OGS
LiquidFlowProcess.cpp
Go to the documentation of this file.
1 
13 #include "LiquidFlowProcess.h"
14 
15 #include <cassert>
16 
17 #include "LiquidFlowLocalAssembler.h"
18 #include "MathLib/LinAlg/FinalizeMatrixAssembly.h"
19 #include "MathLib/LinAlg/FinalizeVectorAssembly.h"
20 #include "MeshLib/PropertyVector.h"
21 #include "ProcessLib/Utils/ComputeResiduum.h"
22 #include "ProcessLib/Utils/CreateLocalAssemblers.h"
23 
24 namespace ProcessLib
25 {
26 namespace LiquidFlow
27 {
28 LiquidFlowProcess::LiquidFlowProcess(
29  std::string name,
30  MeshLib::Mesh& mesh,
31  std::unique_ptr<AbstractJacobianAssembler>&& jacobian_assembler,
32  std::vector<std::unique_ptr<ParameterLib::ParameterBase>> const& parameters,
33  unsigned const integration_order,
34  std::vector<std::vector<std::reference_wrapper<ProcessVariable>>>&&
35  process_variables,
36  LiquidFlowData&& process_data,
37  SecondaryVariableCollection&& secondary_variables,
38  std::unique_ptr<ProcessLib::SurfaceFluxData>&& surfaceflux)
39  : Process(std::move(name), mesh, std::move(jacobian_assembler), parameters,
40  integration_order, std::move(process_variables),
41  std::move(secondary_variables)),
42  _process_data(std::move(process_data)),
43  _surfaceflux(std::move(surfaceflux))
44 {
45  DBUG("Create Liquid flow process.");
46 
47  _hydraulic_flow = MeshLib::getOrCreateMeshProperty<double>(
48  mesh, "HydraulicFlow", MeshLib::MeshItemType::Node, 1);
49 }
50 
51 void LiquidFlowProcess::initializeConcreteProcess(
52  NumLib::LocalToGlobalIndexMap const& dof_table,
53  MeshLib::Mesh const& mesh,
54  unsigned const integration_order)
55 {
56  const int process_id = 0;
57  ProcessLib::ProcessVariable const& pv = getProcessVariables(process_id)[0];
58 
59  int const mesh_space_dimension = _process_data.mesh_space_dimension;
60  ProcessLib::createLocalAssemblers<LiquidFlowLocalAssembler>(
61  mesh_space_dimension, mesh.getElements(), dof_table,
62  pv.getShapeFunctionOrder(), _local_assemblers,
63  mesh.isAxiallySymmetric(), integration_order, _process_data);
64 
65  _secondary_variables.addSecondaryVariable(
66  "darcy_velocity",
67  makeExtrapolator(
68  mesh_space_dimension, getExtrapolator(), _local_assemblers,
69  &LiquidFlowLocalAssemblerInterface::getIntPtDarcyVelocity));
70 }
71 
72 void LiquidFlowProcess::assembleConcreteProcess(
73  const double t, double const dt, std::vector<GlobalVector*> const& x,
74  std::vector<GlobalVector*> const& xdot, int const process_id,
75  GlobalMatrix& M, GlobalMatrix& K, GlobalVector& b)
76 {
77  DBUG("Assemble LiquidFlowProcess.");
78 
79  std::vector<std::reference_wrapper<NumLib::LocalToGlobalIndexMap>>
80  dof_table = {std::ref(*_local_to_global_index_map)};
81 
82  ProcessLib::ProcessVariable const& pv = getProcessVariables(process_id)[0];
83 
84  // Call global assembler for each local assembly item.
