3
0
mirror of https://github.com/triqs/dft_tools synced 2024-10-31 19:23:45 +01:00
dft_tools/test/triqs/arrays/mat_stack.cpp
Olivier Parcollet f2c7d449cc First commit : triqs libs version 1.0 alpha1
for earlier commits, see TRIQS0.x repository.
2013-07-17 19:24:07 +02:00

90 lines
2.0 KiB
C++

#include "./common.hpp"
#include <triqs/arrays/matrix_stack_view.hpp>
using namespace triqs::arrays;
using namespace triqs;
int main() {
clef::placeholder<0> i_;
clef::placeholder<1> j_;
clef::placeholder<2> k_;
{
std::cerr<< "------------- Testing inversion ---------------"<< std::endl;
array <double,3> A(4,2,2);
A(k_,i_,j_) << clef::if_else(i_ == j_, i_ + k_+1, 0); // + 2.3* j_;
matrix_stack_view<double> S (std::move(A));
std::cout << S(0) << S(1)<< S(2) << std::endl ;
S.invert();
std::cout << S(0) << S(1)<< S(2)<< std::endl ;
}
{
std::cerr<< "------------- Testing += matrix ---------------"<< std::endl;
array <double,3> A(4,2,3);
matrix<double> M(2,3); M()= 1;
A(k_,i_,j_) << i_ + 2*j_ + k_/2.0;
matrix_stack_view<double> S (std::move(A));
std::cout << S(0) << S(1)<< S(2) << std::endl ;
S += M;
std::cout << S(0) << S(1)<< S(2)<< std::endl ;
}
{
std::cerr<< "------------- Testing += me---------------"<< std::endl;
array <double,3> A(4,2,3);
matrix<double> M(2,3); M()= 1;
A(k_,i_,j_) << i_ + 2*j_ + k_/2.0;
matrix_stack_view<double> S (std::move(A));
std::cout << S(0) << S(1)<< S(2) << std::endl ;
S += S;
std::cout << S(0) << S(1)<< S(2)<< std::endl ;
}
{
std::cerr<< "------------- Testing *= 2---------------"<< std::endl;
array <double,3> A(4,2,3);
matrix<double> M(2,3); M()= 1;
A(k_,i_,j_) << i_ + 2*j_ + k_/2.0;
matrix_stack_view<double> S (std::move(A));
std::cout << S(0) << S(1)<< S(2) << std::endl ;
S *= 2;
std::cout << S(0) << S(1)<< S(2)<< std::endl ;
}
{
std::cerr<< "------------- Testing R, L mul ---------------"<< std::endl;
array <double,3> A(4,3,3);
matrix<double> L(2,3); L()= 2;
matrix<double> R(3,2); R()= 3;
A(k_,i_,j_) << i_ + 2*j_ + k_/2.0;
matrix_stack_view<double> S (std::move(A));
std::cout << S(0) << S(1)<< S(2) << std::endl ;
auto Sb = matmul_L_R(L,S,R);
std::cout << Sb(0) << Sb(1)<< Sb(2)<< std::endl ;
std::cout << S(0) << std::endl ;
}
}