mirror of
https://github.com/OPM/opm-simulators.git
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586 lines
24 KiB
C++
586 lines
24 KiB
C++
/*
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Copyright 2013, 2014, 2015 SINTEF ICT, Applied Mathematics.
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Copyright 2014 Dr. Blatt - HPC-Simulation-Software & Services
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Copyright 2015 IRIS AS
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Copyright 2014 STATOIL ASA.
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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 3 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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*/
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#ifndef OPM_FLOW_MAIN_HEADER_INCLUDED
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#define OPM_FLOW_MAIN_HEADER_INCLUDED
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#include <opm/input/eclipse/EclipseState/EclipseState.hpp>
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#include <opm/input/eclipse/EclipseState/IOConfig/IOConfig.hpp>
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#include <opm/input/eclipse/EclipseState/InitConfig/InitConfig.hpp>
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#include <opm/models/utils/start.hh>
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#include <opm/simulators/flow/Banners.hpp>
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#include <opm/simulators/flow/FlowUtils.hpp>
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#include <opm/simulators/flow/SimulatorFullyImplicitBlackoil.hpp>
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#if HAVE_DUNE_FEM
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#include <dune/fem/misc/mpimanager.hh>
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#else
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#include <dune/common/parallel/mpihelper.hh>
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#endif
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#include <cstddef>
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#include <memory>
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namespace Opm::Properties {
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template<class TypeTag, class MyTypeTag>
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struct EnableDryRun {
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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 OutputInterval {
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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 EnableLoggingFalloutWarning {
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using type = UndefinedProperty;
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};
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// TODO: enumeration parameters. we use strings for now.
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template<class TypeTag>
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struct EnableDryRun<TypeTag, TTag::FlowProblem> {
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static constexpr auto value = "auto";
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};
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// Do not merge parallel output files or warn about them
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template<class TypeTag>
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struct EnableLoggingFalloutWarning<TypeTag, TTag::FlowProblem> {
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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 OutputInterval<TypeTag, TTag::FlowProblem> {
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static constexpr int value = 1;
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};
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} // namespace Opm::Properties
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namespace Opm {
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class Deck;
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// The FlowMain class is the black-oil simulator.
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template <class TypeTag>
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class FlowMain
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{
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public:
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using MaterialLawManager = typename GetProp<TypeTag, Properties::MaterialLaw>::EclMaterialLawManager;
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using ModelSimulator = GetPropType<TypeTag, Properties::Simulator>;
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using Grid = GetPropType<TypeTag, Properties::Grid>;
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using GridView = GetPropType<TypeTag, Properties::GridView>;
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using Problem = GetPropType<TypeTag, Properties::Problem>;
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using Scalar = GetPropType<TypeTag, Properties::Scalar>;
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using FluidSystem = GetPropType<TypeTag, Properties::FluidSystem>;
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using Simulator = SimulatorFullyImplicitBlackoil<TypeTag>;
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FlowMain(int argc, char **argv, bool output_cout, bool output_files )
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: argc_{argc}, argv_{argv},
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output_cout_{output_cout}, output_files_{output_files}
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{
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}
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// Read the command line parameters. Throws an exception if something goes wrong.
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static int setupParameters_(int argc, char** argv, Parallel::Communication comm)
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{
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using ParamsMeta = GetProp<TypeTag, Properties::ParameterMetaData>;
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if (!ParamsMeta::registrationOpen()) {
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// We have already successfully run setupParameters_().
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// For the dynamically chosen runs (as from the main flow
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// executable) we must run this function again with the
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// real typetag to be used, as the first time was with the
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// "FlowEarlyBird" typetag. However, for the static ones (such
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// as 'flow_onephase_energy') it has already been run with the
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// correct typetag.