85  GlobalExecutor::executeSelectedMemberDereferenced(
86  _global_assembler, &VectorMatrixAssembler::assemble, _local_assemblers,
87  pv.getActiveElementIDs(), dof_table, t, dt, x, xdot, process_id, M, K,
88  b);
89 
90  MathLib::finalizeMatrixAssembly(M);
91  MathLib::finalizeMatrixAssembly(K);
92  MathLib::finalizeVectorAssembly(b);
93 
94  auto const residuum = computeResiduum(*x[0], *xdot[0], M, K, b);
95  transformVariableFromGlobalVector(residuum, 0 /*variable id*/,
96  *_local_to_global_index_map,
97  *_hydraulic_flow, std::negate<double>());
98 }
99 
100 void LiquidFlowProcess::assembleWithJacobianConcreteProcess(
101  const double t, double const dt, std::vector<GlobalVector*> const& x,
102  std::vector<GlobalVector*> const& xdot, const double dxdot_dx,
103  const double dx_dx, int const process_id, GlobalMatrix& M, GlobalMatrix& K,
104  GlobalVector& b, GlobalMatrix& Jac)
105 {
106  DBUG("AssembleWithJacobian LiquidFlowProcess.");
107 
108  std::vector<std::reference_wrapper<NumLib::LocalToGlobalIndexMap>>
109  dof_table = {std::ref(*_local_to_global_index_map)};
110  ProcessLib::ProcessVariable const& pv = getProcessVariables(process_id)[0];
111 
112  // Call global assembler for each local assembly item.
113  GlobalExecutor::executeSelectedMemberDereferenced(
114  _global_assembler, &VectorMatrixAssembler::assembleWithJacobian,
115  _local_assemblers, pv.getActiveElementIDs(), dof_table, t, dt, x, xdot,
116  dxdot_dx, dx_dx, process_id, M, K, b, Jac);
117 }
118 
119 void LiquidFlowProcess::computeSecondaryVariableConcrete(
120  double const t, double const dt, std::vector<GlobalVector*> const& x,
121  GlobalVector const& x_dot, int const process_id)
122 {
123  DBUG("Compute the velocity for LiquidFlowProcess.");
124  std::vector<NumLib::LocalToGlobalIndexMap const*> dof_tables;
125  dof_tables.reserve(x.size());
126  std::generate_n(std::back_inserter(dof_tables), x.size(),
127  [&]() { return _local_to_global_index_map.get(); });
128 
129  ProcessLib::ProcessVariable const& pv = getProcessVariables(process_id)[0];
130  GlobalExecutor::executeSelectedMemberOnDereferenced(
131  &LiquidFlowLocalAssemblerInterface::computeSecondaryVariable,
132  _local_assemblers, pv.getActiveElementIDs(), dof_tables, t, dt, x,
133  x_dot, process_id);
134 }
135 
136 Eigen::Vector3d LiquidFlowProcess::getFlux(
137  std::size_t const element_id,
138  MathLib::Point3d const& p,
139  double const t,
140  std::vector<GlobalVector*> const& x) const
141 {
142  // fetch local_x from primary variable
143  std::vector<GlobalIndexType> indices_cache;
144  auto const r_c_indices = NumLib::getRowColumnIndices(
145  element_id, *_local_to_global_index_map, indices_cache);
146  constexpr int process_id = 0; // monolithic scheme.
147  std::vector<double> local_x(x[process_id]->get(r_c_indices.rows));
148 
149  return _local_assemblers[element_id]->getFlux(p, t, local_x);
150 }
151 
152 // this is almost a copy of the implementation in the GroundwaterFlow
153 void LiquidFlowProcess::postTimestepConcreteProcess(
154  std::vector<GlobalVector*> const& x,
155  const double t,
156  const double /*dt*/,
157  int const process_id)
158 {
159  if (!_surfaceflux) // computing the surfaceflux is optional
160  {
161  return;
162  }
163 
164  ProcessLib::ProcessVariable const& pv = getProcessVariables(process_id)[0];
165  _surfaceflux->integrate(x, t, *this, process_id, _integration_order, _mesh,
166  pv.getActiveElementIDs());
167 }
168 
169 } // namespace LiquidFlow
170 } // namespace ProcessLib
DBUG
void DBUG(char const *fmt, Args const &... args)
Definition: Logging.h:27
MathLib::EigenVector
Global vector based on Eigen vector.
