mirror of
https://github.com/OPM/opm-simulators.git
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546 lines
20 KiB
C++
546 lines
20 KiB
C++
/*
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Copyright 2019 SINTEF Digital, Mathematics and Cybernetics.
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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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#include <config.h>
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#include "TestTypeTag.hpp"
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#include <opm/common/utility/Serializer.hpp>
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#include <opm/input/eclipse/Schedule/Action/State.hpp>
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#include <opm/input/eclipse/EclipseState/SummaryConfig/SummaryConfig.hpp>
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#include <opm/input/eclipse/Schedule/SummaryState.hpp>
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#include <opm/input/eclipse/Schedule/UDQ/UDQState.hpp>
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#include <opm/output/eclipse/Inplace.hpp>
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#include <opm/input/eclipse/EclipseState/WagHysteresisConfig.hpp>
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#include <opm/material/fluidmatrixinteractions/EclHysteresisTwoPhaseLawParams.hpp>
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#include <opm/models/blackoil/blackoilprimaryvariables.hh>
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#include <opm/simulators/flow/FemCpGridCompat.hpp>
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#include <opm/simulators/flow/FlowGenericVanguard.hpp>
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#include <opm/simulators/flow/FlowProblem.hpp>
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#include <opm/simulators/timestepping/AdaptiveTimeStepping.hpp>
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#include <opm/simulators/timestepping/SimulatorReport.hpp>
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#include <opm/simulators/timestepping/SimulatorTimer.hpp>
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#include <opm/simulators/timestepping/TimeStepControl.hpp>
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#include <opm/simulators/utils/SerializationPackers.hpp>
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#include <opm/simulators/wells/ALQState.hpp>
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#include <opm/simulators/wells/BlackoilWellModelGeneric.hpp>
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#include <opm/simulators/wells/GroupState.hpp>
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#include <opm/simulators/wells/PerfData.hpp>
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#include <opm/simulators/wells/SegmentState.hpp>
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#include <opm/simulators/wells/SingleWellState.hpp>
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#define BOOST_TEST_MODULE TestRestartSerialization
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#define BOOST_TEST_NO_MAIN
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#include <boost/date_time/gregorian/gregorian.hpp>
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#include <boost/test/unit_test.hpp>
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#include <algorithm>
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namespace Opm::Properties {
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namespace TTag {
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struct TestRestartTypeTag {
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using InheritsFrom = std::tuple<TestTypeTag, FlowTimeSteppingParameters>;
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};
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}
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template<>
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struct LinearSolverBackend<TTag::TestRestartTypeTag, TTag::FlowIstlSolverParams> {
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using type = ISTLSolver<TTag::TestRestartTypeTag>;
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};
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}
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template<class T>
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std::tuple<T,int,int> PackUnpack(T& in)
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{
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Opm::Serialization::MemPacker packer;
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Opm::Serializer ser(packer);
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ser.pack(in);
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const size_t pos1 = ser.position();
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T out{};
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ser.unpack(out);
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const size_t pos2 = ser.position();
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return std::make_tuple(std::move(out), pos1, pos2);
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}
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#define TEST_FOR_TYPE_NAMED_OBJ(TYPE, NAME, OBJ) \
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BOOST_AUTO_TEST_CASE(NAME) \
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{ \
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auto val1 = Opm::TYPE::OBJ(); \
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auto val2 = PackUnpack(val1); \
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BOOST_CHECK_MESSAGE(std::get<1>(val2) == std::get<2>(val2), "Packed size differ from unpack size for " #TYPE); \
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BOOST_CHECK_MESSAGE(val1 == std::get<0>(val2), "Deserialized " #TYPE " differ"); \
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}
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#define TEST_FOR_TYPE_NAMED(TYPE, NAME) \
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TEST_FOR_TYPE_NAMED_OBJ(TYPE, NAME, serializationTestObject)
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#define TEST_FOR_TYPE(TYPE) \
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TEST_FOR_TYPE_NAMED(TYPE, TYPE)
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namespace Opm { using ALQS = ALQState<double>; }
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TEST_FOR_TYPE_NAMED(ALQS, ALQState)
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namespace Opm { using GroupS = GroupState<double>; }
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TEST_FOR_TYPE_NAMED(GroupS, GroupState)
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TEST_FOR_TYPE(HardcodedTimeStepControl)
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TEST_FOR_TYPE(Inplace)
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namespace Opm { using PerfD = PerfData<double>; }
