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Public Member Functions | Private Attributes | List of all members
FTensor::Tensor3_antisymmetric_Expr< Tensor3_antisymmetric< A, Dim0, Dim12 >, T, Dim0, Dim12, i, j, k > Class Template Reference

#include <src/ftensor/src/FTensor/Tensor3_antisymmetric/Tensor3_antisymmetric_Expr.hpp>

Collaboration diagram for FTensor::Tensor3_antisymmetric_Expr< Tensor3_antisymmetric< A, Dim0, Dim12 >, T, Dim0, Dim12, i, j, k >:
[legend]

Public Member Functions

 Tensor3_antisymmetric_Expr (Tensor3_antisymmetric< A, Dim0, Dim12 > &a)
 
T operator() (const int N1, const int N2, const int N3) const
 
template<class B , class U >
Tensor3_antisymmetric_Expr< Tensor3_antisymmetric< A, Dim0, Dim12 >, T, Dim0, Dim12, i, j, k > & operator= (const Tensor3_antisymmetric_Expr< B, U, Dim0, Dim12, i, j, k > &result)
 
Tensor3_antisymmetric_Expr< Tensor3_antisymmetric< A, Dim0, Dim12 >, T, Dim0, Dim12, i, j, k > & operator= (const Tensor3_antisymmetric_Expr< Tensor3_antisymmetric< A, Dim0, Dim12 >, T, Dim0, Dim12, i, j, k > &result)
 
template<class B , class U >
Tensor3_antisymmetric_Expr< Tensor3_antisymmetric< A, Dim0, Dim12 >, T, Dim0, Dim12, i, j, k > & operator= (const Tensor3_antisymmetric_Expr< B, U, Dim0, Dim12, i, k, j > &result)
 

Private Attributes

Tensor3_antisymmetric< A, Dim0, Dim12 > & iter
 

Detailed Description

template<class A, class T, int Dim0, int Dim12, char i, char j, char k>
class FTensor::Tensor3_antisymmetric_Expr< Tensor3_antisymmetric< A, Dim0, Dim12 >, T, Dim0, Dim12, i, j, k >

Definition at line 31 of file Tensor3_antisymmetric_Expr.hpp.

Constructor & Destructor Documentation

◆ Tensor3_antisymmetric_Expr()

template<class A , class T , int Dim0, int Dim12, char i, char j, char k>
FTensor::Tensor3_antisymmetric_Expr< Tensor3_antisymmetric< A, Dim0, Dim12 >, T, Dim0, Dim12, i, j, k >::Tensor3_antisymmetric_Expr ( Tensor3_antisymmetric< A, Dim0, Dim12 > &  a)
inline

Definition at line 37 of file Tensor3_antisymmetric_Expr.hpp.

38 : iter(a)
39 {}
a
constexpr double a
Definition: approx_sphere.cpp:30
FTensor::Tensor3_antisymmetric_Expr< Tensor3_antisymmetric< A, Dim0, Dim12 >, T, Dim0, Dim12, i, j, k >::iter
Tensor3_antisymmetric< A, Dim0, Dim12 > & iter
Definition: Tensor3_antisymmetric_Expr.hpp:34

Member Function Documentation

◆ operator()()

template<class A , class T , int Dim0, int Dim12, char i, char j, char k>
T FTensor::Tensor3_antisymmetric_Expr< Tensor3_antisymmetric< A, Dim0, Dim12 >, T, Dim0, Dim12, i, j, k >::operator() ( const int  N1,
const int  N2,
const int  N3 
) const
inline

Definition at line 40 of file Tensor3_antisymmetric_Expr.hpp.

41 {
42 return iter(N1, N2, N3);
43 }
N2
static Number< 2 > N2
Definition: BasicFeTools.hpp:101
N1
static Number< 1 > N1
Definition: BasicFeTools.hpp:100

◆ operator=() [1/3]

template<class A , class T , int Dim0, int Dim12, char i, char j, char k>
template<class B , class U >
Tensor3_antisymmetric_Expr< Tensor3_antisymmetric< A, Dim0, Dim12 >, T, Dim0, Dim12, i, j, k > & FTensor::Tensor3_antisymmetric_Expr< Tensor3_antisymmetric< A, Dim0, Dim12 >, T, Dim0, Dim12, i, j, k >::operator= ( const Tensor3_antisymmetric_Expr< B, U, Dim0, Dim12, i, j, k > &  result)

Definition at line 66 of file Tensor3_antisymmetric_Expr_equals.hpp.

69 {
70 T3as_equals_T3as(iter, result, Number<Dim0>(), Number<Dim12 - 1>(),
71 Number<Dim12>());
72 return *this;
73 }
FTensor::T3as_equals_T3as
void T3as_equals_T3as(A &iter, const Tensor3_antisymmetric_Expr< B, U, Dim0, Dim12, i, j, k > &result, const Number< Current_Dim0 > &, const Number< Current_Dim1 > &, const Number< Current_Dim2 > &)
Definition: Tensor3_antisymmetric_Expr_equals.hpp:13

◆ operator=() [2/3]

template<class A , class T , int Dim0, int Dim12, char i, char j, char k>
template<class B , class U >
Tensor3_antisymmetric_Expr< Tensor3_antisymmetric< A, Dim0, Dim12 >, T, Dim0, Dim12, i, j, k > & FTensor::Tensor3_antisymmetric_Expr< Tensor3_antisymmetric< A, Dim0, Dim12 >, T, Dim0, Dim12, i, j, k >::operator= ( const Tensor3_antisymmetric_Expr< B, U, Dim0, Dim12, i, k, j > &  result)

Definition at line 148 of file Tensor3_antisymmetric_Expr_equals.hpp.

151 {
152 T3as_switched_equals_T3as(iter, result, Number<Dim0>(),
153 Number<Dim12 - 1>(), Number<Dim12>());
154 return *this;
155 }
FTensor::T3as_switched_equals_T3as
void T3as_switched_equals_T3as(A &iter, const Tensor3_antisymmetric_Expr< B, U, Dim0, Dim12, i, k, j > &result, const Number< Current_Dim0 > &, const Number< Current_Dim1 > &, const Number< Current_Dim2 > &)
Definition: Tensor3_antisymmetric_Expr_equals.hpp:93

◆ operator=() [3/3]

template<class A , class T , int Dim0, int Dim12, char i, char j, char k>
Tensor3_antisymmetric_Expr< Tensor3_antisymmetric< A, Dim0, Dim12 >, T, Dim0, Dim12, i, j, k > & FTensor::Tensor3_antisymmetric_Expr< Tensor3_antisymmetric< A, Dim0, Dim12 >, T, Dim0, Dim12, i, j, k >::operator= ( const Tensor3_antisymmetric_Expr< Tensor3_antisymmetric< A, Dim0, Dim12 >, T, Dim0, Dim12, i, j, k > &  result)

Definition at line 81 of file Tensor3_antisymmetric_Expr_equals.hpp.

85 {
86 return operator=<Tensor3_antisymmetric<A, Dim0, Dim12>, T>(result);
87 }
T
const double T
Definition: mixed_reac_diff.cpp:158

Member Data Documentation

◆ iter

template<class A , class T , int Dim0, int Dim12, char i, char j, char k>
Tensor3_antisymmetric<A, Dim0, Dim12>& FTensor::Tensor3_antisymmetric_Expr< Tensor3_antisymmetric< A, Dim0, Dim12 >, T, Dim0, Dim12, i, j, k >::iter
private

Definition at line 34 of file Tensor3_antisymmetric_Expr.hpp.

The documentation for this class was generated from the following files:
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