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return EXIT_SUCCESS;
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}
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// register the flow specific parameters
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Parameters::registerParam<TypeTag, Properties::EnableDryRun>
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("Specify if the simulation ought to be actually run, or just pretended to be");
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Parameters::registerParam<TypeTag, Properties::OutputInterval>
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("Specify the number of report steps between two consecutive writes of restart data");
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Parameters::registerParam<TypeTag, Properties::EnableLoggingFalloutWarning>
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("Developer option to see whether logging was on non-root processors. "
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"In that case it will be appended to the *.DBG or *.PRT files");
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Simulator::registerParameters();
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// register the base parameters
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registerAllParameters_<TypeTag>(/*finalizeRegistration=*/false);
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// hide the parameters unused by flow. TODO: this is a pain to maintain
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Parameters::hideParam<TypeTag, Properties::EnableGravity>();
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Parameters::hideParam<TypeTag, Parameters::EnableGridAdaptation>();
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// this parameter is actually used in eWoms, but the flow well model
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// hard-codes the assumption that the intensive quantities cache is enabled,
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// so flow crashes. Let's hide the parameter for that reason.
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Parameters::hideParam<TypeTag, Parameters::EnableIntensiveQuantityCache>();
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// thermodynamic hints are not implemented/required by the eWoms blackoil
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// model
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Parameters::hideParam<TypeTag, Parameters::EnableThermodynamicHints>();
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// in flow only the deck file determines the end time of the simulation
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Parameters::hideParam<TypeTag, Parameters::EndTime>();
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// time stepping is not done by the eWoms code in flow
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Parameters::hideParam<TypeTag, Parameters::InitialTimeStepSize>();
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Parameters::hideParam<TypeTag, Parameters::MaxTimeStepDivisions>();
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Parameters::hideParam<TypeTag, Parameters::MaxTimeStepSize>();
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Parameters::hideParam<TypeTag, Parameters::MinTimeStepSize>();
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Parameters::hideParam<TypeTag, Parameters::PredeterminedTimeStepsFile>();
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// flow also does not use the eWoms Newton method
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Parameters::hideParam<TypeTag, Parameters::NewtonMaxError>();
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Parameters::hideParam<TypeTag, Parameters::NewtonTolerance>();
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Parameters::hideParam<TypeTag, Parameters::NewtonTargetIterations>();
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Parameters::hideParam<TypeTag, Parameters::NewtonVerbose>();
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Parameters::hideParam<TypeTag, Parameters::NewtonWriteConvergence>();
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// the default eWoms checkpoint/restart mechanism does not work with flow
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Parameters::hideParam<TypeTag, Parameters::RestartTime>();
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Parameters::hideParam<TypeTag, Properties::RestartWritingInterval>();
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// hide all vtk related it is not currently possible to do this dependet on if the vtk writing is used
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//if(not(Parameters::get<TypeTag,Properties::EnableVtkOutput>())){
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Parameters::hideParam<TypeTag, Properties::VtkWriteOilFormationVolumeFactor>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteOilSaturationPressure>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteOilVaporizationFactor>();
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Parameters::hideParam<TypeTag, Properties::VtkWritePorosity>();
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Parameters::hideParam<TypeTag, Properties::VtkWritePotentialGradients>();
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Parameters::hideParam<TypeTag, Properties::VtkWritePressures>();
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Parameters::hideParam<TypeTag, Properties::VtkWritePrimaryVars>();
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Parameters::hideParam<TypeTag, Properties::VtkWritePrimaryVarsMeaning>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteProcessRank>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteRelativePermeabilities>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteSaturatedGasOilVaporizationFactor>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteSaturatedOilGasDissolutionFactor>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteSaturationRatios>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteSaturations>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteTemperature>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteViscosities>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteWaterFormationVolumeFactor>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteGasDissolutionFactor>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteGasFormationVolumeFactor>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteGasSaturationPressure>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteIntrinsicPermeabilities>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteTracerConcentration>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteExtrusionFactor>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteFilterVelocities>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteDensities>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteDofIndex>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteMobilities>();
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//}
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Parameters::hideParam<TypeTag, Properties::VtkWriteAverageMolarMasses>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteFugacities>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteFugacityCoeffs>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteMassFractions>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteMolarities>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteMoleFractions>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteTotalMassFractions>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteTotalMoleFractions>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteTortuosities>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteDiffusionCoefficients>();
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Parameters::hideParam<TypeTag, Properties::VtkWriteEffectiveDiffusionCoefficients>();
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// hide average density option
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Parameters::hideParam<TypeTag, Properties::UseAverageDensityMsWells>();
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Parameters::endParamRegistration<TypeTag>();
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int mpiRank = comm.rank();
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// read in the command line parameters
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int status = ::Opm::setupParameters_<TypeTag>(argc, const_cast<const char**>(argv), /*doRegistration=*/false, /*allowUnused=*/true, /*handleHelp=*/(mpiRank==0));
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if (status == 0) {
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// deal with unknown parameters.