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TEST_FOR_TYPE_NAMED(PerfD, PerfData)
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TEST_FOR_TYPE(PIDAndIterationCountTimeStepControl)
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TEST_FOR_TYPE(PIDTimeStepControl)
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namespace Opm { using SegmState = SegmentState<double>; }
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TEST_FOR_TYPE_NAMED(SegmState, SegmentState)
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TEST_FOR_TYPE(SimpleIterationCountTimeStepControl)
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TEST_FOR_TYPE(SimulatorReport)
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TEST_FOR_TYPE(SimulatorReportSingle)
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TEST_FOR_TYPE(SimulatorTimer)
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namespace Opm { using ATS = AdaptiveTimeStepping<Properties::TTag::TestTypeTag>; }
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TEST_FOR_TYPE_NAMED_OBJ(ATS, AdaptiveTimeSteppingHardcoded, serializationTestObjectHardcoded)
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TEST_FOR_TYPE_NAMED_OBJ(ATS, AdaptiveTimeSteppingPID, serializationTestObjectPID)
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TEST_FOR_TYPE_NAMED_OBJ(ATS, AdaptiveTimeSteppingPIDIt, serializationTestObjectPIDIt)
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TEST_FOR_TYPE_NAMED_OBJ(ATS, AdaptiveTimeSteppingSimple, serializationTestObjectSimple)
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namespace Opm { using BPV = BlackOilPrimaryVariables<Properties::TTag::TestTypeTag>; }
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TEST_FOR_TYPE_NAMED(BPV, BlackoilPrimaryVariables)
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namespace Opm {
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struct DummyMaterial {
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struct Params {
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struct Traits {
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using Scalar = double;
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};
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};
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};
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using HystParam = EclHysteresisTwoPhaseLawParams<DummyMaterial>;
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}
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TEST_FOR_TYPE_NAMED(HystParam, EclHysteresisTwoPhaseLawParams)
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namespace Opm {
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using Disc = Opm::FvBaseDiscretization<Opm::Properties::TTag::TestTypeTag>;
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using BVec = typename Disc::BlockVectorWrapper;
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}
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TEST_FOR_TYPE_NAMED(BVec, BlockVectorWrapper)
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BOOST_AUTO_TEST_CASE(SingleWellState)
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{
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Opm::ParallelWellInfo dummy;
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auto data_out = Opm::SingleWellState<double>::serializationTestObject(dummy);
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Opm::Serialization::MemPacker packer;
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Opm::Serializer ser(packer);
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ser.pack(data_out);
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const size_t pos1 = ser.position();
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decltype(data_out) data_in("", dummy, false, 0.0, {}, Opm::PhaseUsage{}, 0.0);
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ser.unpack(data_in);
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const size_t pos2 = ser.position();
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BOOST_CHECK_MESSAGE(pos1 == pos2, "Packed size differ from unpack size for SingleWellState");
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BOOST_CHECK_MESSAGE(data_out == data_in, "Deserialized SingleWellState differ");
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}
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BOOST_AUTO_TEST_CASE(WellContainer)
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{
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auto data_out = Opm::WellContainer<double>::serializationTestObject(1.0);
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Opm::Serialization::MemPacker packer;
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Opm::Serializer ser(packer);
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ser.pack(data_out);
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const size_t pos1 = ser.position();
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decltype(data_out) data_in;
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ser.unpack(data_in);
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const size_t pos2 = ser.position();
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BOOST_CHECK_MESSAGE(pos1 == pos2, "Packed size differ from unpack size for WellContainer");
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BOOST_CHECK_MESSAGE(data_out == data_in, "Deserialized WellContainer differ");
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}
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BOOST_AUTO_TEST_CASE(WellState)
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{
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Opm::ParallelWellInfo dummy;
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auto data_out = Opm::WellState<double>::serializationTestObject(dummy);
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Opm::Serialization::MemPacker packer;
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Opm::Serializer ser(packer);
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ser.pack(data_out);
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const size_t pos1 = ser.position();
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decltype(data_out) data_in(dummy);
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ser.unpack(data_in);
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const size_t pos2 = ser.position();
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BOOST_CHECK_MESSAGE(pos1 == pos2, "Packed size differ from unpack size for WellState");
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BOOST_CHECK_MESSAGE(data_out == data_in, "Deserialized WellState differ");
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}
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BOOST_AUTO_TEST_CASE(WGState)
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{
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Opm::ParallelWellInfo dummy;
