Intrepid2
Intrepid2_HCURL_WEDGE_I1_FEM.hpp
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49#ifndef __INTREPID2_HCURL_WEDGE_I1_FEM_HPP__
50#define __INTREPID2_HCURL_WEDGE_I1_FEM_HPP__
51
52#include "Intrepid2_Basis.hpp"
55
56namespace Intrepid2 {
57
111 namespace Impl {
112
117 public:
118 typedef struct Wedge<6> cell_topology_type;
119
123 template<EOperator opType>
124 struct Serial {
125 template<typename OutputViewType,
126 typename inputViewType>
127 KOKKOS_INLINE_FUNCTION
128 static void
129 getValues( OutputViewType output,
130 const inputViewType input );
131
132 };
133
134 template<typename DeviceType,
135 typename outputValueValueType, class ...outputValueProperties,
136 typename inputPointValueType, class ...inputPointProperties>
137 static void
138 getValues( Kokkos::DynRankView<outputValueValueType,outputValueProperties...> outputValues,
139 const Kokkos::DynRankView<inputPointValueType, inputPointProperties...> inputPoints,
140 const EOperator operatorType);
141
145 template<typename outputValueViewType,
146 typename inputPointViewType,
147 EOperator opType>
148 struct Functor {
149 outputValueViewType _outputValues;
150 const inputPointViewType _inputPoints;
151
152 KOKKOS_INLINE_FUNCTION
153 Functor( outputValueViewType outputValues_,
154 inputPointViewType inputPoints_ )
155 : _outputValues(outputValues_), _inputPoints(inputPoints_) {}
156
157 KOKKOS_INLINE_FUNCTION
158 void operator()(const ordinal_type pt) const {
159 switch (opType) {
160 case OPERATOR_VALUE : {
161 auto output = Kokkos::subview( _outputValues, Kokkos::ALL(), pt, Kokkos::ALL() );
162 const auto input = Kokkos::subview( _inputPoints, pt, Kokkos::ALL() );
163 Serial<opType>::getValues( output, input );
164 break;
165 }
166 case OPERATOR_CURL : {
167 auto output = Kokkos::subview( _outputValues, Kokkos::ALL(), pt, Kokkos::ALL() );
168 const auto input = Kokkos::subview( _inputPoints, pt, Kokkos::ALL() );
169 Serial<opType>::getValues( output, input );
170 break;
171 }
172 default: {
173 INTREPID2_TEST_FOR_ABORT( opType != OPERATOR_VALUE &&
174 opType != OPERATOR_CURL,
175 ">>> ERROR: (Intrepid2::Basis_HCURL_WEDGE_I1_FEM::Serial::getValues) operator is not supported");
176 }
177 }
178 }
179 };
180 };
181 }
182
183 template<typename DeviceType = void,
184 typename outputValueType = double,
185 typename pointValueType = double>
186 class Basis_HCURL_WEDGE_I1_FEM : public Basis<DeviceType, outputValueType, pointValueType> {
187 public:
191
195
199
200 using Basis<DeviceType,outputValueType,pointValueType>::getValues;
201
202 virtual
203 void
204 getValues( OutputViewType outputValues,
205 const PointViewType inputPoints,
206 const EOperator operatorType = OPERATOR_VALUE ) const override {
207#ifdef HAVE_INTREPID2_DEBUG
208 // Verify arguments
210 inputPoints,
211 operatorType,
212 this->getBaseCellTopology(),
213 this->getCardinality() );
214#endif
215 Impl::Basis_HCURL_WEDGE_I1_FEM::
216 getValues<DeviceType>( outputValues,
217 inputPoints,
218 operatorType );
219 }
220
221 virtual
222 void
223 getDofCoords( ScalarViewType dofCoords ) const override {
224#ifdef HAVE_INTREPID2_DEBUG
225 // Verify rank of output array.
226 INTREPID2_TEST_FOR_EXCEPTION( dofCoords.rank() != 2, std::invalid_argument,
227 ">>> ERROR: (Intrepid2::Basis_HCURL_WEDGE_I1_FEM::getDofCoords) rank = 2 required for dofCoords array");
228 // Verify 0th dimension of output array.
229 INTREPID2_TEST_FOR_EXCEPTION( static_cast<ordinal_type>(dofCoords.extent(0)) != this->basisCardinality_, std::invalid_argument,
230 ">>> ERROR: (Intrepid2::Basis_HCURL_WEDGE_I1_FEM::getDofCoords) mismatch in number of dof and 0th dimension of dofCoords array");
231 // Verify 1st dimension of output array.
232 INTREPID2_TEST_FOR_EXCEPTION( dofCoords.extent(1) != this->basisCellTopology_.getDimension(), std::invalid_argument,
233 ">>> ERROR: (Intrepid2::Basis_HCURL_WEDGE_I1_FEM::getDofCoords) incorrect reference cell (1st) dimension in dofCoords array");
234#endif
235 Kokkos::deep_copy(dofCoords, this->dofCoords_);
236 }
237
238 virtual
239 void
240 getDofCoeffs( ScalarViewType dofCoeffs ) const override {
241 #ifdef HAVE_INTREPID2_DEBUG
242 // Verify rank of output array.
243 INTREPID2_TEST_FOR_EXCEPTION( dofCoeffs.rank() != 2, std::invalid_argument,
244 ">>> ERROR: (Intrepid2::Basis_HCURL_WEDGE_I1_FEM::getDofCoeffs) rank = 2 required for dofCoeffs array");
245 // Verify 0th dimension of output array.
