opm-simulators/tests/test_glift1.cpp

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// -*- mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
// vi: set et ts=4 sw=4 sts=4:
/*
This file is part of the Open Porous Media project (OPM).
OPM is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
OPM is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with OPM. If not, see <http://www.gnu.org/licenses/>.
Consult the COPYING file in the top-level source directory of this
module for the precise wording of the license and the list of
copyright holders.
*/
#include "config.h"
#define BOOST_TEST_MODULE Glift1
#include <opm/models/utils/propertysystem.hh>
#include <opm/models/utils/parametersystem.hh>
#include <ebos/equil/equilibrationhelpers.hh>
#include <ebos/eclproblem.hh>
#include <ebos/ebos.hh>
#include <opm/models/utils/start.hh>
#include <opm/input/eclipse/EclipseState/SummaryConfig/SummaryConfig.hpp>
#include <opm/input/eclipse/Schedule/Schedule.hpp>
#include <opm/input/eclipse/Schedule/Well/Well.hpp>
#include <opm/simulators/utils/DeferredLogger.hpp>
#include <opm/simulators/flow/BlackoilModelEbos.hpp>
#include <opm/simulators/wells/BlackoilWellModel.hpp>
#include <opm/simulators/wells/StandardWell.hpp>
#include <opm/simulators/wells/GasLiftSingleWell.hpp>
#include <opm/simulators/wells/GasLiftSingleWellGeneric.hpp>
#include <opm/simulators/wells/GasLiftGroupInfo.hpp>
#include <opm/simulators/wells/WellState.hpp>
#if HAVE_DUNE_FEM
#include <dune/fem/misc/mpimanager.hh>
#else
#include <dune/common/parallel/mpihelper.hh>
#endif
#include <exception>
#include <iostream>
#include <memory>
#include <optional>
#include <string>
#include <vector>
#include <boost/test/unit_test.hpp>
#include <boost/version.hpp>
#if BOOST_VERSION / 100000 == 1 && BOOST_VERSION / 100 % 1000 < 71
#include <boost/test/floating_point_comparison.hpp>
#else
#include <boost/test/tools/floating_point_comparison.hpp>
#endif
namespace Opm::Properties {
namespace TTag {
struct TestGliftTypeTag {
using InheritsFrom = std::tuple<EbosTypeTag, FlowTimeSteppingParameters>;
};
}
}
template <class TypeTag>
std::unique_ptr<Opm::GetPropType<TypeTag, Opm::Properties::Simulator>>
initSimulator(const char *filename)
{
using Simulator = Opm::GetPropType<TypeTag, Opm::Properties::Simulator>;
std::string filename_arg = "--ecl-deck-file-name=";
filename_arg += filename;
const char* argv[] = {
"test_equil",
filename_arg.c_str()
};
Opm::AdaptiveTimeSteppingEbos<TypeTag>::registerParameters();
Opm::setupParameters_<TypeTag>(/*argc=*/sizeof(argv)/sizeof(argv[0]), argv, /*registerParams=*/true);
Opm::EclGenericVanguard::readDeck(filename);
return std::make_unique<Simulator>();
}
namespace {
struct GliftFixture {
GliftFixture() {
int argc = boost::unit_test::framework::master_test_suite().argc;
char** argv = boost::unit_test::framework::master_test_suite().argv;
#if HAVE_DUNE_FEM
Dune::Fem::MPIManager::initialize(argc, argv);
#else
Dune::MPIHelper::instance(argc, argv);
#endif
Opm::EclGenericVanguard::setCommunication(std::make_unique<Opm::Parallel::Communication>());
using TypeTag = Opm::Properties::TTag::EclFlowProblem;
Opm::registerAllParameters_<TypeTag>();
}
};
}
BOOST_GLOBAL_FIXTURE(GliftFixture);
BOOST_AUTO_TEST_CASE(G1)
{
//using TypeTag = Opm::Properties::TTag::EclFlowProblem;
using TypeTag = Opm::Properties::TTag::TestGliftTypeTag;
//using EclProblem = Opm::EclProblem<TypeTag>;
//using EclWellModel = typename EclProblem::EclWellModel;
using WellModel = Opm::BlackoilWellModel<TypeTag>;
using WellState = Opm::WellState;
using StdWell = Opm::StandardWell<TypeTag>;
using GasLiftSingleWell = Opm::GasLiftSingleWell<TypeTag>;
using GasLiftGroupInfo = Opm::GasLiftGroupInfo;
using GasLiftSingleWellGeneric = Opm::GasLiftSingleWellGeneric;