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auto data_out = Opm::WGState<double>::serializationTestObject(dummy);
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Opm::Serialization::MemPacker packer;
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Opm::Serializer ser(packer);
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ser.pack(data_out);
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const size_t pos1 = ser.position();
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decltype(data_out) data_in(Opm::PhaseUsage{});
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data_in.well_state = Opm::WellState<double>(dummy);
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ser.unpack(data_in);
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const size_t pos2 = ser.position();
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BOOST_CHECK_MESSAGE(pos1 == pos2, "Packed size differ from unpack size for WGState");
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BOOST_CHECK_MESSAGE(data_out == data_in, "Deserialized WGState differ");
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}
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BOOST_AUTO_TEST_CASE(EclGenericVanguard)
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{
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auto in_params = Opm::FlowGenericVanguard::serializationTestParams();
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Opm::FlowGenericVanguard val1(std::move(in_params));
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Opm::Serialization::MemPacker packer;
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Opm::Serializer ser(packer);
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ser.pack(val1);
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const size_t pos1 = ser.position();
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Opm::FlowGenericVanguard::SimulationModelParams out_params;
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out_params.setupTime_ = 0.0;
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out_params.actionState_ = std::make_unique<Opm::Action::State>();
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out_params.udqState_ = std::make_unique<Opm::UDQState>();
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out_params.eclSchedule_ = std::make_shared<Opm::Schedule>();
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out_params.summaryState_ = std::make_unique<Opm::SummaryState>();
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Opm::FlowGenericVanguard val2(std::move(out_params));
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ser.unpack(val2);
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const size_t pos2 = ser.position();
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BOOST_CHECK_MESSAGE(pos1 == pos2, "Packed size differ from unpack size for FlowGenericVanguard");
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BOOST_CHECK_MESSAGE(val1 == val2, "Deserialized FlowGenericVanguard differ");
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}
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BOOST_AUTO_TEST_CASE(EclGenericProblem)
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{
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Opm::EclipseState eclState;
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Opm::Schedule schedule;
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Dune::CpGrid grid;
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#if HAVE_DUNE_FEM
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using GridPart = Dune::Fem::AdaptiveLeafGridPart<Dune::CpGrid, Dune::PartitionIteratorType(4), false>;
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using GridView = Dune::GridView<Dune::Fem::GridPart2GridViewTraits<GridPart>>;
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auto gridPart = GridPart(grid);
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auto gridView = GridView(static_cast<GridView>(gridPart));
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#else
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using GridView = Dune::GridView<Dune::DefaultLeafGridViewTraits<Dune::CpGrid>>;
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auto gridView = grid.leafGridView();
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#endif // HAVE_DUNE_FEM
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auto data_out
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= Opm::FlowGenericProblem<GridView, Opm::BlackOilFluidSystem<double, Opm::BlackOilDefaultIndexTraits>>::
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serializationTestObject(eclState, schedule, gridView);
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Opm::Serialization::MemPacker packer;
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Opm::Serializer ser(packer);
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ser.pack(data_out);
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const size_t pos1 = ser.position();
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decltype(data_out) data_in(eclState, schedule, gridView);
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ser.unpack(data_in);
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const size_t pos2 = ser.position();
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BOOST_CHECK_MESSAGE(pos1 == pos2, "Packed size differ from unpack size for EclGenericProblem");
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BOOST_CHECK_MESSAGE(data_out == data_in, "Deserialized EclGenericProblem differ");
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}
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namespace Opm {
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class BlackoilWellModelGenericTest : public BlackoilWellModelGeneric
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{
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public:
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BlackoilWellModelGenericTest(Schedule& schedule,
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const SummaryState& summaryState,
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const EclipseState& eclState,
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const PhaseUsage& phase_usage,
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const Parallel::Communication& comm,
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bool deserialize)
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: BlackoilWellModelGeneric(schedule, summaryState,
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eclState, phase_usage, comm)
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{
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if (deserialize) {
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active_wgstate_.well_state = WellState<double>(dummy);
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last_valid_wgstate_.well_state = WellState<double>(dummy);
