Intrepid2
Public Types | Public Member Functions | Protected Attributes | List of all members
Intrepid2::Basis_Derived_HGRAD_QUAD< HGRAD_LINE > Class Template Reference
Inheritance diagram for Intrepid2::Basis_Derived_HGRAD_QUAD< HGRAD_LINE >:
Intrepid2::Basis_TensorBasis< HGRAD_LINE::BasisBase >

Public Types

using ExecutionSpace = typename HGRAD_LINE::ExecutionSpace
 
using OutputValueType = typename HGRAD_LINE::OutputValueType
 
using PointValueType = typename HGRAD_LINE::PointValueType
 
using OutputViewType = typename HGRAD_LINE::OutputViewType
 
using PointViewType = typename HGRAD_LINE::PointViewType
 
using ScalarViewType = typename HGRAD_LINE::ScalarViewType
 
using BasisBase = typename HGRAD_LINE::BasisBase
 
using LineBasis = HGRAD_LINE
 
using TensorBasis = Basis_TensorBasis< BasisBase >
 
- Public Types inherited from Intrepid2::Basis_TensorBasis< HGRAD_LINE::BasisBase >
using BasisBase = HGRAD_LINE::BasisBase
 
using BasisPtr = Teuchos::RCP< BasisBase >
 
using DeviceType = typename BasisBase::DeviceType
 
using ExecutionSpace = typename BasisBase::ExecutionSpace
 
using OutputValueType = typename BasisBase::OutputValueType
 
using PointValueType = typename BasisBase::PointValueType
 
using OrdinalTypeArray1DHost = typename BasisBase::OrdinalTypeArray1DHost
 
using OrdinalTypeArray2DHost = typename BasisBase::OrdinalTypeArray2DHost
 
using OutputViewType = typename BasisBase::OutputViewType
 
using PointViewType = typename BasisBase::PointViewType
 
using TensorBasis = Basis_TensorBasis< HGRAD_LINE::BasisBase >
 

Public Member Functions

 Basis_Derived_HGRAD_QUAD (int polyOrder_x, int polyOrder_y, const EPointType pointType=POINTTYPE_DEFAULT)
 Constructor. More...
 
 Basis_Derived_HGRAD_QUAD (int polyOrder, const EPointType pointType=POINTTYPE_DEFAULT)
 Constructor. More...
 
virtual bool requireOrientation () const override
 True if orientation is required.
 
virtual OperatorTensorDecomposition getSimpleOperatorDecomposition (const EOperator operatorType) const override
 Returns a simple decomposition of the specified operator: what operator(s) should be applied to basis1, and what operator(s) to basis2. A one-element vector corresponds to a single TensorData entry; a multiple-element vector corresponds to a VectorData object with axialComponents = false.
 
virtual void getValues (OutputViewType outputValues, const EOperator operatorType, const PointViewType inputPoints1, const PointViewType inputPoints2, bool tensorPoints) const override
 multi-component getValues() method (required/called by TensorBasis) More...
 
virtual const char * getName () const override
 Returns basis name. More...
 
Teuchos::RCP< BasisBase > getSubCellRefBasis (const ordinal_type subCellDim, const ordinal_type subCellOrd) const override
 returns the basis associated to a subCell. More...
 
virtual HostBasisPtr< OutputValueType, PointValueType > getHostBasis () const override
 Creates and returns a Basis object whose DeviceType template argument is Kokkos::HostSpace::device_type, but is otherwise identical to this. More...
 
- Public Member Functions inherited from Intrepid2::Basis_TensorBasis< HGRAD_LINE::BasisBase >
 Basis_TensorBasis (BasisPtr basis1, BasisPtr basis2, EFunctionSpace functionSpace=FUNCTION_SPACE_MAX)
 Constructor. More...
 
virtual OperatorTensorDecomposition getOperatorDecomposition (const EOperator operatorType) const
 Returns a full decomposition of the specified operator. (Full meaning that all TensorBasis components are expanded into their non-TensorBasis components.)
 
virtual BasisValues< OutputValueType, DeviceType > allocateBasisValues (TensorPoints< PointValueType, DeviceType > points, const EOperator operatorType=OPERATOR_VALUE) const override
 Allocate BasisValues container suitable for passing to the getValues() variant that takes a TensorPoints container as argument. More...
 
void getComponentPoints (const PointViewType inputPoints, const bool attemptTensorDecomposition, PointViewType &inputPoints1, PointViewType &inputPoints2, bool &tensorDecompositionSucceeded) const
 Method to extract component points from composite points. More...
 
virtual void getDofCoords (typename BasisBase::ScalarViewType dofCoords) const override
 Fills in spatial locations (coordinates) of degrees of freedom (nodes) on the reference cell. More...
 
virtual void getDofCoeffs (typename BasisBase::ScalarViewType dofCoeffs) const override
 Fills in coefficients of degrees of freedom on the reference cell. More...
 
ordinal_type getTensorDkEnumeration (ordinal_type dkEnum1, ordinal_type operatorOrder1, ordinal_type dkEnum2, ordinal_type operatorOrder2) const
 Given "Dk" enumeration indices for the component bases, returns a Dk enumeration index for the composite basis. More...
 
std::vector< BasisPtr > getTensorBasisComponents () const
 
virtual void getValues (BasisValues< OutputValueType, DeviceType > outputValues, const TensorPoints< PointValueType, DeviceType > inputPoints, const EOperator operatorType=OPERATOR_VALUE) const override
 Evaluation of a FEM basis on a reference cell, using point and output value containers that allow preservation of tensor-product structure. More...
 
void getValues (OutputViewType outputValues, const PointViewType inputPoints, const EOperator operatorType=OPERATOR_VALUE) const override
 Evaluation of a FEM basis on a reference cell. More...
 
virtual void getValues (OutputViewType outputValues, const EOperator operatorType, const PointViewType inputPoints1, const PointViewType inputPoints2, bool tensorPoints) const
 Evaluation of a tensor FEM basis on a reference cell; subclasses should override this. More...
 
void getValues (OutputViewType outputValues, const PointViewType inputPoints1, const EOperator operatorType1, const PointViewType inputPoints2, const EOperator operatorType2, bool tensorPoints, double weight=1.0) const
 Evaluation of a tensor FEM basis on a reference cell. More...
 

