MFEM v4.7.0
Finite element discretization library
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mfem::ceed::ParAlgebraicCoarseSpace Class Reference

Parallel version of AlgebraicCoarseSpace. More...

#include <algebraic.hpp>

Inheritance diagram for mfem::ceed::ParAlgebraicCoarseSpace:
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Collaboration diagram for mfem::ceed::ParAlgebraicCoarseSpace:
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Public Member Functions

 ParAlgebraicCoarseSpace (FiniteElementSpace &fine_fes, CeedElemRestriction fine_er, int order, int dim, int order_reduction_, GroupCommunicator *gc_fine)
 
virtual const mfem::OperatorGetProlongationMatrix () const override
 The returned Operator is owned by the FiniteElementSpace.
 
virtual const SparseMatrixGetRestrictionMatrix () const override
 The returned SparseMatrix is owned by the FiniteElementSpace.
 
GroupCommunicatorGetGroupCommunicator () const
 
HypreParMatrixGetProlongationHypreParMatrix ()
 
 ~ParAlgebraicCoarseSpace ()
 
- Public Member Functions inherited from mfem::ceed::AlgebraicCoarseSpace
 AlgebraicCoarseSpace (FiniteElementSpace &fine_fes, CeedElemRestriction fine_er, int order, int dim, int order_reduction_)
 
int GetOrderReduction () const
 
CeedElemRestriction GetCeedElemRestriction () const
 
CeedBasis GetCeedCoarseToFine () const
 
 ~AlgebraicCoarseSpace ()
 
- Public Member Functions inherited from mfem::FiniteElementSpace
 FiniteElementSpace ()
 Default constructor: the object is invalid until initialized using the method Load().
 
 FiniteElementSpace (const FiniteElementSpace &orig, Mesh *mesh=NULL, const FiniteElementCollection *fec=NULL)
 Copy constructor: deep copy all data from orig except the Mesh, the FiniteElementCollection, and some derived data.
 
 FiniteElementSpace (Mesh *mesh, const FiniteElementCollection *fec, int vdim=1, int ordering=Ordering::byNODES)
 
 FiniteElementSpace (Mesh *mesh, NURBSExtension *ext, const FiniteElementCollection *fec, int vdim=1, int ordering=Ordering::byNODES)
 Construct a NURBS FE space based on the given NURBSExtension, ext.
 
FiniteElementSpaceoperator= (const FiniteElementSpace &)=delete
 Copy assignment not supported.
 
MeshGetMesh () const
 Returns the mesh.
 
const NURBSExtensionGetNURBSext () const
 
NURBSExtensionGetNURBSext ()
 
NURBSExtensionStealNURBSext ()
 
bool Conforming () const
 
bool Nonconforming () const
 
void SetElementOrder (int i, int p)
 Sets the order of the i'th finite element.
 
int GetElementOrder (int i) const
 Returns the order of the i'th finite element.
 
int GetMaxElementOrder () const
 Return the maximum polynomial order.
 
bool IsVariableOrder () const
 Returns true if the space contains elements of varying polynomial orders.
 
const SparseMatrixGetConformingProlongation () const
 The returned SparseMatrix is owned by the FiniteElementSpace.
 
const SparseMatrixGetConformingRestriction () const
 The returned SparseMatrix is owned by the FiniteElementSpace.
 
const SparseMatrixGetHpConformingRestriction () const
 The returned SparseMatrix is owned by the FiniteElementSpace.
 
const OperatorGetRestrictionTransposeOperator () const
 Return an operator that performs the transpose of GetRestrictionOperator.
 
virtual const OperatorGetRestrictionOperator () const
 An abstract operator that performs the same action as GetRestrictionMatrix.
 
virtual const SparseMatrixGetHpRestrictionMatrix () const
 The returned SparseMatrix is owned by the FiniteElementSpace.
 
const ElementRestrictionOperatorGetElementRestriction (ElementDofOrdering e_ordering) const
 Return an Operator that converts L-vectors to E-vectors.
 
virtual const FaceRestrictionGetFaceRestriction (ElementDofOrdering f_ordering, FaceType, L2FaceValues mul=L2FaceValues::DoubleValued) const
 Return an Operator that converts L-vectors to E-vectors on each face.
 