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nupcol_wgstate_.well_state = WellState<double>(dummy);
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}
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}
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void setSerializationTestData()
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{
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initial_step_ = true;
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report_step_starts_ = true;
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last_run_wellpi_ = 1;
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local_shut_wells_ = {2, 3};
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closed_this_step_ = {"test1", "test2"};
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guideRate_.setSerializationTestData();
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node_pressures_ = {{"test3", 4.0}};
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active_wgstate_ = WGState<double>::serializationTestObject(dummy);
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last_valid_wgstate_ = WGState<double>::serializationTestObject(dummy);
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nupcol_wgstate_ = WGState<double>::serializationTestObject(dummy);
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last_glift_opt_time_ = 5.0;
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switched_prod_groups_ = {{"test4", "test5"}};
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switched_inj_groups_ = {{{"test4", Phase::SOLVENT}, "test5"}};
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closed_offending_wells_ = {{"test4", {"test5", "test6"}}};
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}
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void calcRates(const int, const int, const std::vector<double>&, std::vector<double>&) override
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{}
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void calcInjRates(const int, const int, std::vector<double>&) override
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{}
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void computePotentials(const std::size_t,
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const WellState<double>&,
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std::string&,
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ExceptionType::ExcEnum&,
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DeferredLogger&) override
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{}
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void createWellContainer(const int) override
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{}
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void initWellContainer(const int) override
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{}
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void calculateProductivityIndexValuesShutWells(const int,
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DeferredLogger&) override
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{}
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void calculateProductivityIndexValues(DeferredLogger&) override
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{}
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int compressedIndexForInterior(int) const override
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{
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return 0;
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}
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private:
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ParallelWellInfo dummy;
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};
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}
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BOOST_AUTO_TEST_CASE(BlackoilWellModelGeneric)
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{
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Opm::Schedule schedule{};
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Opm::SummaryState summaryState{};
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Opm::EclipseState eclState{};
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Opm::PhaseUsage phase_usage{};
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Opm::Parallel::Communication comm{};
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Opm::BlackoilWellModelGenericTest data_out(schedule, summaryState,
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eclState, phase_usage, comm, false);
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data_out.setSerializationTestData();
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Opm::Serialization::MemPacker packer;
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Opm::Serializer ser(packer);
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ser.pack(data_out);
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const size_t pos1 = ser.position();
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Opm::BlackoilWellModelGenericTest data_in(schedule, summaryState,
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eclState, phase_usage, comm, true);
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ser.unpack(data_in);
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const size_t pos2 = ser.position();
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BOOST_CHECK_MESSAGE(pos1 == pos2, "Packed size differ from unpack size for BlackoilWellModelGeneric");
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BOOST_CHECK_MESSAGE(data_out == data_in, "Deserialized BlackoilWellModelGeneric differ");
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}
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template<class Grid, class GridView, class DofMapper, class Stencil, class Scalar>
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class GenericTracerModelTest : public Opm::GenericTracerModel<Grid,GridView,DofMapper,Stencil,Scalar>
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{
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using Base = Opm::GenericTracerModel<Grid,GridView,DofMapper,Stencil,Scalar>;
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public:
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GenericTracerModelTest(const GridView& gridView,
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const Opm::EclipseState& eclState,
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const Dune::CartesianIndexMapper<Grid>& cartMapper,
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const DofMapper& dofMapper,
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const std::function<std::array<double,Grid::dimensionworld>(int)> centroids) :
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Base(gridView, eclState, cartMapper, dofMapper, centroids)
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{}