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int unknownKeyWords = 0;
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if (mpiRank == 0) {
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unknownKeyWords = Parameters::printUnused<TypeTag>(std::cerr);
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}
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int globalUnknownKeyWords = comm.sum(unknownKeyWords);
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unknownKeyWords = globalUnknownKeyWords;
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if ( unknownKeyWords )
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{
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if ( mpiRank == 0 )
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{
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std::string msg = "Aborting simulation due to unknown "
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"parameters. Please query \"flow --help\" for "
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"supported command line parameters.";
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if (OpmLog::hasBackend("STREAMLOG"))
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{
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OpmLog::error(msg);
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}
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else {
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std::cerr << msg << std::endl;
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}
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}
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return EXIT_FAILURE;
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}
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// deal with --print-properties and --print-parameters and unknown parameters.
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bool doExit = false;
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if (Parameters::get<TypeTag, Parameters::PrintProperties>() == 1) {
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doExit = true;
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if (mpiRank == 0)
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Properties::printValues<TypeTag>(std::cout);
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}
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if (Parameters::get<TypeTag, Parameters::PrintParameters>() == 1) {
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doExit = true;
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if (mpiRank == 0)
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Parameters::printValues<TypeTag>();
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}
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if (doExit)
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return -1;
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}
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return status;
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}
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/// This is the main function of Flow. It runs a complete simulation with the
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/// given grid and simulator classes, based on the user-specified command-line
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/// input.
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int execute()
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{
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return execute_(&FlowMain::runSimulator, /*cleanup=*/true);
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}
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int executeInitStep()
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{
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return execute_(&FlowMain::runSimulatorInit, /*cleanup=*/false);
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}
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// Returns true unless "EXIT" was encountered in the schedule
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// section of the input datafile.
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int executeStep()
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{
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return simulator_->runStep(*simtimer_);
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}
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// Called from Python to cleanup after having executed the last
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// executeStep()
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int executeStepsCleanup()
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{
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SimulatorReport report = simulator_->finalize();
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runSimulatorAfterSim_(report);
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return report.success.exit_status;
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}
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ModelSimulator* getSimulatorPtr()
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{
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return modelSimulator_.get();
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}
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SimulatorTimer* getSimTimer()
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{
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return simtimer_.get();
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}
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/// Get the size of the previous report step
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double getPreviousReportStepSize()
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{
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return simtimer_->stepLengthTaken();
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}
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private:
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// called by execute() or executeInitStep()
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int execute_(int (FlowMain::* runOrInitFunc)(), bool cleanup)
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{
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auto logger = [this](const std::exception& e, const std::string& message_start) {
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std::ostringstream message;
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message << message_start << e.what();
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if (this->output_cout_) {
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// in some cases exceptions are thrown before the logging system is set
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// up.