const QuadratureInterpolatorGetQuadratureInterpolator (const IntegrationRule &ir) const
 Return a QuadratureInterpolator that interpolates E-vectors to quadrature point values and/or derivatives (Q-vectors).
 
const QuadratureInterpolatorGetQuadratureInterpolator (const QuadratureSpace &qs) const
 Return a QuadratureInterpolator that interpolates E-vectors to quadrature point values and/or derivatives (Q-vectors).
 
const FaceQuadratureInterpolatorGetFaceQuadratureInterpolator (const IntegrationRule &ir, FaceType type) const
 Return a FaceQuadratureInterpolator that interpolates E-vectors to quadrature point values and/or derivatives (Q-vectors).
 
int GetOrder (int i) const
 Returns the polynomial degree of the i'th finite element.
 
int GetEdgeOrder (int edge, int variant=0) const
 
int GetFaceOrder (int face, int variant=0) const
 Returns the polynomial degree of the i'th face finite element.
 
int GetVDim () const
 Returns vector dimension.
 
int GetNDofs () const
 Returns number of degrees of freedom. This is the number of Local Degrees of Freedom.
 
int GetVSize () const
 Return the number of vector dofs, i.e. GetNDofs() x GetVDim().
 
virtual int GetTrueVSize () const
 Return the number of vector true (conforming) dofs.
 
int GetNConformingDofs () const
 
int GetConformingVSize () const
 
Ordering::Type GetOrdering () const
 Return the ordering method.
 
const FiniteElementCollectionFEColl () const
 
int GetNVDofs () const
 Number of all scalar vertex dofs.
 
int GetNEDofs () const
 Number of all scalar edge-interior dofs.
 
int GetNFDofs () const
 Number of all scalar face-interior dofs.
 
int GetNV () const
 Returns number of vertices in the mesh.
 
int GetNE () const
 Returns number of elements in the mesh.
 
int GetNF () const
 Returns number of faces (i.e. co-dimension 1 entities) in the mesh.
 
int GetNBE () const
 Returns number of boundary elements in the mesh.
 
int GetNFbyType (FaceType type) const
 Returns the number of faces according to the requested type.
 
int GetElementType (int i) const
 Returns the type of element i.
 
void GetElementVertices (int i, Array< int > &vertices) const
 Returns the vertices of element i.
 
int GetBdrElementType (int i) const
 Returns the type of boundary element i.
 
ElementTransformationGetElementTransformation (int i) const
 Returns ElementTransformation for the i-th element.
 
void GetElementTransformation (int i, IsoparametricTransformation *ElTr)
 Returns the transformation defining the i-th element in the user-defined variable ElTr.
 
ElementTransformationGetBdrElementTransformation (int i) const
 Returns ElementTransformation for the i-th boundary element.
 
int GetAttribute (int i) const
 
int GetBdrAttribute (int i) const
 
void GetPatchDofs (int patch, Array< int > &dofs) const
 Returns indices of degrees of freedom for NURBS patch index patch. Cartesian ordering is used, for the tensor-product degrees of freedom.
 
MFEM_DEPRECATED void RebuildElementToDofTable ()
 (
 
void ReorderElementToDofTable ()
 Reorder the scalar DOFs based on the element ordering.
 
const TableGetElementToFaceOrientationTable () const
 
const TableGetElementToDofTable () const
 Return a reference to the internal Table that stores the lists of scalar dofs, for each mesh element, as returned by GetElementDofs().
 
const TableGetBdrElementToDofTable () const
 Return a reference to the internal Table that stores the lists of scalar dofs, for each boundary mesh element, as returned by GetBdrElementDofs().
 
const TableGetFaceToDofTable () const
 Return a reference to the internal Table that stores the lists of scalar dofs, for each face in the mesh, as returned by GetFaceDofs(). In this context, "face" refers to a (dim-1)-dimensional mesh entity.
 
void BuildDofToArrays ()
 Initialize internal data that enables the use of the methods GetElementForDof() and GetLocalDofForDof().
 
int GetElementForDof (int i) const
 Return the index of the first element that contains dof i.
 
int GetLocalDofForDof (int i) const
 Return the local dof index in the first element that contains dof i.
 
