OGS: ProcessLib/RichardsFlow/RichardsFlowProcess.cpp Source File

#include "RichardsFlowProcess.h"


#include <cassert>


#include "ProcessLib/Utils/CreateLocalAssemblers.h"


namespace ProcessLib

{

namespace RichardsFlow

{


RichardsFlowProcess::RichardsFlowProcess(

    std::string name,

    MeshLib::Mesh& mesh,

    std::unique_ptr<ProcessLib::AbstractJacobianAssembler>&& jacobian_assembler,

    std::vector<std::unique_ptr<ParameterLib::ParameterBase>> const& parameters,

    unsigned const integration_order,

    std::vector<std::vector<std::reference_wrapper<ProcessVariable>>>&&

        process_variables,

    RichardsFlowProcessData&& process_data,

    SecondaryVariableCollection&& secondary_variables)

    : Process(std::move(name), mesh, std::move(jacobian_assembler), parameters,

              integration_order, std::move(process_variables),

              std::move(secondary_variables)),

      _process_data(std::move(process_data))

{

}


void RichardsFlowProcess::initializeConcreteProcess(

    NumLib::LocalToGlobalIndexMap const& dof_table,

    MeshLib::Mesh const& mesh,

    unsigned const integration_order)

{

    ProcessLib::createLocalAssemblers<LocalAssemblerData>(

        mesh.getDimension(), mesh.getElements(), dof_table, _local_assemblers,

        NumLib::IntegrationOrder{integration_order}, mesh.isAxiallySymmetric(),

        _process_data);


    _secondary_variables.addSecondaryVariable(

        "saturation",

        makeExtrapolator(

            1, getExtrapolator(), _local_assemblers,

            &RichardsFlowLocalAssemblerInterface::getIntPtSaturation));


    _secondary_variables.addSecondaryVariable(

        "darcy_velocity",

        makeExtrapolator(

            mesh.getDimension(), getExtrapolator(), _local_assemblers,

            &RichardsFlowLocalAssemblerInterface::getIntPtDarcyVelocity));

}


void RichardsFlowProcess::assembleConcreteProcess(

    const double t, double const dt, std::vector<GlobalVector*> const& x,

    std::vector<GlobalVector*> const& x_prev, int const process_id,

    GlobalMatrix& M, GlobalMatrix& K, GlobalVector& b)

{

    DBUG("Assemble RichardsFlowProcess.");


    std::vector<NumLib::LocalToGlobalIndexMap const*> dof_table = {

        _local_to_global_index_map.get()};


    // Call global assembler for each local assembly item.

    GlobalExecutor::executeSelectedMemberDereferenced(

        _global_assembler, &VectorMatrixAssembler::assemble, _local_assemblers,

        getActiveElementIDs(), dof_table, t, dt, x, x_prev, process_id, &M, &K,

        &b);

}


void RichardsFlowProcess::assembleWithJacobianConcreteProcess(

    const double t, double const dt, std::vector<GlobalVector*> const& x,

    std::vector<GlobalVector*> const& x_prev, int const process_id,

    GlobalVector& b, GlobalMatrix& Jac)

{

    DBUG("AssembleWithJacobian RichardsFlowProcess.");


    std::vector<NumLib::LocalToGlobalIndexMap const*> dof_table = {

        _local_to_global_index_map.get()};


    // Call global assembler for each local assembly item.

    GlobalExecutor::executeSelectedMemberDereferenced(

        _global_assembler, &VectorMatrixAssembler::assembleWithJacobian,

        _local_assemblers, getActiveElementIDs(), dof_table, t, dt, x, x_prev,

        process_id, &b, &Jac);

}


}  // namespace RichardsFlow

}  // namespace ProcessLib

DBUG
void DBUG(fmt::format_string< Args... > fmt, Args &&... args)
Definition Logging.h:30

RichardsFlowProcess.h

CreateLocalAssemblers.h

MathLib::EigenMatrix
Definition EigenMatrix.h:29

MathLib::EigenVector
Global vector based on Eigen vector.
Definition EigenVector.h:25

MeshLib::Mesh
Definition Mesh.h:43

MeshLib::Mesh::isAxiallySymmetric
bool isAxiallySymmetric() const
Definition Mesh.h:137

MeshLib::Mesh::getElements
std::vector< Element * > const & getElements() const
Get the element-vector for the mesh.
Definition Mesh.h:109

MeshLib::Mesh::getDimension
unsigned getDimension() const
Returns the dimension of the mesh (determined by the maximum dimension over all elements).
Definition Mesh.h:88

NumLib::LocalToGlobalIndexMap
Definition LocalToGlobalIndexMap.h:41

ProcessLib::Process
Definition Process.h:45

ProcessLib::Process::getActiveElementIDs
std::vector< std::size_t > const & getActiveElementIDs() const
Definition Process.h:160

ProcessLib::Process::_secondary_variables
SecondaryVariableCollection _secondary_variables
Definition Process.h:361

ProcessLib::Process::_global_assembler
VectorMatrixAssembler _global_assembler
Definition Process.h:368

ProcessLib::Process::_local_to_global_index_map
std::unique_ptr< NumLib::LocalToGlobalIndexMap > _local_to_global_index_map
Definition Process.h:359