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static GenericTracerModelTest
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serializationTestObject(const GridView& gridView,
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const Opm::EclipseState& eclState,
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const Dune::CartesianIndexMapper<Grid>& cartMapper,
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const DofMapper& dofMapper,
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const std::function<std::array<double,Grid::dimensionworld>(int)> centroids)
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{
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GenericTracerModelTest result(gridView, eclState, cartMapper, dofMapper, centroids);
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result.tracerConcentration_ = {{1.0}, {2.0}, {3.0}};
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result.wellTracerRate_.insert({{"foo", "bar"}, 4.0});
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return result;
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}
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bool operator==(const GenericTracerModelTest& rhs) const
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{
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if (this->tracerConcentration_.size() != rhs.tracerConcentration_.size()) {
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return false;
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}
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for (size_t i = 0; i < this->tracerConcentration_.size(); ++i) {
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if (!std::equal(this->tracerConcentration_[i].begin(),
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this->tracerConcentration_[i].end(),
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rhs.tracerConcentration_[i].begin(),
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rhs.tracerConcentration_[i].end())) {
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return false;
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}
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}
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return this->wellTracerRate_ == rhs.wellTracerRate_;
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}
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};
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BOOST_AUTO_TEST_CASE(EclGenericTracerModel)
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{
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Dune::CpGrid grid;
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Opm::EclipseState eclState;
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Dune::CartesianIndexMapper<Dune::CpGrid> mapper(grid);
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auto centroids = [](int) { return std::array<double,Dune::CpGrid::dimensionworld>{}; };
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#if HAVE_DUNE_FEM
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using GridPart = Dune::Fem::AdaptiveLeafGridPart<Dune::CpGrid, Dune::PartitionIteratorType(4), false>;
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using GridView = Dune::GridView<Dune::Fem::GridPart2GridViewTraits<GridPart>>;
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auto gridPart = GridPart(grid);
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auto gridView = GridView(static_cast<GridView>(gridPart));
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#else
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using GridView = Dune::GridView<Dune::DefaultLeafGridViewTraits<Dune::CpGrid>>;
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auto gridView = grid.leafGridView();
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#endif // HAVE_DUNE_FEM
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Dune::MultipleCodimMultipleGeomTypeMapper<GridView> dofMapper(gridView, Dune::mcmgElementLayout());
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auto data_out = GenericTracerModelTest<Dune::CpGrid,
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GridView,
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Dune::MultipleCodimMultipleGeomTypeMapper<GridView>,
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Opm::EcfvStencil<double, GridView, false, false>,
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double>
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::serializationTestObject(gridView, eclState, mapper, dofMapper, centroids);
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Opm::Serialization::MemPacker packer;
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Opm::Serializer ser(packer);
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ser.pack(data_out);
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const size_t pos1 = ser.position();
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decltype(data_out) data_in(gridView, eclState, mapper, dofMapper, centroids);
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ser.unpack(data_in);
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const size_t pos2 = ser.position();
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BOOST_CHECK_MESSAGE(pos1 == pos2, "Packed size differ from unpack size for EclGenericTracerModel");
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BOOST_CHECK_MESSAGE(data_out == data_in, "Deserialized EclGenericTracerModel differ");
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}
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namespace Opm {
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class TBatchExport : public TracerModel<Properties::TTag::TestTypeTag> {
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public:
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using TBatch = TracerBatch<double>;
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};
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}
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TEST_FOR_TYPE_NAMED(TBatchExport::TBatch, TracerBatch)
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namespace {
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struct AquiferFixture {
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AquiferFixture() {
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using namespace Opm;
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using TT = Properties::TTag::TestRestartTypeTag;
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const char* argv[] = {
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"test_RestartSerialization",
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"--ecl-deck-file-name=GLIFT1.DATA"
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};
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AdaptiveTimeStepping<TT>::registerParameters();
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BlackoilModelParameters<TT>::registerParameters();
