opm-simulators/ebos/eclgenericvanguard.hh

368 lines
12 KiB
C++

// -*- 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 2 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.
*/
/*!
* \file
* \copydoc Opm::EclBaseVanguard
*/
#ifndef EWOMS_ECL_GENERIC_VANGUARD_HH
#define EWOMS_ECL_GENERIC_VANGUARD_HH
#include <opm/grid/common/GridEnums.hpp>
#include <opm/input/eclipse/Schedule/Well/WellTestState.hpp>
#include <opm/simulators/utils/ParallelCommunication.hpp>
#if DUNE_VERSION_NEWER(DUNE_COMMON, 2, 7)
#include <dune/common/parallel/communication.hh>
#else
#include <dune/common/parallel/collectivecommunication.hh>
#endif
#include <array>
#include <cassert>
#include <memory>
#include <optional>
#include <stdexcept>
#include <string>
#include <unordered_map>
#include <unordered_set>
#include <utility>
#include <vector>
namespace Opm {
namespace Action { class State; }
class Deck;
class EclipseState;
class ErrorGuard;
struct NumericalAquiferCell;
class ParseContext;
class Schedule;
class Python;
class SummaryConfig;
class SummaryState;
class UDQState;
class WellTestState;
class EclGenericVanguard {
public:
using ParallelWellStruct = std::vector<std::pair<std::string,bool>>;
/*!
* \brief Constructor.
* \details Needs to be in compile unit.
*/
EclGenericVanguard();
/*!
* \brief Destructor.
* \details Empty, but needs to be in compile unit.
*/
~EclGenericVanguard();
/*!
* \brief Returns the canonical path to a deck file.
*
* The input can either be the canonical deck file name or the name of the case
* (i.e., without the .DATA extension)
*/
static std::string canonicalDeckPath(const std::string& caseName);
/*!
* \brief Creates an Opm::parseContext object assuming that the parameters are ready.
*/
static std::unique_ptr<ParseContext> createParseContext(const std::string& ignoredKeywords,
bool eclStrictParsing);
/*!
* \brief Set the wall time which was spend externally to set up the external data structures
*
* i.e., the objects specified via the other setExternal*() methods.
*/
static void setExternalSetupTime(double t)
{ externalSetupTime_ = t; }
/*!
* \brief Returns the wall time required to set up the simulator before it was born.
*/
static double externalSetupTime()
{ return externalSetupTime_; }
/*!
* \brief Set the Opm::ParseContext object which ought to be used for parsing the deck and creating the Opm::EclipseState object.
*/
static void setExternalParseContext(std::unique_ptr<ParseContext> parseContext);
/*!
* \brief Set the Opm::ErrorGuard object which ought to be used for parsing the deck and creating the Opm::EclipseState object.
*/
static void setExternalErrorGuard(std::unique_ptr<ErrorGuard> errorGuard);
/*!
* \brief Set the Opm::Deck object which ought to be used when the simulator vanguard
* is instantiated.
*
* This is basically an optimization: In cases where the ECL input deck must be
* examined to decide which simulator ought to be used, this avoids having to parse
* the input twice. When this method is used, the caller is responsible for lifetime
* management of these two objects, i.e., they are not allowed to be deleted as long
* as the simulator vanguard object is alive.
*/
static void setExternalDeck(std::shared_ptr<Deck> deck);
static void setExternalDeck(std::unique_ptr<Deck> deck);
/*!
* \brief Set the Opm::EclipseState object which ought to be used when the simulator
* vanguard is instantiated.
*/
static void setExternalEclState(std::shared_ptr<EclipseState> eclState);
static void setExternalEclState(std::unique_ptr<EclipseState> eclState);
/*!
* \brief Set the schedule object.
*
* The lifetime of this object is not managed by the vanguard, i.e., the object must
* stay valid until after the vanguard gets destroyed.
*/
static void setExternalSchedule(std::shared_ptr<Schedule> schedule);
static void setExternalSchedule(std::unique_ptr<Schedule> schedule);
/*!
* \brief Set the summary configuration object.
*
* The lifetime of this object is not managed by the vanguard, i.e., the object must
* stay valid until after the vanguard gets destroyed.
*/
static void setExternalSummaryConfig(std::shared_ptr<SummaryConfig> summaryConfig);
static void setExternalSummaryConfig(std::unique_ptr<SummaryConfig> summaryConfig);
static void setExternalUDQState(std::unique_ptr<UDQState> udqState);
static void setExternalActionState(std::unique_ptr<Action::State> actionState);
static void setExternalWTestState(std::unique_ptr<WellTestState> wtestState);
/*!
* \brief Return a reference to the parsed ECL deck.
*/
const Deck& deck() const
{ return *deck_; }
Deck& deck()
{ return *deck_; }
/*!
* \brief Return a reference to the internalized ECL deck.
*/
const EclipseState& eclState() const
{ return *eclState_; }
EclipseState& eclState()
{ return *eclState_; }
/*!
* \brief Return a reference to the object that managages the ECL schedule.
*/
const Schedule& schedule() const
{ return *eclSchedule_; }
Schedule& schedule()
{ return *eclSchedule_; }
/*!