Definition: EigenVector.h:26
MeshLib::Mesh::isAxiallySymmetric
bool isAxiallySymmetric() const
Definition: Mesh.h:126
MeshLib::Mesh::getElements
std::vector< Element * > const & getElements() const
Get the element-vector for the mesh.
Definition: Mesh.h:98
ProcessLib::LiquidFlow::LiquidFlowLocalAssemblerInterface::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::LiquidFlow::LiquidFlowProcess::LiquidFlowProcess
LiquidFlowProcess(std::string name, MeshLib::Mesh &mesh, std::unique_ptr< 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, LiquidFlowData &&process_data, SecondaryVariableCollection &&secondary_variables, std::unique_ptr< ProcessLib::SurfaceFluxData > &&surfaceflux)
Definition: LiquidFlowProcess.cpp:28
ProcessLib::LiquidFlow::LiquidFlowProcess::getFlux
Eigen::Vector3d getFlux(std::size_t const element_id, MathLib::Point3d const &p, double const t, std::vector< GlobalVector * > const &x) const override
Definition: LiquidFlowProcess.cpp:136
ProcessLib::LiquidFlow::LiquidFlowProcess::_local_assemblers
std::vector< std::unique_ptr< LiquidFlowLocalAssemblerInterface > > _local_assemblers
Definition: LiquidFlowProcess.h:108
ProcessLib::LiquidFlow::LiquidFlowProcess::assembleConcreteProcess
void assembleConcreteProcess(const double t, double const dt, std::vector< GlobalVector * > const &x, std::vector< GlobalVector * > const &xdot, int const process_id, GlobalMatrix &M, GlobalMatrix &K, GlobalVector &b) override
Definition: LiquidFlowProcess.cpp:72
ProcessLib::LiquidFlow::LiquidFlowProcess::computeSecondaryVariableConcrete
void computeSecondaryVariableConcrete(double const t, double const dt, std::vector< GlobalVector * > const &x, GlobalVector const &x_dot, int const process_id) override
Definition: LiquidFlowProcess.cpp:119
ProcessLib::LiquidFlow::LiquidFlowProcess::initializeConcreteProcess
void initializeConcreteProcess(NumLib::LocalToGlobalIndexMap const &dof_table, MeshLib::Mesh const &mesh, unsigned const integration_order) override
Process specific initialization called by initialize().
Definition: LiquidFlowProcess.cpp:51
ProcessLib::LiquidFlow::LiquidFlowProcess::_surfaceflux
std::unique_ptr< ProcessLib::SurfaceFluxData > _surfaceflux
Definition: LiquidFlowProcess.h:110
ProcessLib::LiquidFlow::LiquidFlowProcess::postTimestepConcreteProcess
void postTimestepConcreteProcess(std::vector< GlobalVector * > const &x, const double t, const double dt, int const process_id) override
Definition: LiquidFlowProcess.cpp:153
ProcessLib::LiquidFlow::LiquidFlowProcess::assembleWithJacobianConcreteProcess
void assembleWithJacobianConcreteProcess(const double t, double const dt, std::vector< GlobalVector * > const &x, std::vector< GlobalVector * > const &xdot, const double dxdot_dx, const double dx_dx, int const process_id, GlobalMatrix &M, GlobalMatrix &K, GlobalVector &b, GlobalMatrix &Jac) override
Definition: LiquidFlowProcess.cpp:100
ProcessLib::LiquidFlow::LiquidFlowProcess::_hydraulic_flow
MeshLib::PropertyVector< double > * _hydraulic_flow
Definition: LiquidFlowProcess.h:111
ProcessLib::LocalAssemblerInterface::computeSecondaryVariable
virtual void computeSecondaryVariable(std::size_t const mesh_item_id, std::vector< NumLib::LocalToGlobalIndexMap const * > const &dof_tables, double const t, double const dt, std::vector< GlobalVector * > const &x, GlobalVector const &x_dot, int const process_id)
Definition: LocalAssemblerInterface.cpp:74
ProcessLib::ProcessVariable::getShapeFunctionOrder
unsigned getShapeFunctionOrder() const
Definition: ProcessVariable.h:97
ProcessLib::ProcessVariable::getActiveElementIDs
std::vector< std::size_t > const & getActiveElementIDs() const
Definition: ProcessVariable.h:72
ProcessLib::Process::getExtrapolator
NumLib::Extrapolator & getExtrapolator() const
Definition: Process.h:185
ProcessLib::Process::_mesh
MeshLib::Mesh & _mesh
Definition: Process.h:326
ProcessLib::Process::_secondary_variables
SecondaryVariableCollection _secondary_variables
Definition: Process.h:331
ProcessLib::Process::getProcessVariables
std::vector< std::reference_wrapper< ProcessVariable > > const & getProcessVariables(const int process_id) const
Definition: Process.h:145
ProcessLib::Process::_global_assembler
VectorMatrixAssembler _global_assembler
Definition: Process.h:333
ProcessLib::Process::_integration_order
unsigned const _integration_order
Definition: Process.h:344
ProcessLib::Process::_local_to_global_index_map
std::unique_ptr< NumLib::LocalToGlobalIndexMap > _local_to_global_index_map
Definition: Process.h:329
ProcessLib::SecondaryVariableCollection
Handles configuration of several secondary variables from the project file.
Definition: SecondaryVariable.h:114
ProcessLib::SecondaryVariableCollection::addSecondaryVariable
void addSecondaryVariable(std::string const &internal_name, SecondaryVariableFunctions &&fcts)
Definition: SecondaryVariable.cpp:25
ProcessLib::VectorMatrixAssembler::assembleWithJacobian
void assembleWithJacobian(std::size_t const mesh_item_id, LocalAssemblerInterface &local_assembler, std::vector< std::reference_wrapper< NumLib::LocalToGlobalIndexMap >> const &dof_tables, const double t, double const dt, std::vector< GlobalVector * > const &x, std::vector< GlobalVector * > const &xdot, const double dxdot_dx, const double dx_dx, int const process_id, GlobalMatrix &M, GlobalMatrix &K, GlobalVector &b, GlobalMatrix &Jac)
Definition: VectorMatrixAssembler.cpp:106
ProcessLib::VectorMatrixAssembler::assemble
void assemble(std::size_t const mesh_item_id, LocalAssemblerInterface &local_assembler, std::vector< std::reference_wrapper< NumLib::LocalToGlobalIndexMap >> const &dof_tables, double const t, double const dt, std::vector< GlobalVector * > const &x, std::vector< GlobalVector * > const &xdot, int const process_id, GlobalMatrix &M, GlobalMatrix &K, GlobalVector &b)
Definition: VectorMatrixAssembler.cpp:41
MathLib::finalizeVectorAssembly
void finalizeVectorAssembly(VEC_T &)
General function to finalize the vector assembly.
Definition: FinalizeVectorAssembly.h:19
MathLib::finalizeMatrixAssembly
bool finalizeMatrixAssembly(MAT_T &)
Definition: FinalizeMatrixAssembly.h:18
NumLib::getRowColumnIndices
NumLib::LocalToGlobalIndexMap::RowColumnIndices getRowColumnIndices(std::size_t const id, NumLib::LocalToGlobalIndexMap const &dof_table, std::vector< GlobalIndexType > &indices)
Definition: DOFTableUtil.cpp:143
NumLib::transformVariableFromGlobalVector
void transformVariableFromGlobalVector(GlobalVector const &input_vector, int const variable_id, NumLib::LocalToGlobalIndexMap const &local_to_global_index_map, MeshLib::PropertyVector< double > &output_vector, Functor mapFunction)
Definition: DOFTableUtil.h:59
ProcessLib::computeResiduum
GlobalVector computeResiduum(GlobalVector const &x, GlobalVector const &xdot, GlobalMatrix const &M, GlobalMatrix const &K, GlobalVector const &b)
Definition: ComputeResiduum.cpp:16
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:163
NumLib::SerialExecutor::executeSelectedMemberOnDereferenced
static void executeSelectedMemberOnDereferenced(Method method, Container const &container, std::vector< std::size_t > const &active_container_ids, Args &&... args)
Definition: SerialExecutor.h:152
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