using GLiftEclWells = typename GasLiftGroupInfo::GLiftEclWells;
const std::string filename = "GLIFT1.DATA";
using GLiftSyncGroups = typename GasLiftSingleWellGeneric::GLiftSyncGroups;
auto simulator = initSimulator<TypeTag>(filename.data());
simulator->model().applyInitialSolution();
simulator->setEpisodeIndex(-1);
simulator->setEpisodeLength(0.0);
simulator->startNextEpisode(/*episodeStartTime=*/0.0, /*episodeLength=*/1e30);
simulator->setTimeStepSize(43200); // 12 hours
simulator->model().newtonMethod().setIterationIndex(0);
WellModel& well_model = simulator->problem().wellModel();
int report_step_idx = 0;
well_model.beginReportStep(report_step_idx);
well_model.beginTimeStep();
Opm::DeferredLogger deferred_logger;
well_model.calculateExplicitQuantities(deferred_logger);
well_model.prepareTimeStep(deferred_logger);
well_model.updateWellControls(false, deferred_logger);
well_model.initPrimaryVariablesEvaluation();
Opm::WellInterface<TypeTag> *well_ptr = well_model.getWell("B-1H").get();
StdWell *std_well = dynamic_cast<StdWell *>(well_ptr);
const auto& schedule = simulator->vanguard().schedule();
auto wells_ecl = schedule.getWells(report_step_idx);
std::optional<std::size_t> idx;
int num_producers = 0;
for(std::size_t i = 0; i < wells_ecl.size(); ++i) {
const auto &well = wells_ecl[i];
if (well.isProducer()) {
idx = i;
num_producers++;
}
}
BOOST_CHECK_EQUAL( num_producers, 1);
const auto &well = wells_ecl[*idx];
BOOST_CHECK_EQUAL( well.name(), "B-1H");
const auto& summary_state = simulator->vanguard().summaryState();
WellState &well_state = well_model.wellState();
const auto &group_state = well_model.groupState();
GLiftEclWells ecl_well_map;
well_model.initGliftEclWellMap(ecl_well_map);
const int iteration_idx = simulator->model().newtonMethod().numIterations();
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const auto& comm = simulator->vanguard().grid().comm();
GasLiftGroupInfo group_info {
ecl_well_map,
schedule,
summary_state,
simulator->episodeIndex(),
iteration_idx,
well_model.phaseUsage(),
deferred_logger,
well_state,
group_state,
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comm,
Improve debugging tools in gaslift code. Introduces a gaslift debugging variable in ALQState in WellState. This variable will persist between timesteps in contrast to when debugging variables are defined in GasLiftSingleWell, GasLiftGroupState, or GasLiftStage2. Currently only an integer variable debug_counter is added to ALQState, which can be used as follows: First debugging is switched on globally for BlackOilWellModel, GasLiftSingleWell, GasLiftGroupState, and GasLiftStage2 by setting glift_debug to a true value in BlackOilWellModelGeneric. Then, the following debugging code can be added to e.g. one of GasLiftSingleWell, GasLiftGroupState, or GasLiftStage2 : auto count = debugUpdateGlobalCounter_(); if (count == some_integer) { displayDebugMessage_("stop here"); } Here, the integer "some_integer" is determined typically by looking at the debugging output of a previous run. This can be done since the call to debugUpdateGlobalCounter_() will print out the current value of the counter and then increment the counter by one. And it will be easy to recognize these values in the debug ouput. If you find a place in the output that looks suspect, just take a note of the counter value in the output around that point and insert the value for "some_integer", then after recompiling the code with the desired value for "some_integer", it is now easy to set a breakpoint in GDB at the line displayDebugMessage_("stop here"). shown in the above snippet. This should improve the ability to quickly to set a breakpoint in GDB around at a given time and point in the simulation.
