doc/html/Panzer__IntegrationValues2_8hpp_source.html

 // @HEADER

 // ***********************************************************************

 //

 //           Panzer: A partial differential equation assembly

 //       engine for strongly coupled complex multiphysics systems

 //                 Copyright (2011) Sandia Corporation

 //

 // Under the terms of Contract DE-AC04-94AL85000 with Sandia Corporation,

 // the U.S. Government retains certain rights in this software.

 //

 // Redistribution and use in source and binary forms, with or without

 // modification, are permitted provided that the following conditions are

 // met:

 //

 // 1. Redistributions of source code must retain the above copyright

 // notice, this list of conditions and the following disclaimer.

 //

 // 2. Redistributions in binary form must reproduce the above copyright

 // notice, this list of conditions and the following disclaimer in the

 // documentation and/or other materials provided with the distribution.

 //

 // 3. Neither the name of the Corporation nor the names of the

 // contributors may be used to endorse or promote products derived from

 // this software without specific prior written permission.

 //

 // THIS SOFTWARE IS PROVIDED BY SANDIA CORPORATION "AS IS" AND ANY

 // EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE

 // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR

 // PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL SANDIA CORPORATION OR THE

 // CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,

 // EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,

 // PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR

 // PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF

 // LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING

 // NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS

 // SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 //

 // Questions? Contact Roger P. Pawlowski (rppawlo@sandia.gov) and

 // Eric C. Cyr (eccyr@sandia.gov)

 // ***********************************************************************

 // @HEADER


 #ifndef PANZER_INTEGRATION_VALUES2_HPP

 #define PANZER_INTEGRATION_VALUES2_HPP


 #include "Teuchos_RCP.hpp"


 #include "PanzerDiscFE_config.hpp"

 #include "Panzer_IntegrationRule.hpp"

 #include "Panzer_ArrayTraits.hpp"

 #include "Panzer_Dimension.hpp"

 #include "Phalanx_MDField.hpp"

 #include "Intrepid2_Cubature.hpp"


 namespace panzer {


   template <typename Scalar>

   class IntegrationValues2 {

   public:

     typedef typename ArrayTraits<Scalar,PHX::MDField<Scalar> >::size_type size_type;


     typedef PHX::MDField<Scalar> ArrayDynamic;

     typedef PHX::MDField<double> DblArrayDynamic;


     typedef PHX::MDField<Scalar,IP> Array_IP;

     typedef PHX::MDField<Scalar,IP,Dim> Array_IPDim;


     typedef PHX::MDField<Scalar,Point> Array_Point;

     typedef PHX::MDField<Scalar,Cell,IP> Array_CellIP;

     typedef PHX::MDField<Scalar,Cell,IP,Dim> Array_CellIPDim;

     typedef PHX::MDField<Scalar,Cell,IP,Dim,Dim> Array_CellIPDimDim;


     typedef PHX::MDField<Scalar,Cell,BASIS,Dim> Array_CellBASISDim;


     IntegrationValues2(const std::string & pre="",bool allocArrays=false)

         : alloc_arrays(allocArrays), prefix(pre), ddims_(1,0) {}


     void setupArrays(const Teuchos::RCP<const panzer::IntegrationRule>& ir);


     void setupArraysForNodeRule(const Teuchos::RCP<const panzer::IntegrationRule>& ir);


     void evaluateValues(const PHX::MDField<Scalar,Cell,NODE,Dim> & vertex_coordinates,

                         const int num_cells = -1);


     void evaluateValues(const PHX::MDField<Scalar,Cell,NODE,Dim> & vertex_coordinates,

                         const PHX::MDField<Scalar,Cell,IP,Dim> & other_ip_coordinates,

                         const int num_cells = -1);


     Array_IPDim cub_points;              // <IP,Dim>

     Array_IPDim side_cub_points;         // <IP,Dim> points on face topology (dim-1)

     Array_IP cub_weights;                // <IP>

     Array_CellBASISDim node_coordinates; // <Cell,BASIS,Dim>

     Array_CellIPDimDim jac;              // <Cell,IP,Dim,Dim>

     Array_CellIPDimDim jac_inv;          // <Cell,IP,Dim,Dim>

     Array_CellIP jac_det;                // <Cell,IP>

     Array_CellIP weighted_measure;       // <Cell,IP>

     Array_CellIPDim weighted_normals;    // <Cell,IP,Dim>


     Array_CellIPDim surface_normals;    // <Cell,IP,Dim>

     Array_CellIPDimDim surface_rotation_matrices;    // <Cell,IP,Dim,Dim>

       // this (appears) is a matrix where the first row is the "normal" direction

       // and the remaining two rows lie in the hyperplane


     Teuchos::RCP<const panzer::IntegrationRule> int_rule;