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if (OpmLog::hasBackend("STREAMLOG")) {
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OpmLog::error(message.str());
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}
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else {
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std::cout << message.str() << "\n";
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}
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}
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detail::checkAllMPIProcesses();
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return EXIT_FAILURE;
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};
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try {
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// deal with some administrative boilerplate
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Dune::Timer setupTimerAfterReadingDeck;
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setupTimerAfterReadingDeck.start();
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int status = setupParameters_(this->argc_, this->argv_, FlowGenericVanguard::comm());
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if (status) {
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return status;
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}
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setupParallelism();
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setupModelSimulator();
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createSimulator();
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this->deck_read_time_ = modelSimulator_->vanguard().setupTime();
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this->total_setup_time_ = setupTimerAfterReadingDeck.elapsed() + this->deck_read_time_;
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// if run, do the actual work, else just initialize
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int exitCode = (this->*runOrInitFunc)();
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if (cleanup) {
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executeCleanup_();
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}
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return exitCode;
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}
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catch (const TimeSteppingBreakdown& e) {
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auto exitCode = logger(e, "Simulation aborted: ");
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executeCleanup_();
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return exitCode;
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}
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catch (const std::exception& e) {
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auto exitCode = logger(e, "Simulation aborted as program threw an unexpected exception: ");
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executeCleanup_();
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return exitCode;
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}
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}
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void executeCleanup_() {
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// clean up
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mergeParallelLogFiles();
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}
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protected:
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void setupParallelism()
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{
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// determine the rank of the current process and the number of processes
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// involved in the simulation. MPI must have already been initialized
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// here. (yes, the name of this method is misleading.)
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auto comm = FlowGenericVanguard::comm();
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mpi_rank_ = comm.rank();
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mpi_size_ = comm.size();
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#if _OPENMP
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// if openMP is available, default to 2 threads per process unless
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// OMP_NUM_THREADS is set or command line --threads-per-process used
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if (!getenv("OMP_NUM_THREADS"))
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{
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int threads = 2;
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const int requested_threads = Parameters::get<TypeTag, Parameters::ThreadsPerProcess>();
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if (requested_threads > 0)
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threads = requested_threads;
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// We are not limiting this to the number of processes
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// reported by OpenMP as on some hardware (and some OpenMPI
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// versions) this will be 1 when run with mpirun
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omp_set_num_threads(threads);
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}
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#endif
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using ThreadManager = GetPropType<TypeTag, Properties::ThreadManager>;
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ThreadManager::init(false);
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}
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void mergeParallelLogFiles()
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{
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// force closing of all log files.
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OpmLog::removeAllBackends();
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if (mpi_rank_ != 0 || mpi_size_ < 2 || !this->output_files_ || !modelSimulator_) {
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return;
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}
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detail::mergeParallelLogFiles(eclState().getIOConfig().getOutputDir(),
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Parameters::get<TypeTag, Properties::EclDeckFileName>(),
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Parameters::get<TypeTag, Properties::EnableLoggingFalloutWarning>());
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}
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void setupModelSimulator()
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{
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modelSimulator_ = std::make_unique<ModelSimulator>(FlowGenericVanguard::comm(), /*verbose=*/false);
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modelSimulator_->executionTimer().start();
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modelSimulator_->model().applyInitialSolution();
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try {
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// Possible to force initialization only behavior (NOSIM).
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const std::string& dryRunString = Parameters::get<TypeTag, Properties::EnableDryRun>();
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if (dryRunString != "" && dryRunString != "auto") {
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bool yesno;
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if (dryRunString == "true"
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|| dryRunString == "t"
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|| dryRunString == "1")
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yesno = true;
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else if (dryRunString == "false"
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|| dryRunString == "f"
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|| dryRunString == "0")
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yesno = false;
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else
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throw std::invalid_argument("Invalid value for parameter EnableDryRun: '"
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+dryRunString+"'");
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auto& ioConfig = eclState().getIOConfig();
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ioConfig.overrideNOSIM(yesno);
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}
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}
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catch (const std::invalid_argument& e) {
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std::cerr << "Failed to create valid EclipseState object" << std::endl;
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std::cerr << "Exception caught: " << e.what() << std::endl;
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throw;
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}
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}
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const EclipseState& eclState() const
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{ return modelSimulator_->vanguard().eclState(); }
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EclipseState& eclState()
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{ return modelSimulator_->vanguard().eclState(); }
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const Schedule& schedule() const
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{ return modelSimulator_->vanguard().schedule(); }
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// Run the simulator.
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int runSimulator()
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{
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return runSimulatorInitOrRun_(&FlowMain::runSimulatorRunCallback_);
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}
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int runSimulatorInit()
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{
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return runSimulatorInitOrRun_(&FlowMain::runSimulatorInitCallback_);
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}
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private:
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// Callback that will be called from runSimulatorInitOrRun_().