virtual const FiniteElementGetFE (int i) const
 Returns pointer to the FiniteElement in the FiniteElementCollection associated with i'th element in the mesh object. Note: The method has been updated to abort instead of returning NULL for an empty partition.
 
const FiniteElementGetBE (int i) const
 Returns pointer to the FiniteElement in the FiniteElementCollection associated with i'th boundary face in the mesh object.
 
const FiniteElementGetFaceElement (int i) const
 Returns pointer to the FiniteElement in the FiniteElementCollection associated with i'th face in the mesh object. Faces in this case refer to the MESHDIM-1 primitive so in 2D they are segments and in 1D they are points.
 
const FiniteElementGetEdgeElement (int i, int variant=0) const
 Returns pointer to the FiniteElement in the FiniteElementCollection associated with i'th edge in the mesh object.
 
const FiniteElementGetTraceElement (int i, Geometry::Type geom_type) const
 Return the trace element from element 'i' to the given 'geom_type'.
 
virtual void GetEssentialVDofs (const Array< int > &bdr_attr_is_ess, Array< int > &ess_vdofs, int component=-1) const
 Mark degrees of freedom associated with boundary elements with the specified boundary attributes (marked in 'bdr_attr_is_ess'). For spaces with 'vdim' > 1, the 'component' parameter can be used to restricts the marked vDOFs to the specified component.
 
virtual void GetEssentialTrueDofs (const Array< int > &bdr_attr_is_ess, Array< int > &ess_tdof_list, int component=-1) const
 Get a list of essential true dofs, ess_tdof_list, corresponding to the boundary attributes marked in the array bdr_attr_is_ess. For spaces with 'vdim' > 1, the 'component' parameter can be used to restricts the marked tDOFs to the specified component.
 
void GetBoundaryTrueDofs (Array< int > &boundary_dofs, int component=-1)
 Get a list of all boundary true dofs, boundary_dofs. For spaces with 'vdim' > 1, the 'component' parameter can be used to restricts the marked tDOFs to the specified component. Equivalent to FiniteElementSpace::GetEssentialTrueDofs with all boundary attributes marked as essential.
 
void ConvertToConformingVDofs (const Array< int > &dofs, Array< int > &cdofs)
 For a partially conforming FE space, convert a marker array (nonzero entries are true) on the partially conforming dofs to a marker array on the conforming dofs. A conforming dofs is marked iff at least one of its dependent dofs is marked.
 
void ConvertFromConformingVDofs (const Array< int > &cdofs, Array< int > &dofs)
 For a partially conforming FE space, convert a marker array (nonzero entries are true) on the conforming dofs to a marker array on the (partially conforming) dofs. A dof is marked iff it depends on a marked conforming dofs, where dependency is defined by the ConformingRestriction matrix; in other words, a dof is marked iff it corresponds to a marked conforming dof.
 
SparseMatrixD2C_GlobalRestrictionMatrix (FiniteElementSpace *cfes)
 Generate the global restriction matrix from a discontinuous FE space to the continuous FE space of the same polynomial degree.
 
SparseMatrixD2Const_GlobalRestrictionMatrix (FiniteElementSpace *cfes)
 Generate the global restriction matrix from a discontinuous FE space to the piecewise constant FE space.
 
SparseMatrixH2L_GlobalRestrictionMatrix (FiniteElementSpace *lfes)
 Construct the restriction matrix from the FE space given by (*this) to the lower degree FE space given by (*lfes) which is defined on the same mesh.
 
void GetTransferOperator (const FiniteElementSpace &coarse_fes, OperatorHandle &T) const
 Construct and return an Operator that can be used to transfer GridFunction data from coarse_fes, defined on a coarse mesh, to this FE space, defined on a refined mesh.
 
virtual void GetTrueTransferOperator (const FiniteElementSpace &coarse_fes, OperatorHandle &T) const
 Construct and return an Operator that can be used to transfer true-dof data from coarse_fes, defined on a coarse mesh, to this FE space, defined on a refined mesh.
 
virtual void Update (bool want_transform=true)
 Reflect changes in the mesh: update number of DOFs, etc. Also, calculate GridFunction transformation operator (unless want_transform is false). Safe to call multiple times, does nothing if space already up to date.
 
const OperatorGetUpdateOperator ()
 Get the GridFunction update operator.
 