     Teuchos::RCP<Intrepid2::Cubature<PHX::Device::execution_space,double,double>> intrepid_cubature;


     // for Shakib stabilization <Cell,IP,Dim,Dim>

     Array_CellIPDimDim covarient;

     Array_CellIPDimDim contravarient;

     Array_CellIP norm_contravarient;


     // integration points

     Array_CellIPDim ip_coordinates;      // <Cell,IP,Dim>

     Array_CellIPDim ref_ip_coordinates;  // <Cell,IP,Dim> for Control Volumes or Surface integrals


     DblArrayDynamic dyn_cub_points, dyn_side_cub_points, dyn_cub_weights;

     DblArrayDynamic dyn_phys_cub_points, dyn_phys_cub_weights, dyn_phys_cub_norms, dyn_node_coordinates;


     Array_Point scratch_for_compute_side_measure; // <Point> size: span() == jac.span()


     static void uniqueCoordOrdering(Array_CellIPDim & coords,

                                     int cell,

                                     int offset,

                                     std::vector<int> & order);


     void swapQuadraturePoints(int cell,int a,int b);


     static void convertNormalToRotationMatrix(const Scalar normal[3], Scalar transverse[3], Scalar binormal[3]);


   protected:


     // TODO: Make this a utility function that only exists in source file

     Teuchos::RCP<Intrepid2::Cubature<PHX::Device::execution_space,double,double>> getIntrepidCubature(const panzer::IntegrationRule & ir) const;


   private:

     bool alloc_arrays;

     std::string prefix;

     std::vector<PHX::index_size_type> ddims_;


     void generateSurfaceCubatureValues(const PHX::MDField<Scalar,Cell,NODE,Dim> & in_node_coordinates, const int in_num_cells);

     void getCubature(const PHX::MDField<Scalar,Cell,NODE,Dim> & in_node_coordinates, const int in_num_cells);

     void getCubatureCV(const PHX::MDField<Scalar,Cell,NODE,Dim> & in_node_coordinates, const int in_num_cells);

     void evaluateRemainingValues(const PHX::MDField<Scalar,Cell,NODE,Dim> & in_node_coordinates, const int in_num_cells);

     void evaluateValuesCV(const PHX::MDField<Scalar,Cell,NODE,Dim> & vertex_coordinates,const int in_num_cells);

   };


 } // namespace panzer


 #endif

Panzer_ArrayTraits.hpp

Panzer_Dimension.hpp

Panzer_IntegrationRule.hpp

panzer::IntegrationRule
Definition: Panzer_IntegrationRule.hpp:73

panzer::IntegrationValues2
Definition: Panzer_IntegrationValues2.hpp:59

panzer::IntegrationValues2::convertNormalToRotationMatrix
static void convertNormalToRotationMatrix(const Scalar normal[3], Scalar transverse[3], Scalar binormal[3])
Definition: Panzer_IntegrationValues2.cpp:451

panzer::IntegrationValues2::Array_Point
PHX::MDField< Scalar, Point > Array_Point
Definition: Panzer_IntegrationValues2.hpp:69

panzer::IntegrationValues2::cub_weights
Array_IP cub_weights
Definition: Panzer_IntegrationValues2.hpp:116

panzer::IntegrationValues2::ip_coordinates
Array_CellIPDim ip_coordinates
Definition: Panzer_IntegrationValues2.hpp:139

panzer::IntegrationValues2::cub_points
Array_IPDim cub_points
Definition: Panzer_IntegrationValues2.hpp:114

panzer::IntegrationValues2::DblArrayDynamic
PHX::MDField< double > DblArrayDynamic
Definition: Panzer_IntegrationValues2.hpp:64

panzer::IntegrationValues2::surface_normals
Array_CellIPDim surface_normals
Definition: Panzer_IntegrationValues2.hpp:124

panzer::IntegrationValues2::ref_ip_coordinates
Array_CellIPDim ref_ip_coordinates
Definition: Panzer_IntegrationValues2.hpp:140

