mfem::AnalyticAdaptTC Class Reference

#include <tmop.hpp>

Inheritance diagram for mfem::AnalyticAdaptTC:

Collaboration diagram for mfem::AnalyticAdaptTC:

Public Member Functions
	AnalyticAdaptTC (TargetType ttype)
virtual void	SetAnalyticTargetSpec (Coefficient *sspec, VectorCoefficient *vspec, TMOPMatrixCoefficient *mspec)
virtual void	ComputeElementTargets (int e_id, const FiniteElement &fe, const IntegrationRule &ir, const Vector &elfun, DenseTensor &Jtr) const
	Given an element and quadrature rule, computes ref->target transformation Jacobians for each quadrature point in the element. The physical positions of the element's nodes are given by elfun. More...
virtual void	ComputeAllElementTargets (const FiniteElementSpace &fes, const IntegrationRule &ir, const Vector &xe, DenseTensor &Jtr) const
	Computes reference-to-target transformation Jacobians for all quadrature points in all elements. More...
virtual void	ComputeElementTargetsGradient (const IntegrationRule &ir, const Vector &elfun, IsoparametricTransformation &Tpr, DenseTensor &dJtr) const
Public Member Functions inherited from mfem::TargetConstructor
	TargetConstructor (TargetType ttype)
	Constructor for use in serial. More...
	TargetConstructor (TargetType ttype, MPI_Comm mpicomm)
	Constructor for use in parallel. More...
virtual	~TargetConstructor ()
bool	Parallel () const
MPI_Comm	GetComm () const
bool	Parallel () const
void	SetNodes (const GridFunction &n)
	Set the nodes to be used in the target-matrix construction. More...
const GridFunction *	GetNodes () const
	Get the nodes to be used in the target-matrix construction. More...
void	SetVolumeScale (double vol_scale)
	Used by target type IDEAL_SHAPE_EQUAL_SIZE. The default volume scale is 1. More...
TargetType	GetTargetType () const
bool	UsesPhysicalCoordinates () const
	Return true if the methods ComputeElementTargets(), ComputeAllElementTargets(), and ComputeElementTargetsGradient() use the physical node coordinates provided by the parameters 'elfun', or 'xe'. More...
virtual bool	ContainsVolumeInfo () const
	Checks if the target matrices contain non-trivial size specification. More...

Protected Attributes
Coefficient *	scalar_tspec
VectorCoefficient *	vector_tspec
TMOPMatrixCoefficient *	matrix_tspec
Protected Attributes inherited from mfem::TargetConstructor
const GridFunction *	nodes
double	avg_volume
double	volume_scale
const TargetType	target_type
bool	uses_phys_coords
MPI_Comm	comm

Additional Inherited Members
Public Types inherited from mfem::TargetConstructor
enum	TargetType {   IDEAL_SHAPE_UNIT_SIZE, IDEAL_SHAPE_EQUAL_SIZE, IDEAL_SHAPE_GIVEN_SIZE, GIVEN_SHAPE_AND_SIZE,   GIVEN_FULL }
	Target-matrix construction algorithms supported by this class. More...
Protected Member Functions inherited from mfem::TargetConstructor
void	ComputeAvgVolume () const
template<int DIM>
bool	ComputeAllElementTargets (const FiniteElementSpace &fes, const IntegrationRule &ir, const Vector &xe, DenseTensor &Jtr) const
void	ComputeAllElementTargets_Fallback (const FiniteElementSpace &fes, const IntegrationRule &ir, const Vector &xe, DenseTensor &Jtr) const

Detailed Description

Definition at line 1048 of file tmop.hpp.

Constructor & Destructor Documentation

mfem::AnalyticAdaptTC::AnalyticAdaptTC ( TargetType  ttype )

inline

Definition at line 1057 of file tmop.hpp.

Member Function Documentation

virtual void mfem::AnalyticAdaptTC::ComputeAllElementTargets ( const FiniteElementSpace &  fes, const IntegrationRule &  ir, const Vector &  xe, DenseTensor &  Jtr  ) const

virtual

Computes reference-to-target transformation Jacobians for all quadrature points in all elements.

Parameters

[in]	fes	The nodal FE space
[in]	ir	The quadrature rule to use for all elements
[in]	xe	E-vector with the current physical coordinates/positions; this parameter is used only when needed by the target constructor, see UsesPhysicalCoordinates()
[out]	Jtr	The computed ref->target Jacobian matrices.

Reimplemented from mfem::TargetConstructor.

void mfem::AnalyticAdaptTC::ComputeElementTargets ( int  e_id, const FiniteElement &  fe, const IntegrationRule &  ir, const Vector &  elfun, DenseTensor &  Jtr  ) const

virtual

Given an element and quadrature rule, computes ref->target transformation Jacobians for each quadrature point in the element. The physical positions of the element's nodes are given by elfun.

Reimplemented from mfem::TargetConstructor.

Definition at line 1236 of file tmop.cpp.

void mfem::AnalyticAdaptTC::ComputeElementTargetsGradient ( const IntegrationRule &  ir, const Vector &  elfun, IsoparametricTransformation &  Tpr, DenseTensor &  dJtr  ) const

virtual

Reimplemented from mfem::TargetConstructor.

Definition at line 1270 of file tmop.cpp.

void mfem::AnalyticAdaptTC::SetAnalyticTargetSpec ( Coefficient *  sspec, VectorCoefficient *  vspec, TMOPMatrixCoefficient *  mspec  )

virtual

Definition at line 1227 of file tmop.cpp.

Member Data Documentation

TMOPMatrixCoefficient* mfem::AnalyticAdaptTC::matrix_tspec

protected

Definition at line 1054 of file tmop.hpp.

Coefficient* mfem::AnalyticAdaptTC::scalar_tspec

protected

Definition at line 1052 of file tmop.hpp.

VectorCoefficient* mfem::AnalyticAdaptTC::vector_tspec

protected

Definition at line 1053 of file tmop.hpp.

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

• fem/tmop.hpp
• fem/tmop.cpp