void GetUpdateOperator (OperatorHandle &T)
 Return the update operator in the given OperatorHandle, T.
 
void SetUpdateOperatorOwner (bool own)
 Set the ownership of the update operator: if set to false, the Operator returned by GetUpdateOperator() must be deleted outside the FiniteElementSpace.
 
void SetUpdateOperatorType (Operator::Type tid)
 Specify the Operator::Type to be used by the update operators.
 
virtual void UpdatesFinished ()
 Free the GridFunction update operator (if any), to save memory.
 
long GetSequence () const
 
bool IsDGSpace () const
 Return whether or not the space is discontinuous (L2)
 
void SetRelaxedHpConformity (bool relaxed=true)
 
void Save (std::ostream &out) const
 Save finite element space to output stream out.
 
FiniteElementCollectionLoad (Mesh *m, std::istream &input)
 Read a FiniteElementSpace from a stream. The returned FiniteElementCollection is owned by the caller.
 
virtual ~FiniteElementSpace ()
 
DofTransformationGetElementDofs (int elem, Array< int > &dofs) const
 Returns indices of degrees of freedom of element 'elem'. The returned indices are offsets into an ldof vector. See also GetElementVDofs().
 
virtual void GetElementDofs (int elem, Array< int > &dofs, DofTransformation &doftrans) const
 The same as GetElementDofs(), but with a user-allocated DofTransformation object. doftrans must be allocated in advance and will be owned by the caller. The user can use the DofTransformation::GetDofTransformation method on the returned doftrans object to detect if the DofTransformation should actually be used.
 
DofTransformationGetBdrElementDofs (int bel, Array< int > &dofs) const
 Returns indices of degrees of freedom for boundary element 'bel'. The returned indices are offsets into an ldof vector. See also GetBdrElementVDofs().
 
virtual void GetBdrElementDofs (int bel, Array< int > &dofs, DofTransformation &doftrans) const
 The same as GetBdrElementDofs(), but with a user-allocated DofTransformation object. doftrans must be allocated in advance and will be owned by the caller. The user can use the DofTransformation::GetDofTransformation method on the returned doftrans object to detect if the DofTransformation should actually be used.
 
virtual int GetFaceDofs (int face, Array< int > &dofs, int variant=0) const
 Returns the indices of the degrees of freedom for the specified face, including the DOFs for the edges and the vertices of the face.
 
int GetEdgeDofs (int edge, Array< int > &dofs, int variant=0) const
 Returns the indices of the degrees of freedom for the specified edge, including the DOFs for the vertices of the edge.
 
void GetVertexDofs (int i, Array< int > &dofs) const
 Returns the indices of the degrees of freedom for the specified vertices.
 
void GetElementInteriorDofs (int i, Array< int > &dofs) const
 Returns the indices of the degrees of freedom for the interior of the specified element.
 
int GetNumElementInteriorDofs (int i) const
 Returns the number of degrees of freedom associated with the interior of the specified element.
 
void GetFaceInteriorDofs (int i, Array< int > &dofs) const
 Returns the indices of the degrees of freedom for the interior of the specified face.
 
void GetEdgeInteriorDofs (int i, Array< int > &dofs) const
 Returns the indices of the degrees of freedom for the interior of the specified edge.
 
void GetVDofs (int vd, Array< int > &dofs, int ndofs=-1) const
 Returns the indices of all of the VDofs for the specified dimension 'vd'.
 
void DofsToVDofs (Array< int > &dofs, int ndofs=-1) const
 Compute the full set of vdofs corresponding to each entry in dofs.
 
void DofsToVDofs (int vd, Array< int > &dofs, int ndofs=-1) const
 Compute the set of vdofs corresponding to each entry in dofs for the given vector index vd.
 
int DofToVDof (int dof, int vd, int ndofs=-1) const
 Compute a single vdof corresponding to the index dof and the vector index vd.
 
int VDofToDof (int vdof) const
 Compute the inverse of the Dof to VDof mapping for a single index vdof.
 
