opm-simulators-2026.04/html/vtkblackoilenergymodule_8hpp_source.html

 // -*- 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.
 */
 #ifndef OPM_VTK_BLACK_OIL_ENERGY_MODULE_HPP
 #define OPM_VTK_BLACK_OIL_ENERGY_MODULE_HPP

 #include <dune/common/fvector.hh>

 #include <opm/material/densead/Math.hpp>

 #include <opm/models/blackoil/blackoilenergymodules.hh>
 #include <opm/models/blackoil/blackoilproperties.hh>
 #include <opm/models/discretization/common/fvbaseparameters.hh>

 #include <opm/models/io/baseoutputmodule.hh>
 #include <opm/models/io/vtkblackoilenergyparams.hpp>
 #include <opm/models/io/vtkmultiwriter.hh>

 #include <opm/models/utils/parametersystem.hpp>
 #include <opm/models/utils/propertysystem.hh>

 namespace Opm {

 template <class TypeTag>
 class VtkBlackOilEnergyModule : public BaseOutputModule<TypeTag>
 {
     using ParentType = BaseOutputModule<TypeTag>;

     using Simulator = GetPropType<TypeTag, Properties::Simulator>;
     using GridView = GetPropType<TypeTag, Properties::GridView>;
     using Scalar = GetPropType<TypeTag, Properties::Scalar>;
     using Evaluation = GetPropType<TypeTag, Properties::Evaluation>;
     using ElementContext = GetPropType<TypeTag, Properties::ElementContext>;
     using FluidSystem = GetPropType<TypeTag, Properties::FluidSystem>;

     static constexpr auto vtkFormat = getPropValue<TypeTag, Properties::VtkOutputFormat>();
     using VtkMultiWriter = ::Opm::VtkMultiWriter<GridView, vtkFormat>;

     enum { numPhases = getPropValue<TypeTag, Properties::NumPhases>() };

     using BufferType = typename ParentType::BufferType;
     using PhaseBuffer = typename ParentType::PhaseBuffer;
     using ScalarBuffer = typename ParentType::ScalarBuffer;

 public:
     explicit VtkBlackOilEnergyModule(const Simulator& simulator)
         : ParentType(simulator)
     {
         params_.read();
     }

     static void registerParameters()
     {
         VtkBlackoilEnergyParams::registerParameters();
     }

     void allocBuffers() override
     {
         if (!Parameters::Get<Parameters::EnableVtkOutput>()) {
             return;
         }

         if (params_.rockInternalEnergyOutput_) {
             this->resizeScalarBuffer_(rockInternalEnergy_, BufferType::Dof);
         }
         if (params_.totalThermalConductivityOutput_) {
             this->resizeScalarBuffer_(totalThermalConductivity_, BufferType::Dof);
         }
         if (params_.fluidInternalEnergiesOutput_) {
             this->resizePhaseBuffer_(fluidInternalEnergies_, BufferType::Dof);
         }
         if (params_.fluidEnthalpiesOutput_) {
             this->resizePhaseBuffer_(fluidEnthalpies_, BufferType::Dof);
         }
     }

     void processElement(const ElementContext& elemCtx) override
     {
         if (!Parameters::Get<Parameters::EnableVtkOutput>()) {
             return;
         }

         for (unsigned dofIdx = 0; dofIdx < elemCtx.numPrimaryDof(/*timeIdx=*/0); ++dofIdx) {
             const auto& intQuants = elemCtx.intensiveQuantities(dofIdx, /*timeIdx=*/0);
             const unsigned globalDofIdx = elemCtx.globalSpaceIndex(dofIdx, /*timeIdx=*/0);

             if (params_.rockInternalEnergyOutput_) {
                 rockInternalEnergy_[globalDofIdx] =
                     scalarValue(intQuants.rockInternalEnergy());
             }

             if (params_.totalThermalConductivityOutput_) {
                 totalThermalConductivity_[globalDofIdx] =
                     scalarValue(intQuants.totalThermalConductivity());
             }

             for (int phaseIdx = 0; phaseIdx < numPhases; ++phaseIdx) {
                 if (FluidSystem::phaseIsActive(phaseIdx)) {
                     if (params_.fluidInternalEnergiesOutput_) {
                         fluidInternalEnergies_[phaseIdx][globalDofIdx] =
                             scalarValue(intQuants.fluidState().internalEnergy(phaseIdx));
                     }

                     if (params_.fluidEnthalpiesOutput_) {
                         fluidEnthalpies_[phaseIdx][globalDofIdx] =
                             scalarValue(intQuants.fluidState().enthalpy(phaseIdx));
                     }
                 }
             }
         }
     }

     void commitBuffers(BaseOutputWriter& baseWriter) override
     {
         if (!dynamic_cast<VtkMultiWriter*>(&baseWriter)) {
             return;
         }

         if (params_.rockInternalEnergyOutput_) {
             this->commitScalarBuffer_(baseWriter, "volumetric internal energy rock",
                                         rockInternalEnergy_, BufferType::Dof);
         }

         if (params_.totalThermalConductivityOutput_) {
             this->commitScalarBuffer_(baseWriter, "total thermal conductivity",
                                         totalThermalConductivity_, BufferType::Dof);
         }

         if (params_.fluidInternalEnergiesOutput_) {
             this->commitPhaseBuffer_(baseWriter, "internal energy_%s",
                                         fluidInternalEnergies_, BufferType::Dof);
         }

         if (params_.fluidEnthalpiesOutput_) {
             this->commitPhaseBuffer_(baseWriter, "enthalpy_%s",
                                         fluidEnthalpies_, BufferType::Dof);
         }
     }

 private:
     VtkBlackoilEnergyParams params_{};