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/*glift_debug=*/false
};
GLiftSyncGroups sync_groups;
GasLiftSingleWell glift {*std_well, *(simulator.get()), summary_state,
Improve debugging tools in gaslift code. Introduces a gaslift debugging variable in ALQState in WellState. This variable will persist between timesteps in contrast to when debugging variables are defined in GasLiftSingleWell, GasLiftGroupState, or GasLiftStage2. Currently only an integer variable debug_counter is added to ALQState, which can be used as follows: First debugging is switched on globally for BlackOilWellModel, GasLiftSingleWell, GasLiftGroupState, and GasLiftStage2 by setting glift_debug to a true value in BlackOilWellModelGeneric. Then, the following debugging code can be added to e.g. one of GasLiftSingleWell, GasLiftGroupState, or GasLiftStage2 : auto count = debugUpdateGlobalCounter_(); if (count == some_integer) { displayDebugMessage_("stop here"); } Here, the integer "some_integer" is determined typically by looking at the debugging output of a previous run. This can be done since the call to debugUpdateGlobalCounter_() will print out the current value of the counter and then increment the counter by one. And it will be easy to recognize these values in the debug ouput. If you find a place in the output that looks suspect, just take a note of the counter value in the output around that point and insert the value for "some_integer", then after recompiling the code with the desired value for "some_integer", it is now easy to set a breakpoint in GDB at the line displayDebugMessage_("stop here"). shown in the above snippet. This should improve the ability to quickly to set a breakpoint in GDB around at a given time and point in the simulation.
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deferred_logger, well_state, group_state, group_info, sync_groups,
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comm, /*glift_debug=*/false
Improve debugging tools in gaslift code. Introduces a gaslift debugging variable in ALQState in WellState. This variable will persist between timesteps in contrast to when debugging variables are defined in GasLiftSingleWell, GasLiftGroupState, or GasLiftStage2. Currently only an integer variable debug_counter is added to ALQState, which can be used as follows: First debugging is switched on globally for BlackOilWellModel, GasLiftSingleWell, GasLiftGroupState, and GasLiftStage2 by setting glift_debug to a true value in BlackOilWellModelGeneric. Then, the following debugging code can be added to e.g. one of GasLiftSingleWell, GasLiftGroupState, or GasLiftStage2 : auto count = debugUpdateGlobalCounter_(); if (count == some_integer) { displayDebugMessage_("stop here"); } Here, the integer "some_integer" is determined typically by looking at the debugging output of a previous run. This can be done since the call to debugUpdateGlobalCounter_() will print out the current value of the counter and then increment the counter by one. And it will be easy to recognize these values in the debug ouput. If you find a place in the output that looks suspect, just take a note of the counter value in the output around that point and insert the value for "some_integer", then after recompiling the code with the desired value for "some_integer", it is now easy to set a breakpoint in GDB at the line displayDebugMessage_("stop here"). shown in the above snippet. This should improve the ability to quickly to set a breakpoint in GDB around at a given time and point in the simulation.
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};
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group_info.initialize();
auto state = glift.runOptimize(iteration_idx);
BOOST_CHECK_CLOSE(state->oilRate(), 0.01736111111111111, 1e-8);
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BOOST_CHECK_CLOSE(state->gasRate(), 1.6464, 1e-3);
BOOST_CHECK(state->oilIsLimited());
BOOST_CHECK(!state->gasIsLimited());
BOOST_CHECK(!state->alqIsLimited());
BOOST_CHECK_CLOSE(state->alq(), 0.0, 1e-8);
BOOST_CHECK(!state->increase().has_value());
}