalarBuffer hydrocarbonPoreVolume_;
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ScalarBuffer pressureTimesPoreVolume_;
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ScalarBuffer pressureTimesHydrocarbonVolume_;
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ScalarBuffer dynamicPoreVolume_;
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ScalarBuffer oilPressure_;
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ScalarBuffer temperature_;
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ScalarBuffer rs_;
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ScalarBuffer rv_;
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ScalarBuffer rvw_;
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ScalarBuffer overburdenPressure_;
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ScalarBuffer oilSaturationPressure_;
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ScalarBuffer drsdtcon_;
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ScalarBuffer sSol_;
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ScalarBuffer cPolymer_;
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ScalarBuffer cFoam_;
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ScalarBuffer cSalt_;
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ScalarBuffer pSalt_;
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ScalarBuffer permFact_;
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ScalarBuffer extboX_;
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ScalarBuffer extboY_;
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ScalarBuffer extboZ_;
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ScalarBuffer mFracOil_;
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ScalarBuffer mFracGas_;
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ScalarBuffer mFracCo2_;
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ScalarBuffer soMax_;
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ScalarBuffer pcSwMdcOw_;
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ScalarBuffer krnSwMdcOw_;
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ScalarBuffer pcSwMdcGo_;
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ScalarBuffer krnSwMdcGo_;
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ScalarBuffer ppcw_;
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ScalarBuffer gasDissolutionFactor_;
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ScalarBuffer oilVaporizationFactor_;
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ScalarBuffer bubblePointPressure_;
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ScalarBuffer dewPointPressure_;
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ScalarBuffer rockCompPorvMultiplier_;
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ScalarBuffer swMax_;
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ScalarBuffer minimumOilPressure_;
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ScalarBuffer saturatedOilFormationVolumeFactor_;
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ScalarBuffer rockCompTransMultiplier_;
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ScalarBuffer cMicrobes_;
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ScalarBuffer cOxygen_;
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ScalarBuffer cUrea_;
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ScalarBuffer cBiofilm_;
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ScalarBuffer cCalcite_;
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ScalarBuffer pcow_;
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ScalarBuffer pcog_;
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std::array<ScalarBuffer, numPhases> saturation_;
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std::array<ScalarBuffer, numPhases> invB_;
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std::array<ScalarBuffer, numPhases> density_;
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std::array<ScalarBuffer, numPhases> viscosity_;
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std::array<ScalarBuffer, numPhases> relativePermeability_;
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std::vector<ScalarBuffer> tracerConcentrations_;
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std::map<size_t, Scalar> oilConnectionPressures_;
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std::map<size_t, Scalar> waterConnectionSaturations_;
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std::map<size_t, Scalar> gasConnectionSaturations_;
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std::map<std::pair<std::string, int>, double> blockData_;
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std::map<std::size_t , double> wbpData_;
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std::optional<Inplace> initialInplace_;
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};
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} // namespace Opm
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#endif
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