DofTransformationGetElementVDofs (int i, Array< int > &vdofs) const
 Returns indices of degrees of freedom for the i'th element. The returned indices are offsets into an ldof vector with vdim not necessarily equal to 1. The returned indices are always ordered byNODES, irrespective of whether the space is byNODES or byVDIM. See also GetElementDofs().
 
void GetElementVDofs (int i, Array< int > &vdofs, DofTransformation &doftrans) const
 The same as GetElementVDofs(), but with a user-allocated DofTransformation object. doftrans must be allocated in advance and will be owned by the caller. The user can use the DofTransformation::GetDofTransformation method on the returned doftrans object to detect if the DofTransformation should actually be used.
 
DofTransformationGetBdrElementVDofs (int i, Array< int > &vdofs) const
 Returns indices of degrees of freedom for i'th boundary element. The returned indices are offsets into an ldof vector with vdim not necessarily equal to 1. See also GetBdrElementDofs().
 
void GetBdrElementVDofs (int i, Array< int > &vdofs, DofTransformation &doftrans) const
 The same as GetBdrElementVDofs(), but with a user-allocated DofTransformation object. doftrans must be allocated in advance and will be owned by the caller. The user can use the DofTransformation::GetDofTransformation method on the returned doftrans object to detect if the DofTransformation should actually be used.
 
void GetPatchVDofs (int i, Array< int > &vdofs) const
 Returns indices of degrees of freedom in vdofs for NURBS patch i.
 
void GetFaceVDofs (int i, Array< int > &vdofs) const
 Returns the indices of the degrees of freedom for the specified face, including the DOFs for the edges and the vertices of the face.
 
void GetEdgeVDofs (int i, Array< int > &vdofs) const
 Returns the indices of the degrees of freedom for the specified edge, including the DOFs for the vertices of the edge.
 
void GetVertexVDofs (int i, Array< int > &vdofs) const
 Returns the indices of the degrees of freedom for the specified vertices.
 
void GetElementInteriorVDofs (int i, Array< int > &vdofs) const
 Returns the indices of the degrees of freedom for the interior of the specified element.
 
void GetEdgeInteriorVDofs (int i, Array< int > &vdofs) const
 Returns the indices of the degrees of freedom for the interior of the specified edge.
 

Additional Inherited Members

- Static Public Member Functions inherited from mfem::FiniteElementSpace
static void AdjustVDofs (Array< int > &vdofs)
 Remove the orientation information encoded into an array of dofs Some basis function types have a relative orientation associated with degrees of freedom shared between neighboring elements, see ldof for more information. An orientation mismatch is indicated in the dof indices by a negative index value. This method replaces such negative indices with the corresponding positive offsets.
 
static int EncodeDof (int entity_base, int idx)
 Helper to encode a sign flip into a DOF index (for Hcurl/Hdiv shapes).
 
static int DecodeDof (int dof)
 Helper to return the DOF associated with a sign encoded DOF.
 
static int DecodeDof (int dof, real_t &sign)
 Helper to determine the DOF and sign of a sign encoded DOF.
 
static void MarkerToList (const Array< int > &marker, Array< int > &list)
 Convert a Boolean marker array to a list containing all marked indices.
 
static void ListToMarker (const Array< int > &list, int marker_size, Array< int > &marker, int mark_val=-1)
 Convert an array of indices (list) to a Boolean marker array where all indices in the list are marked with the given value and the rest are set to zero.
 
- Protected Types inherited from mfem::FiniteElementSpace
using key_face = std::tuple<bool, ElementDofOrdering, FaceType, L2FaceValues>
 The face restriction operators, see GetFaceRestriction().
 
using map_L2F = std::unordered_map<const key_face,FaceRestriction*,key_hash>
 
typedef std::uint64_t VarOrderBits
 Bit-mask representing a set of orders needed by an edge/face.
 
- Protected Member Functions inherited from mfem::FiniteElementSpace
void UpdateNURBS ()
 
void Construct ()
 
void Destroy ()
 
void ConstructDoFTransArray ()
 
void DestroyDoFTransArray ()
 
void BuildElementToDofTable () const
 
void BuildBdrElementToDofTable () const
 
void BuildFaceToDofTable () const
 
void BuildNURBSFaceToDofTable () const
 Generates partial face_dof table for a NURBS space.
 
int GetElementOrderImpl (int i) const
 Return element order: internal version of GetElementOrder without checks.
 