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Parameters::registerParam<TT, Properties::EnableTerminalOutput>("Do *NOT* use!");
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setupParameters_<TT>(2, argv, /*registerParams=*/true);
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FlowGenericVanguard::setCommunication(std::make_unique<Opm::Parallel::Communication>());
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}
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};
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}
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BOOST_GLOBAL_FIXTURE(AquiferFixture);
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#define TEST_FOR_AQUIFER(TYPE) \
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BOOST_AUTO_TEST_CASE(TYPE) \
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{ \
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using TT = Opm::Properties::TTag::TestRestartTypeTag; \
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Opm::FlowGenericVanguard::readDeck("GLIFT1.DATA"); \
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using Simulator = Opm::GetPropType<TT, Opm::Properties::Simulator>; \
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Simulator sim; \
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auto data_out = Opm::TYPE<TT>::serializationTestObject(sim); \
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Opm::Serialization::MemPacker packer; \
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Opm::Serializer ser(packer); \
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ser.pack(data_out); \
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const size_t pos1 = ser.position(); \
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decltype(data_out) data_in({}, sim, {}); \
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ser.unpack(data_in); \
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const size_t pos2 = ser.position(); \
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BOOST_CHECK_MESSAGE(pos1 == pos2, "Packed size differ from unpack size for " #TYPE); \
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BOOST_CHECK_MESSAGE(data_out == data_in, "Deserialized " #TYPE " differ"); \
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}
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TEST_FOR_AQUIFER(AquiferCarterTracy)
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TEST_FOR_AQUIFER(AquiferFetkovich)
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BOOST_AUTO_TEST_CASE(AquiferNumerical)
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{
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using TT = Opm::Properties::TTag::TestRestartTypeTag;
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Opm::FlowGenericVanguard::readDeck("GLIFT1.DATA");
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using Simulator = Opm::GetPropType<TT, Opm::Properties::Simulator>;
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Simulator sim;
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auto data_out = Opm::AquiferNumerical<TT>::serializationTestObject(sim);
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Opm::Serialization::MemPacker packer;
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Opm::Serializer ser(packer);
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ser.pack(data_out);
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const size_t pos1 = ser.position();
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decltype(data_out) data_in({}, sim);
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ser.unpack(data_in);
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const size_t pos2 = ser.position();
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BOOST_CHECK_MESSAGE(pos1 == pos2, "Packed size differ from unpack size for AquiferNumerical");
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BOOST_CHECK_MESSAGE(data_out == data_in, "Deserialized AquiferNumerical differ");
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}
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BOOST_AUTO_TEST_CASE(AquiferConstantFlux)
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{
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using TT = Opm::Properties::TTag::TestRestartTypeTag;
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Opm::FlowGenericVanguard::readDeck("GLIFT1.DATA");
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using Simulator = Opm::GetPropType<TT, Opm::Properties::Simulator>;
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Simulator sim;
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auto data_out = Opm::AquiferConstantFlux<TT>::serializationTestObject(sim);
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Opm::Serialization::MemPacker packer;
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Opm::Serializer ser(packer);
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ser.pack(data_out);
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const size_t pos1 = ser.position();
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decltype(data_out) data_in({}, sim, {});
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ser.unpack(data_in);
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const size_t pos2 = ser.position();
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BOOST_CHECK_MESSAGE(pos1 == pos2, "Packed size differ from unpack size for AquiferConstantFlux");
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BOOST_CHECK_MESSAGE(data_out == data_in, "Deserialized AquiferConstantFlux differ");
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}
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bool init_unit_test_func()
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{
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return true;
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}
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int main(int argc, char** argv)
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{
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// MPI setup.
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int argcDummy = 1;
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const char *tmp[] = {"test_RestartSerialization"};
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char **argvDummy = const_cast<char**>(tmp);
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#if HAVE_DUNE_FEM
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Dune::Fem::MPIManager::initialize(argcDummy, argvDummy);
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#else
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Dune::MPIHelper::instance(argcDummy, argvDummy);
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#endif
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return boost::unit_test::unit_test_main(&init_unit_test_func, argc, argv);
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}
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