panzer::IntegrationValues2::getIntrepidCubature
Teuchos::RCP< Intrepid2::Cubature< PHX::Device::execution_space, double, double > > getIntrepidCubature(const panzer::IntegrationRule &ir) const
Definition: Panzer_IntegrationValues2.cpp:229

panzer::IntegrationValues2::evaluateValuesCV
void evaluateValuesCV(const PHX::MDField< Scalar, Cell, NODE, Dim > &vertex_coordinates, const int in_num_cells)
Definition: Panzer_IntegrationValues2.cpp:1172

panzer::IntegrationValues2::node_coordinates
Array_CellBASISDim node_coordinates
Definition: Panzer_IntegrationValues2.hpp:117

panzer::IntegrationValues2::jac_inv
Array_CellIPDimDim jac_inv
Definition: Panzer_IntegrationValues2.hpp:119

panzer::IntegrationValues2::Array_IPDim
PHX::MDField< Scalar, IP, Dim > Array_IPDim
Definition: Panzer_IntegrationValues2.hpp:67

panzer::IntegrationValues2::surface_rotation_matrices
Array_CellIPDimDim surface_rotation_matrices
Definition: Panzer_IntegrationValues2.hpp:125

panzer::IntegrationValues2::norm_contravarient
Array_CellIP norm_contravarient
Definition: Panzer_IntegrationValues2.hpp:136

panzer::IntegrationValues2::alloc_arrays
bool alloc_arrays
Definition: Panzer_IntegrationValues2.hpp:185

panzer::IntegrationValues2::Array_CellIP
PHX::MDField< Scalar, Cell, IP > Array_CellIP
Definition: Panzer_IntegrationValues2.hpp:70

panzer::IntegrationValues2::int_rule
Teuchos::RCP< const panzer::IntegrationRule > int_rule
Definition: Panzer_IntegrationValues2.hpp:129

panzer::IntegrationValues2::Array_IP
PHX::MDField< Scalar, IP > Array_IP
Definition: Panzer_IntegrationValues2.hpp:66

panzer::IntegrationValues2::prefix
std::string prefix
Definition: Panzer_IntegrationValues2.hpp:186

panzer::IntegrationValues2::setupArrays
void setupArrays(const Teuchos::RCP< const panzer::IntegrationRule > &ir)
Sizes/allocates memory for arrays.
Definition: Panzer_IntegrationValues2.cpp:131

panzer::IntegrationValues2::uniqueCoordOrdering
static void uniqueCoordOrdering(Array_CellIPDim &coords, int cell, int offset, std::vector< int > &order)
Using coordinate build an arrray that specifies a unique ordering.
Definition: Panzer_IntegrationValues2.cpp:551

panzer::IntegrationValues2::dyn_node_coordinates
DblArrayDynamic dyn_node_coordinates
Definition: Panzer_IntegrationValues2.hpp:143

panzer::IntegrationValues2::size_type
ArrayTraits< Scalar, PHX::MDField< Scalar > >::size_type size_type
Definition: Panzer_IntegrationValues2.hpp:61

panzer::IntegrationValues2::dyn_phys_cub_norms
DblArrayDynamic dyn_phys_cub_norms
Definition: Panzer_IntegrationValues2.hpp:143

panzer::IntegrationValues2::side_cub_points
Array_IPDim side_cub_points
Definition: Panzer_IntegrationValues2.hpp:115

panzer::IntegrationValues2::jac
Array_CellIPDimDim jac
Definition: Panzer_IntegrationValues2.hpp:118

panzer::IntegrationValues2::jac_det
Array_CellIP jac_det
Definition: Panzer_IntegrationValues2.hpp:120

panzer::IntegrationValues2::contravarient
Array_CellIPDimDim contravarient
Definition: Panzer_IntegrationValues2.hpp:135

panzer::IntegrationValues2::evaluateValues
void evaluateValues(const PHX::MDField< Scalar, Cell, NODE, Dim > &vertex_coordinates, const int num_cells=-1)
Evaluate basis values.
Definition: Panzer_IntegrationValues2.cpp:263

panzer::IntegrationValues2::evaluateRemainingValues
void evaluateRemainingValues(const PHX::MDField< Scalar, Cell, NODE, Dim > &in_node_coordinates, const int in_num_cells)
Definition: Panzer_IntegrationValues2.cpp:844