Protected Attributes

std::string name_
 
ordinal_type order_x_
 
ordinal_type order_y_
 
EPointType pointType_
 
- Protected Attributes inherited from Intrepid2::Basis_TensorBasis< HGRAD_LINE::BasisBase >
BasisPtr basis1_
 
BasisPtr basis2_
 
std::vector< BasisPtr > tensorComponents_
 
std::string name_
 

Detailed Description

template<class HGRAD_LINE>
class Intrepid2::Basis_Derived_HGRAD_QUAD< HGRAD_LINE >

Definition at line 59 of file Intrepid2_DerivedBasis_HGRAD_QUAD.hpp.

Constructor & Destructor Documentation

◆ Basis_Derived_HGRAD_QUAD() [1/2]

template<class HGRAD_LINE >
Intrepid2::Basis_Derived_HGRAD_QUAD< HGRAD_LINE >::Basis_Derived_HGRAD_QUAD ( int  polyOrder_x,
int  polyOrder_y,
const EPointType  pointType = POINTTYPE_DEFAULT 
)
inline

Constructor.

Parameters
[in]polyOrder_x- the polynomial order in the x dimension.
[in]polyOrder_y- the polynomial order in the y dimension.
[in]pointType- type of lattice used for creating the DoF coordinates.

Definition at line 84 of file Intrepid2_DerivedBasis_HGRAD_QUAD.hpp.

◆ Basis_Derived_HGRAD_QUAD() [2/2]

template<class HGRAD_LINE >
Intrepid2::Basis_Derived_HGRAD_QUAD< HGRAD_LINE >::Basis_Derived_HGRAD_QUAD ( int  polyOrder,
const EPointType  pointType = POINTTYPE_DEFAULT 
)
inline

Constructor.

Parameters
[in]polyOrder- the polynomial order to use in both dimensions.
[in]pointType- type of lattice used for creating the DoF coordinates.

Definition at line 104 of file Intrepid2_DerivedBasis_HGRAD_QUAD.hpp.

Member Function Documentation

◆ getHostBasis()

template<class HGRAD_LINE >
virtual HostBasisPtr<OutputValueType, PointValueType> Intrepid2::Basis_Derived_HGRAD_QUAD< HGRAD_LINE >::getHostBasis ( ) const
inlineoverridevirtual

Creates and returns a Basis object whose DeviceType template argument is Kokkos::HostSpace::device_type, but is otherwise identical to this.

Returns
Pointer to the new Basis object.

Reimplemented from Intrepid2::Basis_TensorBasis< HGRAD_LINE::BasisBase >.

Definition at line 241 of file Intrepid2_DerivedBasis_HGRAD_QUAD.hpp.

◆ getName()

template<class HGRAD_LINE >
virtual const char* Intrepid2::Basis_Derived_HGRAD_QUAD< HGRAD_LINE >::getName ( ) const
inlineoverridevirtual

Returns basis name.

Returns
the name of the basis

Reimplemented from Intrepid2::Basis_TensorBasis< HGRAD_LINE::BasisBase >.

Definition at line 207 of file Intrepid2_DerivedBasis_HGRAD_QUAD.hpp.

◆ getSubCellRefBasis()

template<class HGRAD_LINE >
Teuchos::RCP<BasisBase> Intrepid2::Basis_Derived_HGRAD_QUAD< HGRAD_LINE >::getSubCellRefBasis ( const ordinal_type  subCellDim,
const ordinal_type  subCellOrd 
) const
inlineoverride

returns the basis associated to a subCell.

The bases of the subCell are the restriction to the subCell of the bases of the parent cell. TODO: test this method when different orders are used in different directions

Parameters
[in]subCellDim- dimension of subCell
[in]subCellOrd- position of the subCell among of the subCells having the same dimension
Returns
pointer to the subCell basis of dimension subCellDim and position subCellOrd

Definition at line 221 of file Intrepid2_DerivedBasis_HGRAD_QUAD.hpp.

◆ getValues()

template<class HGRAD_LINE >
virtual void Intrepid2::Basis_Derived_HGRAD_QUAD< HGRAD_LINE >::getValues ( OutputViewType  outputValues,
const EOperator  operatorType,
const PointViewType  inputPoints1,
const PointViewType  inputPoints2,
bool  tensorPoints 
) const
inlineoverridevirtual

multi-component getValues() method (required/called by TensorBasis)

Parameters
[out]outputValues- the view into which to place the output values
[in]operatorType- the operator on the basis
[in]inputPoints1- input points in the x dimension
[in]inputPoints2- input points in the y dimension
[in]tensorPoints- if true, inputPoints1 and inputPoints2 should be understood as tensorial components of the points in outputValues (i.e., the evaluation points are the tensor product of inputPoints1 and inputPoints2). If false, inputPoints1 and inputPoints2 should correspond elementwise to the evaluation points.

Definition at line 152 of file Intrepid2_DerivedBasis_HGRAD_QUAD.hpp.


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