* \brief Return a reference to the object that determines which quantities ought to
* be put into the ECL summary output.
*/
const SummaryConfig& summaryConfig() const
{ return *eclSummaryConfig_; }
/*!
* \brief Returns the summary state
*
* The summary state is a small container object for
* computed, ready to use summary values. The values will typically be used by
* the UDQ, WTEST and ACTIONX calculations.
*/
SummaryState& summaryState()
{ return *summaryState_; }
const SummaryState& summaryState() const
{ return *summaryState_; }
/*!
* \brief Returns the action state
*
* The ActionState keeps track of how many times the various actions have run.
*/
Action::State& actionState()
{ return *actionState_; }
const Action::State& actionState() const
{ return *actionState_; }
/*!
* \brief Returns the udq state
*
* The UDQState keeps track of the result of UDQ evaluations.
*/
UDQState& udqState()
{ return *udqState_; }
const UDQState& udqState() const
{ return *udqState_; }
WellTestState transferWTestState() {
return *this->wtestState_.release();
}
/*!
* \brief Returns the name of the case.
*
* i.e., the all-uppercase version of the file name from which the
* deck is loaded with the ".DATA" suffix removed.
*/
const std::string& caseName() const
{ return caseName_; }
/*!
* \brief Parameter deciding the edge-weight strategy of the load balancer.
*/
Dune::EdgeWeightMethod edgeWeightsMethod() const
{ return edgeWeightsMethod_; }
/*!
* \brief Parameter that decide if cells owned by rank are ordered before ghost cells.
*/
bool ownersFirst() const
{ return ownersFirst_; }
/*!
* \brief Parameter that decides if partitioning for parallel runs
* should be performed on a single process only.
*/
bool serialPartitioning() const
{ return serialPartitioning_; }
/*!
* \brief Parameter that sets the zoltan imbalance tolarance.
*/
double zoltanImbalanceTol() const
{ return zoltanImbalanceTol_; }
/*!
* \brief Whether perforations of a well might be distributed.
*/
bool enableDistributedWells() const
{ return enableDistributedWells_; }
/*!
* \brief Returns vector with name and whether the has local perforated cells
* for all wells.
*
* Will only have usable values for CpGrid.
*/
const ParallelWellStruct& parallelWells() const
{ return parallelWells_; }
//! \brief Set global communication.
static void setCommunication(std::unique_ptr<Opm::Parallel::Communication> comm)
{ comm_ = std::move(comm); }
//! \brief Obtain global communicator.
static Parallel::Communication& comm()
{
assert(comm_);
return *comm_;
}
protected:
void updateOutputDir_(std::string outputDir,
bool enableEclCompatFile);
bool drsdtconEnabled() const;
std::unordered_map<std::size_t, const NumericalAquiferCell*> allAquiferCells() const;
void init();
static double externalSetupTime_;
static std::unique_ptr<ParseContext> externalParseContext_;
static std::unique_ptr<ErrorGuard> externalErrorGuard_;
// These variables may be owned by both Python and the simulator
static std::shared_ptr<Deck> externalDeck_;
static std::shared_ptr<EclipseState> externalEclState_;
static std::shared_ptr<Schedule> externalEclSchedule_;
static std::shared_ptr<SummaryConfig> externalEclSummaryConfig_;
static bool externalDeckSet_;
static std::unique_ptr<UDQState> externalUDQState_;
static std::unique_ptr<Action::State> externalActionState_;
static std::unique_ptr<WellTestState> externalWTestState_;
static std::unique_ptr<Parallel::Communication> comm_;
std::string caseName_;
std::string fileName_;
Dune::EdgeWeightMethod edgeWeightsMethod_;
bool ownersFirst_;
bool serialPartitioning_;
double zoltanImbalanceTol_;
bool enableDistributedWells_;
std::string ignoredKeywords_;
bool eclStrictParsing_;
std::optional<int> outputInterval_;
bool useMultisegmentWell_;
bool enableExperiments_;
std::unique_ptr<SummaryState> summaryState_;
std::unique_ptr<UDQState> udqState_;
std::unique_ptr<Action::State> actionState_;
// Observe that this instance is handled differently from the other state
// variables, it will only be initialized for a restart run. While
// initializing a restarted run this instance is transferred to the WGState
// member in the well model.
std::unique_ptr<WellTestState> wtestState_;
// these attributes point either to the internal or to the external version of the
// parser objects.
std::unique_ptr<ParseContext> parseContext_;
std::unique_ptr<ErrorGuard> errorGuard_;
std::shared_ptr<Python> python;
// These variables may be owned by both Python and the simulator
std::shared_ptr<Deck> deck_;
std::shared_ptr<EclipseState> eclState_;
std::shared_ptr<Schedule> eclSchedule_;
std::shared_ptr<SummaryConfig> eclSummaryConfig_;
/*! \brief Information about wells in parallel
*
* For each well in the model there is an entry with its name
* and a boolean indicating whether it perforates local cells.
*/
ParallelWellStruct parallelWells_;
};
} // namespace Opm
#endif