246 INTREPID2_TEST_FOR_EXCEPTION( static_cast<ordinal_type>(dofCoeffs.extent(0)) != this->getCardinality(), std::invalid_argument,
247 ">>> ERROR: (Intrepid2::Basis_HCURL_WEDGE_I1_FEM::getDofCoeffs) mismatch in number of dof and 0th dimension of dofCoeffs array");
248 // Verify 1st dimension of output array.
249 INTREPID2_TEST_FOR_EXCEPTION( dofCoeffs.extent(1) != this->getBaseCellTopology().getDimension(), std::invalid_argument,
250 ">>> ERROR: (Intrepid2::Basis_HCURL_WEDGE_I1_FEM::getDofCoeffs) incorrect reference cell (1st) dimension in dofCoeffs array");
251 #endif
252 Kokkos::deep_copy(dofCoeffs, this->dofCoeffs_);
253 }
254
255 virtual
256 const char*
257 getName() const override {
258 return "Intrepid2_HCURL_WEDGE_I1_FEM";
259 }
260
261 virtual
262 bool
263 requireOrientation() const override {
264 return true;
265 }
266
277 getSubCellRefBasis(const ordinal_type subCellDim, const ordinal_type subCellOrd) const override{
278
279 if(subCellDim == 1)
280 return Teuchos::rcp( new
281 Basis_HVOL_C0_FEM<DeviceType,outputValueType,pointValueType>(shards::getCellTopologyData<shards::Line<2> >()));
282 else if(subCellDim == 2) {
283 if((subCellOrd >=0) && (subCellOrd<3))
284 return Teuchos::rcp(new
286 if((subCellOrd==3)||(subCellOrd==4))
287 return Teuchos::rcp(new
289 }
290
291 INTREPID2_TEST_FOR_EXCEPTION(true,std::invalid_argument,"Input parameters out of bounds");
292 }
293
295 getHostBasis() const override{
297 }
298 };
299}// namespace Intrepid2
300
302
303#endif
Header file for the abstract base class Intrepid2::Basis.
Teuchos::RCP< Basis< DeviceType, OutputType, PointType > > BasisPtr
Basis Pointer.
void getValues_HCURL_Args(const outputValueViewType outputValues, const inputPointViewType inputPoints, const EOperator operatorType, const shards::CellTopology cellTopo, const ordinal_type basisCard)
Runtime check of the arguments for the getValues method in an HCURL-conforming FEM basis....
Header file for the Intrepid2::Basis_HCURL_QUAD_I1_FEM class.
Header file for the Intrepid2::Basis_HCURL_TRI_I1_FEM class.
Definition file for FEM basis functions of degree 1 for H(curl) functions on WEDGE cells.
Implementation of the default H(curl)-compatible FEM basis of degree 1 on Quadrilateral cell.
Implementation of the default H(curl)-compatible FEM basis of degree 1 on Triangle cell.
Implementation of the default H(curl)-compatible FEM basis of degree 1 on Wedge cell.
virtual void getValues(OutputViewType outputValues, const PointViewType inputPoints, const EOperator operatorType=OPERATOR_VALUE) const override
Evaluation of a FEM basis on a reference cell.
virtual const char * getName() const override
Returns basis name.
BasisPtr< DeviceType, outputValueType, pointValueType > getSubCellRefBasis(const ordinal_type subCellDim, const ordinal_type subCellOrd) const override
returns the basis associated to a subCell.
virtual bool requireOrientation() const override
True if orientation is required.
virtual void getDofCoeffs(ScalarViewType dofCoeffs) const override
Coefficients for computing degrees of freedom for Lagrangian basis If P is an element of the space sp...
BasisPtr< typename Kokkos::HostSpace::device_type, outputValueType, pointValueType > getHostBasis() const override
Creates and returns a Basis object whose DeviceType template argument is Kokkos::HostSpace::device_ty...
virtual void getDofCoords(ScalarViewType dofCoords) const override
Returns spatial locations (coordinates) of degrees of freedom on the reference cell.
Implementation of the default HVOL-compatible FEM contstant basis on triangle, quadrilateral,...
An abstract base class that defines interface for concrete basis implementations for Finite Element (...
Kokkos::DynRankView< PointValueType, Kokkos::LayoutStride, DeviceType > PointViewType
View type for input points.
Kokkos::DynRankView< OutputValueType, Kokkos::LayoutStride, DeviceType > OutputViewType
View type for basis value output.
Kokkos::View< ordinal_type ***, typename ExecutionSpace::array_layout, Kokkos::HostSpace > OrdinalTypeArray3DHost
View type for 3d host array.
ordinal_type getCardinality() const
Returns cardinality of the basis.
Kokkos::DynRankView< scalarType, Kokkos::LayoutStride, DeviceType > ScalarViewType
View type for scalars.
Device DeviceType
(Kokkos) Device type on which Basis is templated. Does not necessarily return true for Kokkos::is_dev...
Kokkos::DynRankView< scalarType, DeviceType > dofCoords_
Coordinates of degrees-of-freedom for basis functions defined in physical space.
Kokkos::DynRankView< scalarType, DeviceType > dofCoeffs_
Coefficients for computing degrees of freedom for Lagrangian basis If P is an element of the space sp...
Kokkos::View< ordinal_type **, typename ExecutionSpace::array_layout, Kokkos::HostSpace > OrdinalTypeArray2DHost
View type for 2d host array.
shards::CellTopology getBaseCellTopology() const
Returns the base cell topology for which the basis is defined. See Shards documentation https://trili...
Kokkos::View< ordinal_type *, typename ExecutionSpace::array_layout, Kokkos::HostSpace > OrdinalTypeArray1DHost
View type for 1d host array.
See Intrepid2::Basis_HCURL_WEDGE_I1_FEM.