     ScalarBuffer rockInternalEnergy_{};
     ScalarBuffer totalThermalConductivity_{};
     PhaseBuffer fluidInternalEnergies_{};
     PhaseBuffer fluidEnthalpies_{};
 };

 } // namespace Opm

 #endif // OPM_VTK_BLACKOIL_ENERGY_MODULE_HPP
Opm::VtkBlackOilEnergyModule::allocBuffers
void allocBuffers() override
Allocate memory for the scalar fields we would like to write to the VTK file.
Definition: vtkblackoilenergymodule.hpp:93

Opm::GetPropType
typename Properties::Detail::GetPropImpl< TypeTag, Property >::type::type GetPropType
get the type alias defined in the property (equivalent to old macro GET_PROP_TYPE(...))
Definition: propertysystem.hh:233

Opm::VtkBlackOilEnergyModule
VTK output module for the black oil model&#39;s energy related quantities.
Definition: vtkblackoilenergymodule.hpp:53

Opm::BaseOutputModule::resizePhaseBuffer_
void resizePhaseBuffer_(PhaseBuffer &buffer, BufferType bufferType)
Allocate the space for a buffer storing a phase-specific quantity.
Definition: baseoutputmodule.hh:198

Opm::BaseOutputModule::commitScalarBuffer_
void commitScalarBuffer_(BaseOutputWriter &baseWriter, const char *name, ScalarBuffer &buffer, BufferType bufferType)
Add a buffer containing scalar quantities to the result file.
Definition: baseoutputmodule.hh:238

parametersystem.hpp
This file provides the infrastructure to retrieve run-time parameters.

Opm::BaseOutputModule
The base class for writer modules.
Definition: baseoutputmodule.hh:67

baseoutputmodule.hh
The base class for writer modules.

vtkblackoilenergyparams.hpp
VTK output module for the black oil model&#39;s energy related quantities.

Opm::BaseOutputModule::BufferType
BufferType
Definition: baseoutputmodule.hh:143

Opm::VtkBlackOilEnergyModule::processElement
void processElement(const ElementContext &elemCtx) override
Modify the internal buffers according to the intensive quantities relevant for an element...
Definition: vtkblackoilenergymodule.hpp:117

Opm::VtkMultiWriter
Simplifies writing multi-file VTK datasets.
Definition: vtkmultiwriter.hh:64

Opm
This file contains a set of helper functions used by VFPProd / VFPInj.
Definition: blackoilbioeffectsmodules.hh:45

Opm::BaseOutputWriter
The base class for all output writers.
Definition: baseoutputwriter.hh:45

Opm::VtkBlackOilEnergyModule::registerParameters
static void registerParameters()
Register all run-time parameters for the multi-phase VTK output module.
Definition: vtkblackoilenergymodule.hpp:84

blackoilproperties.hh
Declares the properties required by the black oil model.

fvbaseparameters.hh
Declare the properties used by the infrastructure code of the finite volume discretizations.

Opm::BaseOutputModule::commitPhaseBuffer_
void commitPhaseBuffer_(BaseOutputWriter &baseWriter, const char *pattern, PhaseBuffer &buffer, BufferType bufferType)
Add a phase-specific buffer to the result file.
Definition: baseoutputmodule.hh:337

Opm::VtkBlackOilEnergyModule::commitBuffers
void commitBuffers(BaseOutputWriter &baseWriter) override
Add all buffers to the VTK output writer.
Definition: vtkblackoilenergymodule.hpp:156

Opm::BaseOutputModule::resizeScalarBuffer_
void resizeScalarBuffer_(ScalarBuffer &buffer, BufferType bufferType)
Allocate the space for a buffer storing a scalar quantity.
Definition: baseoutputmodule.hh:157

propertysystem.hh
The Opm property system, traits with inheritance.

vtkmultiwriter.hh
Simplifies writing multi-file VTK datasets.

Opm::VtkBlackoilEnergyParams
Struct holding the parameters for VtkBlackoilEnergyOutputModule.
Definition: vtkblackoilenergyparams.hpp:45

Opm::VtkBlackoilEnergyParams::read
void read()
Reads the parameter values from the parameter system.
Definition: vtkblackoilenergyparams.cpp:45

blackoilenergymodules.hh
Contains the classes required to extend the black-oil model by energy.

Opm::VtkBlackoilEnergyParams::registerParameters
static void registerParameters()
Registers the parameters in parameter system.
Definition: vtkblackoilenergyparams.cpp:31