void CalcEdgeFaceVarOrders (Array< VarOrderBits > &edge_orders, Array< VarOrderBits > &face_orders) const
 
int MakeDofTable (int ent_dim, const Array< int > &entity_orders, Table &entity_dofs, Array< char > *var_ent_order)
 
int FindDofs (const Table &var_dof_table, int row, int ndof) const
 Search row of a DOF table for a DOF set of size 'ndof', return first DOF.
 
int FindEdgeDof (int edge, int ndof) const
 
int FindFaceDof (int face, int ndof) const
 Similar to FindEdgeDof, but used for mixed meshes too.
 
int FirstFaceDof (int face, int variant=0) const
 
int GetNVariants (int entity, int index) const
 Return number of possible DOF variants for edge/face (var. order spaces).
 
int GetEntityDofs (int entity, int index, Array< int > &dofs, Geometry::Type master_geom=Geometry::INVALID, int variant=0) const
 Helper to get vertex, edge or face DOFs (entity=0,1,2 resp.).
 
int GetEntityVDofs (int entity, int index, Array< int > &dofs, Geometry::Type master_geom=Geometry::INVALID, int variant=0) const
 Helper to get vertex, edge or face VDOFs (entity=0,1,2 resp.).
 
int GetDegenerateFaceDofs (int index, Array< int > &dofs, Geometry::Type master_geom, int variant) const
 
int GetNumBorderDofs (Geometry::Type geom, int order) const
 
void BuildConformingInterpolation () const
 Calculate the cP and cR matrices for a nonconforming mesh.
 
void AddEdgeFaceDependencies (SparseMatrix &deps, Array< int > &master_dofs, const FiniteElement *master_fe, Array< int > &slave_dofs, int slave_face, const DenseMatrix *pm) const
 
void MakeVDimMatrix (SparseMatrix &mat) const
 Replicate 'mat' in the vector dimension, according to vdim ordering mode.
 
SparseMatrixRefinementMatrix_main (const int coarse_ndofs, const Table &coarse_elem_dof, const Table *coarse_elem_fos, const DenseTensor localP[]) const
 
void GetLocalRefinementMatrices (Geometry::Type geom, DenseTensor &localP) const
 
void GetLocalDerefinementMatrices (Geometry::Type geom, DenseTensor &localR) const
 
SparseMatrixRefinementMatrix (int old_ndofs, const Table *old_elem_dof, const Table *old_elem_fos)
 
SparseMatrixDerefinementMatrix (int old_ndofs, const Table *old_elem_dof, const Table *old_elem_fos)
 Calculate GridFunction restriction matrix after mesh derefinement.
 
void GetLocalRefinementMatrices (const FiniteElementSpace &coarse_fes, Geometry::Type geom, DenseTensor &localP) const
 Return in localP the local refinement matrices that map between fespaces after mesh refinement.
 
void Constructor (Mesh *mesh, NURBSExtension *ext, const FiniteElementCollection *fec, int vdim=1, int ordering=Ordering::byNODES)
 Help function for constructors + Load().
 
virtual void UpdateMeshPointer (Mesh *new_mesh)
 
void UpdateElementOrders ()
 Resize the elem_order array on mesh change.
 
virtual void CopyProlongationAndRestriction (const FiniteElementSpace &fes, const Array< int > *perm)
 Copies the prolongation and restriction matrices from fes.
 
- Static Protected Member Functions inherited from mfem::FiniteElementSpace
static int MinOrder (VarOrderBits bits)
 Return the minimum order (least significant bit set) in the bit mask.
 
static void AddDependencies (SparseMatrix &deps, Array< int > &master_dofs, Array< int > &slave_dofs, DenseMatrix &I, int skipfirst=0)
 
static bool DofFinalizable (int dof, const Array< bool > &finalized, const SparseMatrix &deps)
 
- Protected Attributes inherited from mfem::ceed::AlgebraicCoarseSpace
int * dof_map
 
int order_reduction
 
CeedElemRestriction ceed_elem_restriction
 
CeedBasis coarse_to_fine
 
- Protected Attributes inherited from mfem::FiniteElementSpace
Meshmesh
 The mesh that FE space lives on (not owned).
 
const FiniteElementCollectionfec
 Associated FE collection (not owned).
 
int vdim
 Vector dimension (number of unknowns per degree of freedom).
 
