Revision 9c63442e45c049964bce7219d16ec23cbfa7c226 authored by Christoph Lehmann on 06 March 2023, 10:21:39 UTC, committed by Christoph Lehmann on 06 March 2023, 10:21:39 UTC
Draft: Beautiful access to element degrees of freedom See merge request ogs/ogs!4507
CreateThermoRichardsFlowProcess.cpp
/**
* \file
* \copyright
* Copyright (c) 2012-2023, OpenGeoSys Community (http://www.opengeosys.org)
* Distributed under a Modified BSD License.
* See accompanying file LICENSE.txt or
* http://www.opengeosys.org/project/license
*
*/
#include "CreateThermoRichardsFlowProcess.h"
#include <cassert>
#include "CreateSimplifiedElasticityModel.h"
#include "LocalAssemblerInterface.h"
#include "MaterialLib/MPL/CreateMaterialSpatialDistributionMap.h"
#include "MaterialLib/MPL/MaterialSpatialDistributionMap.h"
#include "MaterialLib/MPL/Medium.h"
#include "MaterialLib/SolidModels/CreateConstitutiveRelation.h"
#include "MaterialLib/SolidModels/MechanicsBase.h"
#include "ParameterLib/Utils.h"
#include "ProcessLib/Output/CreateSecondaryVariables.h"
#include "ProcessLib/Utils/ProcessUtils.h"
#include "SimplifiedElasticityModel.h"
#include "ThermoRichardsFlowProcess.h"
#include "ThermoRichardsFlowProcessData.h"
namespace ProcessLib
{
namespace ThermoRichardsFlow
{
void checkMPLProperties(
std::map<int, std::shared_ptr<MaterialPropertyLib::Medium>> const& media)
{
std::array const required_medium_properties = {
MaterialPropertyLib::permeability, MaterialPropertyLib::porosity,
MaterialPropertyLib::biot_coefficient,
MaterialPropertyLib::relative_permeability,
MaterialPropertyLib::saturation};
std::array const required_liquid_properties = {
MaterialPropertyLib::viscosity,
MaterialPropertyLib::density,
};
std::array const required_solid_properties = {MaterialPropertyLib::density};
// Thermal properties are not checked because they can be phase property or
// meduim property (will be enabled later).
for (auto const& m : media)
{
checkRequiredProperties(*m.second, required_medium_properties);
checkRequiredProperties(m.second->phase("AqueousLiquid"),
required_liquid_properties);
checkRequiredProperties(m.second->phase("Solid"),
required_solid_properties);
}
}
void checkProcessVariableComponents(ProcessVariable const& variable)
{
if (variable.getNumberOfGlobalComponents() != 1)
{
OGS_FATAL(
"Number of components of the process variable '{:s}' is different "
"from one: got {:d}.",
variable.getName(),
variable.getNumberOfGlobalComponents());
}
}
std::unique_ptr<Process> createThermoRichardsFlowProcess(
std::string name,
MeshLib::Mesh& mesh,
std::unique_ptr<ProcessLib::AbstractJacobianAssembler>&& jacobian_assembler,
std::vector<ProcessVariable> const& variables,
std::vector<std::unique_ptr<ParameterLib::ParameterBase>> const& parameters,
unsigned const integration_order,
BaseLib::ConfigTree const& config,
std::map<int, std::shared_ptr<MaterialPropertyLib::Medium>> const& media)
{
//! \ogs_file_param{prj__processes__process__type}
config.checkConfigParameter("type", "THERMO_RICHARDS_FLOW");
DBUG("Create ThermoRichardsFlowProcess.");
auto const coupling_scheme =
//! \ogs_file_param{prj__processes__process__THERMO_RICHARDS_FLOW__coupling_scheme}
config.getConfigParameterOptional<std::string>("coupling_scheme");
const bool use_monolithic_scheme =
!(coupling_scheme && (*coupling_scheme == "staggered"));
/// \section processvariablestrf Process Variables
//! \ogs_file_param{prj__processes__process__THERMO_RICHARDS_FLOW__process_variables}
auto const pv_config = config.getConfigSubtree("process_variables");
ProcessVariable* variable_T;
ProcessVariable* variable_p;
std::vector<std::vector<std::reference_wrapper<ProcessVariable>>>
process_variables;
if (use_monolithic_scheme) // monolithic scheme.
{
/// Primary process variables as they appear in the global component
/// vector:
auto per_process_variables = findProcessVariables(
variables, pv_config,
{//! \ogs_file_param_special{prj__processes__process__THERMO_RICHARDS_FLOW__process_variables__temperature}
"temperature",
//! \ogs_file_param_special{prj__processes__process__THERMO_RICHARDS_FLOW__process_variables__pressure}
"pressure"});
variable_T = &per_process_variables[0].get();
variable_p = &per_process_variables[1].get();
process_variables.push_back(std::move(per_process_variables));
}
else // staggered scheme.
{
OGS_FATAL(
"So far, only the monolithic scheme is implemented for "
"THERMO_RICHARDS_FLOW");
}
checkProcessVariableComponents(*variable_T);
checkProcessVariableComponents(*variable_p);
/// \section parameterstrf Process Parameters
// Specific body force parameter.
Eigen::VectorXd specific_body_force;
{
std::vector<double> const b =
//! \ogs_file_param{prj__processes__process__THERMO_RICHARDS_FLOW__specific_body_force}
config.getConfigParameter<std::vector<double>>(
"specific_body_force");
if (b.size() != mesh.getDimension())
{
OGS_FATAL(
"specific body force (gravity vector) has {:d} components, "
"but mesh dimension is {:d}",
b.size(), mesh.getDimension());
}
specific_body_force.resize(b.size());
std::copy_n(b.data(), b.size(), specific_body_force.data());
}
auto media_map =
MaterialPropertyLib::createMaterialSpatialDistributionMap(media, mesh);
DBUG(
"Check the media properties of ThermoRichardsFlow process "
"...");
checkMPLProperties(media);
DBUG("Media properties verified.");
bool const mass_lumping =
//! \ogs_file_param{prj__processes__process__THERMO_RICHARDS_FLOW__mass_lumping}
config.getConfigParameter<bool>("mass_lumping", false);
std::unique_ptr<SimplifiedElasticityModel> simplified_elasticity =
createElasticityModel(config);
ThermoRichardsFlowProcessData process_data{
std::move(media_map), std::move(specific_body_force), mass_lumping,
std::move(simplified_elasticity)};
SecondaryVariableCollection secondary_variables;
ProcessLib::createSecondaryVariables(config, secondary_variables);
return std::make_unique<ThermoRichardsFlowProcess>(
std::move(name), mesh, std::move(jacobian_assembler), parameters,
integration_order, std::move(process_variables),
std::move(process_data), std::move(secondary_variables),
use_monolithic_scheme);
}
} // namespace ThermoRichardsFlow
} // namespace ProcessLib
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