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int runSimulatorRunCallback_()
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{
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SimulatorReport report = simulator_->run(*simtimer_);
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runSimulatorAfterSim_(report);
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return report.success.exit_status;
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}
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// Callback that will be called from runSimulatorInitOrRun_().
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int runSimulatorInitCallback_()
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{
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simulator_->init(*simtimer_);
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return EXIT_SUCCESS;
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}
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// Output summary after simulation has completed
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void runSimulatorAfterSim_(SimulatorReport &report)
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{
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if (! this->output_cout_) {
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return;
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}
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const int threads
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#if !defined(_OPENMP) || !_OPENMP
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= 1;
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#else
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= omp_get_max_threads();
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#endif
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printFlowTrailer(mpi_size_, threads, total_setup_time_, deck_read_time_, report, simulator_->model().localAccumulatedReports());
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detail::handleExtraConvergenceOutput(report,
|
|
Parameters::get<TypeTag, Properties::OutputExtraConvergenceInfo>(),
|
|
R"(OutputExtraConvergenceInfo (--output-extra-convergence-info))",
|
|
eclState().getIOConfig().getOutputDir(),
|
|
eclState().getIOConfig().getBaseName());
|
|
}
|
|
|
|
// Run the simulator.
|
|
int runSimulatorInitOrRun_(int (FlowMain::* initOrRunFunc)())
|
|
{
|
|
|
|
const auto& schedule = this->schedule();
|
|
auto& ioConfig = eclState().getIOConfig();
|
|
simtimer_ = std::make_unique<SimulatorTimer>();
|
|
|
|
// initialize variables
|
|
const auto& initConfig = eclState().getInitConfig();
|
|
simtimer_->init(schedule, static_cast<std::size_t>(initConfig.getRestartStep()));
|
|
|
|
if (this->output_cout_) {
|
|
std::ostringstream oss;
|
|
|
|
// This allows a user to catch typos and misunderstandings in the
|
|
// use of simulator parameters.
|
|
if (Parameters::printUnused<TypeTag>(oss)) {
|
|
std::cout << "----------------- Unrecognized parameters: -----------------\n";
|
|
std::cout << oss.str();
|
|
std::cout << "----------------------------------------------------------------" << std::endl;
|
|
}
|
|
}
|
|
|
|
if (!ioConfig.initOnly()) {
|
|
if (this->output_cout_) {
|
|
std::string msg;
|
|
msg = "\n\n================ Starting main simulation loop ===============\n";
|
|
OpmLog::info(msg);
|
|
}
|
|
|
|
return (this->*initOrRunFunc)();
|
|
}
|
|
else {
|
|
if (this->output_cout_) {
|
|
std::cout << "\n\n================ Simulation turned off ===============\n" << std::flush;
|
|
}
|
|
return EXIT_SUCCESS;
|
|
}
|
|
}
|
|
|
|
protected:
|
|
|
|
/// This is the main function of Flow.
|
|
// Create simulator instance.
|
|
// Writes to:
|
|
// simulator_
|
|
void createSimulator()
|
|
{
|
|
// Create the simulator instance.
|
|
simulator_ = std::make_unique<Simulator>(*modelSimulator_);
|
|
}
|
|
|
|
Grid& grid()
|
|
{ return modelSimulator_->vanguard().grid(); }
|
|
|
|
private:
|
|
std::unique_ptr<ModelSimulator> modelSimulator_;
|
|
int mpi_rank_ = 0;
|
|
int mpi_size_ = 1;
|
|
std::any parallel_information_;
|
|
std::unique_ptr<Simulator> simulator_;
|
|
std::unique_ptr<SimulatorTimer> simtimer_;
|
|
int argc_;
|
|
char **argv_;
|
|
bool output_cout_;
|
|
bool output_files_;
|
|
double total_setup_time_ = 0.0;
|
|
double deck_read_time_ = 0.0;
|
|
};
|
|
|
|
} // namespace Opm
|
|
|
|
#endif // OPM_FLOW_MAIN_HEADER_INCLUDED
|