Ordering::Type ordering
 
int ndofs
 Number of degrees of freedom. Number of unknowns is ndofs * vdim.
 
Array< char > elem_order
 
int nvdofs
 
int nedofs
 
int nfdofs
 
int nbdofs
 
int uni_fdof
 
int * bdofs
 internal DOFs of elements if mixed/var-order; NULL otherwise
 
Table var_edge_dofs
 
Table var_face_dofs
 NOTE: also used for spaces with mixed faces.
 
Array< char > var_edge_orders
 
Array< char > var_face_orders
 
Tableelem_dof
 
Tableelem_fos
 
Tablebdr_elem_dof
 
Tablebdr_elem_fos
 
Tableface_dof
 
Array< int > dof_elem_array
 
Array< int > dof_ldof_array
 
NURBSExtensionNURBSext
 
int own_ext
 
Array< int > face_to_be
 
Array< StatelessDofTransformation * > DoFTransArray
 
DofTransformation DoFTrans
 
std::unique_ptr< SparseMatrixcP
 
std::unique_ptr< SparseMatrixcR
 Conforming restriction matrix such that cR.cP=I.
 
std::unique_ptr< SparseMatrixcR_hp
 A version of the conforming restriction matrix for variable-order spaces.
 
bool cP_is_set
 
std::unique_ptr< OperatorR_transpose
 Operator computing the action of the transpose of the restriction.
 
OperatorHandle Th
 Transformation to apply to GridFunctions after space Update().
 
OperatorHandle L2E_nat
 The element restriction operators, see GetElementRestriction().
 
OperatorHandle L2E_lex
 
map_L2F L2F
 
Array< QuadratureInterpolator * > E2Q_array
 
Array< FaceQuadratureInterpolator * > E2IFQ_array
 
Array< FaceQuadratureInterpolator * > E2BFQ_array
 
long sequence
 
long mesh_sequence
 
bool orders_changed
 True if at least one element order changed (variable-order space only).
 
bool relaxed_hp
 
- Static Protected Attributes inherited from mfem::FiniteElementSpace
static constexpr int MaxVarOrder = 8*sizeof(VarOrderBits) - 1
 

Detailed Description

Parallel version of AlgebraicCoarseSpace.

This provides prolongation and restriction matrices for RAP-type parallel operators and potential explicit assembly.

Definition at line 56 of file algebraic.hpp.

Constructor & Destructor Documentation

◆ ParAlgebraicCoarseSpace()

mfem::ceed::ParAlgebraicCoarseSpace::ParAlgebraicCoarseSpace ( FiniteElementSpace & fine_fes,
CeedElemRestriction fine_er,
int order,
int dim,
int order_reduction_,
GroupCommunicator * gc_fine )

Definition at line 736 of file algebraic.cpp.

◆ ~ParAlgebraicCoarseSpace()

mfem::ceed::ParAlgebraicCoarseSpace::~ParAlgebraicCoarseSpace ( )

Definition at line 938 of file algebraic.cpp.

Member Function Documentation

◆ GetGroupCommunicator()

GroupCommunicator * mfem::ceed::ParAlgebraicCoarseSpace::GetGroupCommunicator ( ) const
inline

Definition at line 69 of file algebraic.hpp.

◆ GetProlongationHypreParMatrix()

HypreParMatrix * mfem::ceed::ParAlgebraicCoarseSpace::GetProlongationHypreParMatrix ( )

Definition at line 824 of file algebraic.cpp.

◆ GetProlongationMatrix()

virtual const mfem::Operator * mfem::ceed::ParAlgebraicCoarseSpace::GetProlongationMatrix ( ) const
inlineoverridevirtual

The returned Operator is owned by the FiniteElementSpace.

Reimplemented from mfem::ceed::AlgebraicCoarseSpace.

Definition at line 67 of file algebraic.hpp.

◆ GetRestrictionMatrix()

virtual const SparseMatrix * mfem::ceed::ParAlgebraicCoarseSpace::GetRestrictionMatrix ( ) const
inlineoverridevirtual

The returned SparseMatrix is owned by the FiniteElementSpace.

Reimplemented from mfem::ceed::AlgebraicCoarseSpace.

Definition at line 68 of file algebraic.hpp.


The documentation for this class was generated from the following files: