MoFEM::OpCalculateDivergenceVectorFieldValues< Tensor_Dim, COORDINATE_SYSTEM > Struct Template Reference

Calculate divergence of vector field at integration points. More...

#include "src/finite_elements/UserDataOperators.hpp"

Inheritance diagram for MoFEM::OpCalculateDivergenceVectorFieldValues< Tensor_Dim, COORDINATE_SYSTEM >:

Collaboration diagram for MoFEM::OpCalculateDivergenceVectorFieldValues< Tensor_Dim, COORDINATE_SYSTEM >:

Public Member Functions
	OpCalculateDivergenceVectorFieldValues (const std::string field_name, boost::shared_ptr< VectorDouble > data_ptr, const EntityType zero_type=MBVERTEX)
	Constructor for vector field divergence calculation operator.
MoFEMErrorCode	doWork (int side, EntityType type, EntitiesFieldData::EntData &data)
	Operator for linear form, usually to calculate values on right hand side.
Public Member Functions inherited from MoFEM::ForcesAndSourcesCore::UserDataOperator
	UserDataOperator (const FieldSpace space, const char type=OPSPACE, const bool symm=true)
	Constructor for operators working on finite element spaces.
	UserDataOperator (const std::string field_name, const char type, const bool symm=true)
	Constructor for operators working on a single field.
	UserDataOperator (const std::string row_field_name, const std::string col_field_name, const char type, const bool symm=true)
	Constructor for operators working on two fields (bilinear forms)
boost::shared_ptr< const NumeredEntFiniteElement >	getNumeredEntFiniteElementPtr () const
	Return raw pointer to NumeredEntFiniteElement.
EntityHandle	getFEEntityHandle () const
	Return finite element entity handle.
int	getFEDim () const
	Get dimension of finite element.
EntityType	getFEType () const
	Get dimension of finite element.
boost::weak_ptr< SideNumber >	getSideNumberPtr (const int side_number, const EntityType type)
	Get the side number pointer.
EntityHandle	getSideEntity (const int side_number, const EntityType type)
	Get the side entity.
int	getNumberOfNodesOnElement () const
	Get the number of nodes on finite element.
MoFEMErrorCode	getProblemRowIndices (const std::string filed_name, const EntityType type, const int side, VectorInt &indices) const
	Get row indices.
MoFEMErrorCode	getProblemColIndices (const std::string filed_name, const EntityType type, const int side, VectorInt &indices) const
	Get col indices.
const FEMethod *	getFEMethod () const
	Return raw pointer to Finite Element Method object.
int	getOpType () const
	Get operator types.
void	setOpType (const OpType type)
	Set operator type.
void	addOpType (const OpType type)
	Add operator type.
int	getNinTheLoop () const
	get number of finite element in the loop
int	getLoopSize () const
	get size of elements in the loop
std::string	getFEName () const
	Get name of the element.
ForcesAndSourcesCore *	getPtrFE () const
ForcesAndSourcesCore *	getSidePtrFE () const
ForcesAndSourcesCore *	getRefinePtrFE () const
const PetscData::Switches &	getDataCtx () const
const KspMethod::KSPContext	getKSPCtx () const
const SnesMethod::SNESContext	getSNESCtx () const
const TSMethod::TSContext	getTSCtx () const
Vec	getKSPf () const
Mat	getKSPA () const
Mat	getKSPB () const
Vec	getSNESf () const
Vec	getSNESx () const
Mat	getSNESA () const
Mat	getSNESB () const
Vec	getTSu () const
Vec	getTSu_t () const
Vec	getTSu_tt () const
Vec	getTSf () const
Mat	getTSA () const
Mat	getTSB () const
int	getTSstep () const
double	getTStime () const
double	getTStimeStep () const
double	getTSa () const
double	getTSaa () const
MatrixDouble &	getGaussPts ()
	matrix of integration (Gauss) points for Volume Element
auto	getFTensor0IntegrationWeight ()
	Get integration weights.
MatrixDouble &	getCoordsAtGaussPts ()
	Gauss points and weight, matrix (nb. of points x 3)
auto	getFTensor1CoordsAtGaussPts ()
	Get coordinates at integration points assuming linear geometry.
double	getMeasure () const
	get measure of element
double &	getMeasure ()
	get measure of element
MoFEM::Interface &	getMField ()
moab::Interface &	getMoab ()
virtual boost::weak_ptr< ForcesAndSourcesCore >	getSubPipelinePtr () const
MoFEMErrorCode	loopSide (const string &fe_name, ForcesAndSourcesCore *side_fe, const size_t dim, const EntityHandle ent_for_side=0, boost::shared_ptr< Range > fe_range=nullptr, const int verb=QUIET, const LogManager::SeverityLevel sev=Sev::noisy, AdjCache *adj_cache=nullptr)
	User calls this function to loop over elements on the side of face. This function calls finite element with its operator to do calculations.
MoFEMErrorCode	loopThis (const string &fe_name, ForcesAndSourcesCore *this_fe, const int verb=QUIET, const LogManager::SeverityLevel sev=Sev::noisy)
	User calls this function to loop over the same element using a different set of integration points. This function calls finite element with its operator to do calculations.
MoFEMErrorCode	loopParent (const string &fe_name, ForcesAndSourcesCore *parent_fe, const int verb=QUIET, const LogManager::SeverityLevel sev=Sev::noisy)
	User calls this function to loop over parent elements. This function calls finite element with its operator to do calculations.
MoFEMErrorCode	loopChildren (const string &fe_name, ForcesAndSourcesCore *child_fe, const int verb=QUIET, const LogManager::SeverityLevel sev=Sev::noisy)
	User calls this function to loop over parent elements. This function calls finite element with its operator to do calculations.
MoFEMErrorCode	loopRange (const string &fe_name, ForcesAndSourcesCore *range_fe, boost::shared_ptr< Range > fe_range, const int verb=QUIET, const LogManager::SeverityLevel sev=Sev::noisy)
	Iterate over range of elements.
Public Member Functions inherited from MoFEM::DataOperator
	DataOperator (const bool symm=true)
virtual	~DataOperator ()=default
virtual MoFEMErrorCode	doWork (int row_side, int col_side, EntityType row_type, EntityType col_type, EntitiesFieldData::EntData &row_data, EntitiesFieldData::EntData &col_data)
	Operator for bi-linear form, usually to calculate values on left hand side.
virtual MoFEMErrorCode	opLhs (EntitiesFieldData &row_data, EntitiesFieldData &col_data)
virtual MoFEMErrorCode	opRhs (EntitiesFieldData &data, const bool error_if_no_base=false)
bool	getSymm () const
	Get if operator uses symmetry of DOFs or not.
void	setSymm ()
	set if operator is executed taking in account symmetry
void	unSetSymm ()
	unset if operator is executed for non symmetric problem

Protected Attributes
boost::shared_ptr< VectorDouble >	dataPtr
const EntityHandle	zeroType
Protected Attributes inherited from MoFEM::ForcesAndSourcesCore::UserDataOperator
ForcesAndSourcesCore *	ptrFE

Additional Inherited Members
Public Types inherited from MoFEM::ForcesAndSourcesCore::UserDataOperator
enum	OpType {   OPROW = 1 << 0 , OPCOL = 1 << 1 , OPROWCOL = 1 << 2 , OPSPACE = 1 << 3 ,   OPLAST = 1 << 3 }
	Controls loop over entities on element. More...
using	AdjCache = std::map< EntityHandle, std::vector< boost::weak_ptr< NumeredEntFiniteElement > > >
Public Types inherited from MoFEM::DataOperator
using	DoWorkLhsHookFunType = boost::function< MoFEMErrorCode(DataOperator *op_ptr, int row_side, int col_side, EntityType row_type, EntityType col_type, EntitiesFieldData::EntData &row_data, EntitiesFieldData::EntData &col_data)>
using	DoWorkRhsHookFunType = boost::function< MoFEMErrorCode(DataOperator *op_ptr, int side, EntityType type, EntitiesFieldData::EntData &data)>
Public Attributes inherited from MoFEM::ForcesAndSourcesCore::UserDataOperator
char	opType
std::string	rowFieldName
std::string	colFieldName
FieldSpace	sPace
Public Attributes inherited from MoFEM::DataOperator
DoWorkLhsHookFunType	doWorkLhsHook
DoWorkRhsHookFunType	doWorkRhsHook
bool	sYmm
	If true assume that matrix is symmetric structure.
std::array< bool, MBMAXTYPE >	doEntities
	If true operator is executed for entity.
bool &	doVertices
	\deprectaed If false skip vertices
bool &	doEdges
	\deprectaed If false skip edges
bool &	doQuads
	\deprectaed
bool &	doTris
	\deprectaed
bool &	doTets
	\deprectaed
bool &	doPrisms
	\deprectaed
Static Public Attributes inherited from MoFEM::ForcesAndSourcesCore::UserDataOperator
static const char *const	OpTypeNames []
Protected Member Functions inherited from MoFEM::ForcesAndSourcesCore::UserDataOperator
virtual MoFEMErrorCode	setPtrFE (ForcesAndSourcesCore *ptr)

Detailed Description

template<int Tensor_Dim, CoordinateTypes COORDINATE_SYSTEM = CARTESIAN>
struct MoFEM::OpCalculateDivergenceVectorFieldValues< Tensor_Dim, COORDINATE_SYSTEM >

Calculate divergence of vector field at integration points.

This template structure calculates the divergence of a vector field at integration points. It supports different coordinate systems and tensor dimensions, making it suitable for various physical applications.

Template Parameters

Tensor_Dim	Dimension of the vector field (e.g., 2 for 2D, 3 for 3D)
COORDINATE_SYSTEM	Coordinate system type (default: CARTESIAN)

Examples

mofem/tutorials/vec-4_shallow_wave/shallow_wave.cpp, and mofem/tutorials/vec-5_free_surface/free_surface.cpp.

Definition at line 596 of file UserDataOperators.hpp.

Constructor & Destructor Documentation

OpCalculateDivergenceVectorFieldValues()

template<int Tensor_Dim, CoordinateTypes COORDINATE_SYSTEM = CARTESIAN>

MoFEM::OpCalculateDivergenceVectorFieldValues< Tensor_Dim, COORDINATE_SYSTEM >::OpCalculateDivergenceVectorFieldValues ( const std::string  field_name, boost::shared_ptr< VectorDouble >  data_ptr, const EntityType  zero_type = MBVERTEX  )

inline

Constructor for vector field divergence calculation operator.

Parameters

field_name	Name of the vector field to calculate divergence for
data_ptr	Shared pointer to VectorDouble for storing calculated divergence values
zero_type	Entity type for zero-level entities (default: MBVERTEX)

Definition at line 606 of file UserDataOperators.hpp.

      : ForcesAndSourcesCore::UserDataOperator(
            field_name, ForcesAndSourcesCore::UserDataOperator::OPROW),
        dataPtr(data_ptr), zeroType(zero_type) {
    if (!dataPtr)
      THROW_MESSAGE("Pointer is not set");
  }

Member Function Documentation

doWork()

template<int Tensor_Dim, CoordinateTypes COORDINATE_SYSTEM = CARTESIAN>

MoFEMErrorCode MoFEM::OpCalculateDivergenceVectorFieldValues< Tensor_Dim, COORDINATE_SYSTEM >::doWork ( int  side, EntityType  type, EntitiesFieldData::EntData &  data  )

inlinevirtual

Operator for linear form, usually to calculate values on right hand side.

Reimplemented from MoFEM::DataOperator.

Definition at line 616 of file UserDataOperators.hpp.

                                                        {
    MoFEMFunctionBegin;
 
    // When we move to C++17 add if constexpr()
    if constexpr (COORDINATE_SYSTEM == POLAR || COORDINATE_SYSTEM == SPHERICAL)
      SETERRQ(PETSC_COMM_SELF, MOFEM_NOT_IMPLEMENTED,
               "%s coordiante not implemented",
               CoordinateTypesNames[COORDINATE_SYSTEM]);
 
    const size_t nb_gauss_pts = getGaussPts().size2();
    auto &vec = *dataPtr;
    if (type == zeroType) {
      vec.resize(nb_gauss_pts, false);
      vec.clear();
    }
 
    const size_t nb_dofs = data.getFieldData().size();
    if (nb_dofs) {
 
      if (nb_gauss_pts) {
        const size_t nb_base_functions = data.getN().size2();
        auto values_at_gauss_pts = getFTensor0FromVec(vec);
        FTensor::Index<'I', Tensor_Dim> I;
        const size_t size = nb_dofs / Tensor_Dim;
  #ifndef NDEBUG
        if (nb_dofs % Tensor_Dim) {
          SETERRQ(PETSC_COMM_SELF, MOFEM_DATA_INCONSISTENCY,
                  "Number of dofs should multiple of dimensions");
        }
  #endif
 
        // When we move to C++17 add if constexpr()
        if constexpr (COORDINATE_SYSTEM == CARTESIAN) {
          auto diff_base_function = data.getFTensor1DiffN<Tensor_Dim>();
          for (size_t gg = 0; gg != nb_gauss_pts; ++gg) {
            auto field_data = data.getFTensor1FieldData<Tensor_Dim>();
            size_t bb = 0;
            for (; bb != size; ++bb) {
              values_at_gauss_pts += field_data(I) * diff_base_function(I);
              ++field_data;
              ++diff_base_function;
            }
            // Number of dofs can be smaller than number of Tensor_Dim x base
            // functions
            for (; bb < nb_base_functions; ++bb)
              ++diff_base_function;
            ++values_at_gauss_pts;
          }
        }
 
        // When we move to C++17 add if constexpr()
        if constexpr (COORDINATE_SYSTEM == CYLINDRICAL) {
          auto t_coords = getFTensor1CoordsAtGaussPts();
          auto values_at_gauss_pts = getFTensor0FromVec(vec);
          auto base_function = data.getFTensor0N();
          auto diff_base_function = data.getFTensor1DiffN<Tensor_Dim>();
          for (size_t gg = 0; gg != nb_gauss_pts; ++gg) {
            auto field_data = data.getFTensor1FieldData<Tensor_Dim>();
            size_t bb = 0;
            for (; bb != size; ++bb) {
              values_at_gauss_pts += field_data(I) * diff_base_function(I);
              values_at_gauss_pts +=
                  base_function * (field_data(0) / t_coords(0));
              ++field_data;
              ++base_function;
              ++diff_base_function;
            }
            // Number of dofs can be smaller than number of Tensor_Dim x base
            // functions
            for (; bb < nb_base_functions; ++bb) {
              ++base_function;
              ++diff_base_function;
            }
            ++values_at_gauss_pts;
            ++t_coords;
          }
        }
      }
    }
    MoFEMFunctionReturn(0);
  }

Member Data Documentation

dataPtr

template<int Tensor_Dim, CoordinateTypes COORDINATE_SYSTEM = CARTESIAN>

boost::shared_ptr<VectorDouble> MoFEM::OpCalculateDivergenceVectorFieldValues< Tensor_Dim, COORDINATE_SYSTEM >::dataPtr

protected

Definition at line 700 of file UserDataOperators.hpp.

zeroType

template<int Tensor_Dim, CoordinateTypes COORDINATE_SYSTEM = CARTESIAN>

const EntityHandle MoFEM::OpCalculateDivergenceVectorFieldValues< Tensor_Dim, COORDINATE_SYSTEM >::zeroType

protected

Definition at line 701 of file UserDataOperators.hpp.

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The documentation for this struct was generated from the following file:

• src/finite_elements/UserDataOperators.hpp