trilinos/intrepid/Intrepid__CubatureTensorPyrDef_8hpp_source.html

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 namespace Intrepid {


 template <class Scalar, class ArrayPoint, class ArrayWeight>

 CubatureTensorPyr<Scalar,ArrayPoint,ArrayWeight>::CubatureTensorPyr(std::vector< Teuchos::RCP<Cubature<Scalar,ArrayPoint,ArrayWeight> > > cubatures) :

                                                             CubatureTensor<Scalar,ArrayPoint,ArrayWeight>(cubatures) {}


 template <class Scalar, class ArrayPoint, class ArrayWeight>

 CubatureTensorPyr<Scalar,ArrayPoint,ArrayWeight>::CubatureTensorPyr(Teuchos::RCP<CubatureDirect<Scalar,ArrayPoint,ArrayWeight> > cubature1,

                                                             Teuchos::RCP<CubatureDirect<Scalar,ArrayPoint,ArrayWeight> > cubature2) :

                                                             CubatureTensor<Scalar,ArrayPoint,ArrayWeight>(cubature1,cubature2) {}


 template <class Scalar, class ArrayPoint, class ArrayWeight>

 CubatureTensorPyr<Scalar,ArrayPoint,ArrayWeight>::CubatureTensorPyr(Teuchos::RCP<CubatureDirect<Scalar,ArrayPoint,ArrayWeight> > cubature1,

                                                             Teuchos::RCP<CubatureDirect<Scalar,ArrayPoint,ArrayWeight> > cubature2,

                                                             Teuchos::RCP<CubatureDirect<Scalar,ArrayPoint,ArrayWeight> > cubature3) :

                                                                   CubatureTensor<Scalar,ArrayPoint,ArrayWeight>(cubature1,cubature2, cubature3) {}


 template <class Scalar, class ArrayPoint, class ArrayWeight>

 CubatureTensorPyr<Scalar,ArrayPoint,ArrayWeight>::CubatureTensorPyr(Teuchos::RCP<CubatureDirect<Scalar,ArrayPoint,ArrayWeight> > cubature, int n) :

 CubatureTensor<Scalar,ArrayPoint,ArrayWeight>(cubature, n) {}


 template <class Scalar, class ArrayPoint, class ArrayWeight>

 void CubatureTensorPyr<Scalar,ArrayPoint,ArrayWeight>::getCubature(ArrayPoint  & cubPoints,

                                                                   ArrayWeight & cubWeights) const {

   CubatureTensor<Scalar,ArrayPoint,ArrayWeight>::getCubature(cubPoints, cubWeights);


   int numCubPoints = getNumPoints();


   for(int i=0; i<numCubPoints; i++)

   {

           Scalar zTerm = 0.5*(1.0 - cubPoints(i,2));

           cubPoints(i,0) = zTerm*cubPoints(i,0); //   zTerm*(cubPoints(i,0)+1.0 )-1.0;

           cubPoints(i,1) = zTerm*cubPoints(i,1); //zTerm*(cubPoints(i,1)+1.0 )-1.0;

           cubPoints(i,2) = 1.0 - zTerm;   // 0.5 + 0.5 z

           cubWeights(i) /= 8.;

   }


 } // end getCubature


 template<class Scalar, class ArrayPoint, class ArrayWeight>

 void CubatureTensorPyr<Scalar,ArrayPoint,ArrayWeight>::getCubature(ArrayPoint& cubPoints,

                                                                    ArrayWeight& cubWeights,

                                                                    ArrayPoint& cellCoords) const

 {

     TEUCHOS_TEST_FOR_EXCEPTION( (true), std::logic_error,

                       ">>> ERROR (CubatureTensorPyr): Cubature defined in reference space calling method for physical space cubature.");

 }


 template <class Scalar, class ArrayPoint, class ArrayWeight>

 int CubatureTensorPyr<Scalar,ArrayPoint,ArrayWeight>::getNumPoints() const {

         return CubatureTensor<Scalar,ArrayPoint,ArrayWeight>::getNumPoints();

 } // end getNumPoints


 template <class Scalar, class ArrayPoint, class ArrayWeight>

 int CubatureTensorPyr<Scalar,ArrayPoint,ArrayWeight>::getDimension() const {

         return CubatureTensor<Scalar,ArrayPoint,ArrayWeight>::getDimension();

 } // end dimension


 template <class Scalar, class ArrayPoint, class ArrayWeight>

 void CubatureTensorPyr<Scalar,ArrayPoint,ArrayWeight>::getAccuracy(std::vector<int> & degree) const {

         CubatureTensor<Scalar,ArrayPoint,ArrayWeight>::getAccuracy(degree);

 } // end getAccuracy


 } // end namespace Intrepid

Intrepid::CubatureDirect
Defines direct cubature (integration) rules in Intrepid.
Definition: Intrepid_CubatureDirect.hpp:76

Intrepid::CubatureTensorPyr::getAccuracy
virtual void getAccuracy(std::vector< int > &degree) const
Returns max. degree of polynomials that are integrated exactly. The return vector has the size of the...
Definition: Intrepid_CubatureTensorPyrDef.hpp:114

Intrepid::CubatureTensorPyr::getDimension
virtual int getDimension() const
Returns dimension of integration domain.
Definition: Intrepid_CubatureTensorPyrDef.hpp:108

Intrepid::CubatureTensorPyr::getCubature
void getCubature(ArrayPoint &cubPoints, ArrayWeight &cubWeights) const
Returns cubature points and weights (return arrays must be pre-sized/pre-allocated).
Definition: Intrepid_CubatureTensorPyrDef.hpp:75

Intrepid::CubatureTensorPyr::getNumPoints
virtual int getNumPoints() const
Returns the number of cubature points.
Definition: Intrepid_CubatureTensorPyrDef.hpp:102

Intrepid::CubatureTensorPyr::CubatureTensorPyr
CubatureTensorPyr(std::vector< Teuchos::RCP< Cubature< Scalar, ArrayPoint, ArrayWeight > > > cubatures)
Constructor.
Definition: Intrepid_CubatureTensorPyrDef.hpp:52

Intrepid::CubatureTensor
Defines tensor-product cubature (integration) rules in Intrepid.
Definition: Intrepid_CubatureTensor.hpp:64

Intrepid::CubatureTensor::getNumPoints
virtual int getNumPoints() const
Returns the number of cubature points.
Definition: Intrepid_CubatureTensorDef.hpp:208

Intrepid::CubatureTensor::getAccuracy
virtual void getAccuracy(std::vector< int > &degree) const
Returns max. degree of polynomials that are integrated exactly. The return vector has the size of the...
Definition: Intrepid_CubatureTensorDef.hpp:226

Intrepid::CubatureTensor::getDimension
virtual int getDimension() const
Returns dimension of integration domain.
Definition: Intrepid_CubatureTensorDef.hpp:219

Intrepid::CubatureTensor::getCubature
virtual void getCubature(ArrayPoint &cubPoints, ArrayWeight &cubWeights) const
Returns cubature points and weights (return arrays must be pre-sized/pre-allocated).
Definition: Intrepid_CubatureTensorDef.hpp:138

Intrepid::Cubature< Scalar, ArrayPoint, ArrayWeight >