panzer::IntegrationValues2::Array_CellIPDimDim
PHX::MDField< Scalar, Cell, IP, Dim, Dim > Array_CellIPDimDim
Definition: Panzer_IntegrationValues2.hpp:72

panzer::IntegrationValues2::getCubatureCV
void getCubatureCV(const PHX::MDField< Scalar, Cell, NODE, Dim > &in_node_coordinates, const int in_num_cells)
Definition: Panzer_IntegrationValues2.cpp:1113

panzer::IntegrationValues2::ddims_
std::vector< PHX::index_size_type > ddims_
Definition: Panzer_IntegrationValues2.hpp:187

panzer::IntegrationValues2::intrepid_cubature
Teuchos::RCP< Intrepid2::Cubature< PHX::Device::execution_space, double, double > > intrepid_cubature
Definition: Panzer_IntegrationValues2.hpp:131

panzer::IntegrationValues2::dyn_phys_cub_points
DblArrayDynamic dyn_phys_cub_points
Definition: Panzer_IntegrationValues2.hpp:143

panzer::IntegrationValues2::generateSurfaceCubatureValues
void generateSurfaceCubatureValues(const PHX::MDField< Scalar, Cell, NODE, Dim > &in_node_coordinates, const int in_num_cells)
Definition: Panzer_IntegrationValues2.cpp:569

panzer::IntegrationValues2::weighted_measure
Array_CellIP weighted_measure
Definition: Panzer_IntegrationValues2.hpp:121

panzer::IntegrationValues2::dyn_side_cub_points
DblArrayDynamic dyn_side_cub_points
Definition: Panzer_IntegrationValues2.hpp:142

panzer::IntegrationValues2::getCubature
void getCubature(const PHX::MDField< Scalar, Cell, NODE, Dim > &in_node_coordinates, const int in_num_cells)
Definition: Panzer_IntegrationValues2.cpp:285

panzer::IntegrationValues2::IntegrationValues2
IntegrationValues2(const std::string &pre="", bool allocArrays=false)
Definition: Panzer_IntegrationValues2.hpp:76

panzer::IntegrationValues2::covarient
Array_CellIPDimDim covarient
Definition: Panzer_IntegrationValues2.hpp:134

panzer::IntegrationValues2::dyn_phys_cub_weights
DblArrayDynamic dyn_phys_cub_weights
Definition: Panzer_IntegrationValues2.hpp:143

panzer::IntegrationValues2::dyn_cub_points
DblArrayDynamic dyn_cub_points
Definition: Panzer_IntegrationValues2.hpp:142

panzer::IntegrationValues2::swapQuadraturePoints
void swapQuadraturePoints(int cell, int a, int b)
Swap the ordering of quadrature points in a specified cell.
Definition: Panzer_IntegrationValues2.cpp:503

panzer::IntegrationValues2::dyn_cub_weights
DblArrayDynamic dyn_cub_weights
Definition: Panzer_IntegrationValues2.hpp:142

panzer::IntegrationValues2::ArrayDynamic
PHX::MDField< Scalar > ArrayDynamic
Definition: Panzer_IntegrationValues2.hpp:63

panzer::IntegrationValues2::scratch_for_compute_side_measure
Array_Point scratch_for_compute_side_measure
Definition: Panzer_IntegrationValues2.hpp:145

panzer::IntegrationValues2::Array_CellBASISDim
PHX::MDField< Scalar, Cell, BASIS, Dim > Array_CellBASISDim
Definition: Panzer_IntegrationValues2.hpp:74

panzer::IntegrationValues2::Array_CellIPDim
PHX::MDField< Scalar, Cell, IP, Dim > Array_CellIPDim
Definition: Panzer_IntegrationValues2.hpp:71

panzer::IntegrationValues2::setupArraysForNodeRule
void setupArraysForNodeRule(const Teuchos::RCP< const panzer::IntegrationRule > &ir)
Definition: Panzer_IntegrationValues2.cpp:69

panzer::IntegrationValues2::weighted_normals
Array_CellIPDim weighted_normals
Definition: Panzer_IntegrationValues2.hpp:122

panzer
Computes .
Definition: Panzer_BasisValues_Evaluator_decl.hpp:54

panzer::ArrayTraits
Definition: Panzer_ArrayTraits.hpp:53