v0.14.0
Public Member Functions | Private Member Functions | Private Attributes | List of all members
FTensor::Tensor4_times_Tensor2_symmetric_32< A, B, T, U, Dim0, Dim1, Dim, i, j, k, l > Class Template Reference

#include <src/ftensor/src/FTensor/Tensor4/Tensor4_times_Tensor2_symmetric.hpp>

Collaboration diagram for FTensor::Tensor4_times_Tensor2_symmetric_32< A, B, T, U, Dim0, Dim1, Dim, i, j, k, l >:
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Public Member Functions

promote< T, U >::V operator() (const int N1, const int N2) const
 
 Tensor4_times_Tensor2_symmetric_32 (const Tensor4_Expr< A, T, Dim0, Dim1, Dim, Dim, i, j, k, l > &a, const Tensor2_symmetric_Expr< B, U, Dim, l, k > &b)
 

Private Member Functions

template<int Current_Dim0, int Current_Dim1>
promote< T, U >::V eval (const int N1, const int N2, const Number< Current_Dim0 > &, const Number< Current_Dim1 > &) const
 
template<int Current_Dim1>
promote< T, U >::V eval (const int N1, const int N2, const Number< 1 > &, const Number< Current_Dim1 > &) const
 
promote< T, U >::V eval (const int N1, const int N2, const Number< 1 > &, const Number< 1 > &) const
 

Private Attributes

Tensor4_Expr< A, T, Dim0, Dim1, Dim, Dim, i, j, k, literA
 
Tensor2_symmetric_Expr< B, U, Dim, l, kiterB
 

Detailed Description

template<class A, class B, class T, class U, int Dim0, int Dim1, int Dim, char i, char j, char k, char l>
class FTensor::Tensor4_times_Tensor2_symmetric_32< A, B, T, U, Dim0, Dim1, Dim, i, j, k, l >

Definition at line 91 of file Tensor4_times_Tensor2_symmetric.hpp.

Constructor & Destructor Documentation

◆ Tensor4_times_Tensor2_symmetric_32()

template<class A , class B , class T , class U , int Dim0, int Dim1, int Dim, char i, char j, char k, char l>
FTensor::Tensor4_times_Tensor2_symmetric_32< A, B, T, U, Dim0, Dim1, Dim, i, j, k, l >::Tensor4_times_Tensor2_symmetric_32 ( const Tensor4_Expr< A, T, Dim0, Dim1, Dim, Dim, i, j, k, l > &  a,
const Tensor2_symmetric_Expr< B, U, Dim, l, k > &  b 
)
inline

Definition at line 126 of file Tensor4_times_Tensor2_symmetric.hpp.

129  : iterA(a), iterB(b)
130  {}

Member Function Documentation

◆ eval() [1/3]

template<class A , class B , class T , class U , int Dim0, int Dim1, int Dim, char i, char j, char k, char l>
promote<T, U>::V FTensor::Tensor4_times_Tensor2_symmetric_32< A, B, T, U, Dim0, Dim1, Dim, i, j, k, l >::eval ( const int  N1,
const int  N2,
const Number< 1 > &  ,
const Number< 1 > &   
) const
inlineprivate

Definition at line 114 of file Tensor4_times_Tensor2_symmetric.hpp.

116  {
117  return iterA(N1, N2, 0, 0) * iterB(0, 0);
118  }

◆ eval() [2/3]

template<class A , class B , class T , class U , int Dim0, int Dim1, int Dim, char i, char j, char k, char l>
template<int Current_Dim1>
promote<T, U>::V FTensor::Tensor4_times_Tensor2_symmetric_32< A, B, T, U, Dim0, Dim1, Dim, i, j, k, l >::eval ( const int  N1,
const int  N2,
const Number< 1 > &  ,
const Number< Current_Dim1 > &   
) const
inlineprivate

Definition at line 108 of file Tensor4_times_Tensor2_symmetric.hpp.

110  {
111  return iterA(N1, N2, 0, Current_Dim1 - 1) * iterB(0, Current_Dim1 - 1)
112  + eval(N1, N2, Number<Dim>(), Number<Current_Dim1 - 1>());
113  }

◆ eval() [3/3]

template<class A , class B , class T , class U , int Dim0, int Dim1, int Dim, char i, char j, char k, char l>
template<int Current_Dim0, int Current_Dim1>
promote<T, U>::V FTensor::Tensor4_times_Tensor2_symmetric_32< A, B, T, U, Dim0, Dim1, Dim, i, j, k, l >::eval ( const int  N1,
const int  N2,
const Number< Current_Dim0 > &  ,
const Number< Current_Dim1 > &   
) const
inlineprivate

Definition at line 98 of file Tensor4_times_Tensor2_symmetric.hpp.

100  {
101  return iterA(N1, N2, Current_Dim0 - 1, Current_Dim1 - 1)
102  * iterB(Current_Dim0 - 1, Current_Dim1 - 1)
103  + eval(N1, N2, Number<Current_Dim0 - 1>(),
104  Number<Current_Dim1>());
105  }

◆ operator()()

template<class A , class B , class T , class U , int Dim0, int Dim1, int Dim, char i, char j, char k, char l>
promote<T, U>::V FTensor::Tensor4_times_Tensor2_symmetric_32< A, B, T, U, Dim0, Dim1, Dim, i, j, k, l >::operator() ( const int  N1,
const int  N2 
) const
inline

Definition at line 121 of file Tensor4_times_Tensor2_symmetric.hpp.

122  {
123  return eval(N1, N2, Number<Dim>(), Number<Dim>());
124  }

Member Data Documentation

◆ iterA

template<class A , class B , class T , class U , int Dim0, int Dim1, int Dim, char i, char j, char k, char l>
Tensor4_Expr<A, T, Dim0, Dim1, Dim, Dim, i, j, k, l> FTensor::Tensor4_times_Tensor2_symmetric_32< A, B, T, U, Dim0, Dim1, Dim, i, j, k, l >::iterA
private

Definition at line 93 of file Tensor4_times_Tensor2_symmetric.hpp.

◆ iterB

template<class A , class B , class T , class U , int Dim0, int Dim1, int Dim, char i, char j, char k, char l>
Tensor2_symmetric_Expr<B, U, Dim, l, k> FTensor::Tensor4_times_Tensor2_symmetric_32< A, B, T, U, Dim0, Dim1, Dim, i, j, k, l >::iterB
private

Definition at line 94 of file Tensor4_times_Tensor2_symmetric.hpp.


The documentation for this class was generated from the following file:
FTensor::Tensor4_times_Tensor2_symmetric_32::iterA
Tensor4_Expr< A, T, Dim0, Dim1, Dim, Dim, i, j, k, l > iterA
Definition: Tensor4_times_Tensor2_symmetric.hpp:93
FTensor::Tensor4_times_Tensor2_symmetric_32::iterB
Tensor2_symmetric_Expr< B, U, Dim, l, k > iterB
Definition: Tensor4_times_Tensor2_symmetric.hpp:94
a
constexpr double a
Definition: approx_sphere.cpp:30
FTensor::Tensor4_times_Tensor2_symmetric_32::eval
promote< T, U >::V eval(const int N1, const int N2, const Number< Current_Dim0 > &, const Number< Current_Dim1 > &) const
Definition: Tensor4_times_Tensor2_symmetric.hpp:98