mofem/html/_ddg__or___tensor2__symmetric_8hpp_source.html

/* This file has all of the declarations for expressions like

   Ddg|Tensor2_symmetric and Tensor2_symmetric|Ddg,

   yielding a Tensor2_symmetric. */


#pragma once


namespace FTensor

{

  /* A(i,j,k,l)*B(j,l) */


  template <class A, class B, class T, class U, int Dim, char i, char j,

            char k, char l>

  class Ddg_or_Tensor2_symmetric_13

  {

    Ddg_Expr<A, T, Dim, Dim, i, j, k, l> iterA;

    Tensor2_symmetric_Expr<B, U, Dim, j, l> iterB;


    template <int Current_Dim0, int Current_Dim1>

    typename promote<T, U>::V

    eval(const int N1, const int N2, const Number<Current_Dim0> &,

         const Number<Current_Dim1> &) const

    {

      return iterA(Current_Dim0 - 1, N1, Current_Dim1 - 1, N2)

               * iterB(Current_Dim0 - 1, Current_Dim1 - 1)

             + eval(N1, N2, Number<Current_Dim0 - 1>(),

                    Number<Current_Dim1>());

    }

    template <int Current_Dim1>

    typename promote<T, U>::V

    eval(const int N1, const int N2, const Number<1> &,

         const Number<Current_Dim1> &) const

    {

      return iterA(0, N1, Current_Dim1 - 1, N2) * iterB(0, Current_Dim1 - 1)

             + eval(N1, N2, Number<Dim>(), Number<Current_Dim1 - 1>());

    }

    typename promote<T, U>::V eval(const int N1, const int N2,

                                   const Number<1> &, const Number<1> &) const

    {

      return iterA(0, N1, 0, N2) * iterB(0, 0);

    }


  public:

    Ddg_or_Tensor2_symmetric_13(

      const Ddg_Expr<A, T, Dim, Dim, i, j, k, l> &a,

      const Tensor2_symmetric_Expr<B, U, Dim, j, l> &b)

        : iterA(a), iterB(b)

    {}

    typename promote<T, U>::V operator()(const int N1, const int N2) const

    {

      return eval(N1, N2, Number<Dim>(), Number<Dim>());

    }

  };


  template <class A, class B, class T, class U, int Dim, char i, char j,

            char k, char l>

  Tensor2_symmetric_Expr<

    Ddg_or_Tensor2_symmetric_13<A, B, T, U, Dim, i, j, k, l>,

    typename promote<T, U>::V, Dim, i, k>

  operator|(const Ddg_Expr<A, T, Dim, Dim, i, j, k, l> &a,

            const Tensor2_symmetric_Expr<B, U, Dim, j, l> &b)

  {

    using TensorExpr

      = Ddg_or_Tensor2_symmetric_13<A, B, T, U, Dim, i, j, k, l>;

    return Tensor2_symmetric_Expr<TensorExpr, typename promote<T, U>::V, Dim,

                                  i, k>(TensorExpr(a, b));

  }


  /* B(j,l)*A(i,j,k,l) */


  template <class A, class B, class T, class U, int Dim, char i, char j,

            char k, char l>

  Tensor2_symmetric_Expr<

    Ddg_or_Tensor2_symmetric_13<A, B, T, U, Dim, i, j, k, l>,

    typename promote<T, U>::V, Dim, i, k>

  operator|(const Tensor2_symmetric_Expr<B, U, Dim, j, l> &b,

            const Ddg_Expr<A, T, Dim, Dim, i, j, k, l> &a)

  {

    using TensorExpr

      = Ddg_or_Tensor2_symmetric_13<A, B, T, U, Dim, i, j, k, l>;

    return Tensor2_symmetric_Expr<TensorExpr, typename promote<T, U>::V, Dim,

                                  i, k>(TensorExpr(a, b));

  }

}

N2
static Number< 2 > N2
Definition: BasicFeTools.hpp:101

N1
static Number< 1 > N1
Definition: BasicFeTools.hpp:100

a
constexpr double a
Definition: approx_sphere.cpp:30

B

FTensor::Ddg_Expr
Definition: Ddg_Expr.hpp:29

FTensor::Ddg_or_Tensor2_symmetric_13
Definition: Ddg_or_Tensor2_symmetric.hpp:14

FTensor::Ddg_or_Tensor2_symmetric_13::Ddg_or_Tensor2_symmetric_13
Ddg_or_Tensor2_symmetric_13(const Ddg_Expr< A, T, Dim, Dim, i, j, k, l > &a, const Tensor2_symmetric_Expr< B, U, Dim, j, l > &b)
Definition: Ddg_or_Tensor2_symmetric.hpp:43

FTensor::Ddg_or_Tensor2_symmetric_13::eval
promote< T, U >::V eval(const int N1, const int N2, const Number< Current_Dim0 > &, const Number< Current_Dim1 > &) const
Definition: Ddg_or_Tensor2_symmetric.hpp:20

FTensor::Ddg_or_Tensor2_symmetric_13::eval
promote< T, U >::V eval(const int N1, const int N2, const Number< 1 > &, const Number< Current_Dim1 > &) const
Definition: Ddg_or_Tensor2_symmetric.hpp:30

FTensor::Ddg_or_Tensor2_symmetric_13::eval
promote< T, U >::V eval(const int N1, const int N2, const Number< 1 > &, const Number< 1 > &) const
Definition: Ddg_or_Tensor2_symmetric.hpp:36

FTensor::Ddg_or_Tensor2_symmetric_13::operator()
promote< T, U >::V operator()(const int N1, const int N2) const
Definition: Ddg_or_Tensor2_symmetric.hpp:48

FTensor::Ddg_or_Tensor2_symmetric_13::iterB
Tensor2_symmetric_Expr< B, U, Dim, j, l > iterB
Definition: Ddg_or_Tensor2_symmetric.hpp:16

FTensor::Ddg_or_Tensor2_symmetric_13::iterA
Ddg_Expr< A, T, Dim, Dim, i, j, k, l > iterA
Definition: Ddg_or_Tensor2_symmetric.hpp:15

FTensor::Number
Definition: Number.hpp:12

FTensor::Tensor2_symmetric_Expr
Definition: Tensor2_symmetric_Expr.hpp:37

FTensor::promote::V
T1 V
Definition: promote.hpp:17

i
FTensor::Index< 'i', SPACE_DIM > i
Definition: hcurl_divergence_operator_2d.cpp:27

l
FTensor::Index< 'l', 3 > l
Definition: matrix_function.cpp:21

j
FTensor::Index< 'j', 3 > j
Definition: matrix_function.cpp:19

k
FTensor::Index< 'k', 3 > k
Definition: matrix_function.cpp:20

T
const double T
Definition: mixed_reac_diff.cpp:158

FTensor
Tensors class implemented by Walter Landry.
Definition: FTensor.hpp:51

FTensor::operator|
Tensor2_symmetric_Expr< Ddg_or_Tensor2_symmetric_13< A, B, T, U, Dim, i, j, k, l >, typename promote< T, U >::V, Dim, i, k > operator|(const Ddg_Expr< A, T, Dim, Dim, i, j, k, l > &a, const Tensor2_symmetric_Expr< B, U, Dim, j, l > &b)
Definition: Ddg_or_Tensor2_symmetric.hpp:59

A
constexpr AssemblyType A
Definition: operators_tests.cpp:30