ProcessLib::Process::getExtrapolator
NumLib::Extrapolator & getExtrapolator() const
Definition Process.h:199

ProcessLib::RichardsFlow::RichardsFlowLocalAssemblerInterface::getIntPtSaturation
virtual std::vector< double > const & getIntPtSaturation(const double t, std::vector< GlobalVector * > const &x, std::vector< NumLib::LocalToGlobalIndexMap const * > const &dof_table, std::vector< double > &cache) const =0

ProcessLib::RichardsFlow::RichardsFlowLocalAssemblerInterface::getIntPtDarcyVelocity
virtual std::vector< double > const & getIntPtDarcyVelocity(const double t, std::vector< GlobalVector * > const &x, std::vector< NumLib::LocalToGlobalIndexMap const * > const &dof_table, std::vector< double > &cache) const =0

ProcessLib::RichardsFlow::RichardsFlowProcess::assembleWithJacobianConcreteProcess
void assembleWithJacobianConcreteProcess(const double t, double const dt, std::vector< GlobalVector * > const &x, std::vector< GlobalVector * > const &x_prev, int const process_id, GlobalVector &b, GlobalMatrix &Jac) override
Definition RichardsFlowProcess.cpp:78

ProcessLib::RichardsFlow::RichardsFlowProcess::initializeConcreteProcess
void initializeConcreteProcess(NumLib::LocalToGlobalIndexMap const &dof_table, MeshLib::Mesh const &mesh, unsigned const integration_order) override
Process specific initialization called by initialize().
Definition RichardsFlowProcess.cpp:38

ProcessLib::RichardsFlow::RichardsFlowProcess::RichardsFlowProcess
RichardsFlowProcess(std::string name, MeshLib::Mesh &mesh, std::unique_ptr< ProcessLib::AbstractJacobianAssembler > &&jacobian_assembler, std::vector< std::unique_ptr< ParameterLib::ParameterBase > > const &parameters, unsigned const integration_order, std::vector< std::vector< std::reference_wrapper< ProcessVariable > > > &&process_variables, RichardsFlowProcessData &&process_data, SecondaryVariableCollection &&secondary_variables)
Definition RichardsFlowProcess.cpp:21

ProcessLib::RichardsFlow::RichardsFlowProcess::_local_assemblers
std::vector< std::unique_ptr< RichardsFlowLocalAssemblerInterface > > _local_assemblers
Definition RichardsFlowProcess.h:64

ProcessLib::RichardsFlow::RichardsFlowProcess::assembleConcreteProcess
void assembleConcreteProcess(const double t, double const dt, std::vector< GlobalVector * > const &x, std::vector< GlobalVector * > const &x_prev, int const process_id, GlobalMatrix &M, GlobalMatrix &K, GlobalVector &b) override
Definition RichardsFlowProcess.cpp:61

ProcessLib::RichardsFlow::RichardsFlowProcess::_process_data
RichardsFlowProcessData _process_data
Definition RichardsFlowProcess.h:61

ProcessLib::SecondaryVariableCollection
Handles configuration of several secondary variables from the project file.
Definition SecondaryVariable.h:115

ProcessLib::SecondaryVariableCollection::addSecondaryVariable
void addSecondaryVariable(std::string const &internal_name, SecondaryVariableFunctions &&fcts)
Definition SecondaryVariable.cpp:25

ProcessLib::VectorMatrixAssembler::assemble
void assemble(std::size_t const mesh_item_id, LocalAssemblerInterface &local_assembler, std::vector< NumLib::LocalToGlobalIndexMap const * > const &dof_tables, double const t, double const dt, std::vector< GlobalVector * > const &x, std::vector< GlobalVector * > const &x_prev, int const process_id, GlobalMatrix *M, GlobalMatrix *K, GlobalVector *b)
Definition VectorMatrixAssembler.cpp:39

ProcessLib::VectorMatrixAssembler::assembleWithJacobian
void assembleWithJacobian(std::size_t const mesh_item_id, LocalAssemblerInterface &local_assembler, std::vector< NumLib::LocalToGlobalIndexMap const * > const &dof_tables, const double t, double const dt, std::vector< GlobalVector * > const &x, std::vector< GlobalVector * > const &x_prev, int const process_id, GlobalVector *b, GlobalMatrix *Jac)
Definition VectorMatrixAssembler.cpp:106

ProcessLib
Definition ProjectData.h:51

ProcessLib::makeExtrapolator
SecondaryVariableFunctions makeExtrapolator(const unsigned num_components, NumLib::Extrapolator &extrapolator, LocalAssemblerCollection const &local_assemblers, typename NumLib::ExtrapolatableLocalAssemblerCollection< LocalAssemblerCollection >::IntegrationPointValuesMethod integration_point_values_method)
Definition SecondaryVariable.h:164

NumLib::IntegrationOrder
Definition IntegrationMethodRegistry.h:21

NumLib::SerialExecutor::executeSelectedMemberDereferenced
static void executeSelectedMemberDereferenced(Object &object, Method method, Container const &container, std::vector< std::size_t > const &active_container_ids, Args &&... args)
Definition SerialExecutor.h:98

ProcessLib::RichardsFlow::RichardsFlowProcessData
Definition RichardsFlowProcessData.h:22