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dft_tools/test/triqs/gfs/curry1.cpp
Olivier Parcollet 85141350e7 remove warnings in compilation
- triqs & tests now compiles with -Wall on clang (3.2)
Checked on OS X.
Todo : recheck on other compilers.
2014-01-30 22:17:28 +01:00

105 lines
3.8 KiB
C++

#define TRIQS_ARRAYS_ENFORCE_BOUNDCHECK
#include <triqs/gfs.hpp>
#include <triqs/gfs/local/fourier_real.hpp>
namespace tql= triqs::clef;
using namespace triqs::gfs;
int main() {
try {
double beta =1.;
double tmin=0.;
double tmax=1.0;
int n_re_time=100;
int n_im_time=100;
double wmin=0.;
double wmax=1.0;
int n_re_freq=100;
int n_im_freq=100;
auto G_w= gf<refreq, scalar_valued>{{wmin, wmax, n_re_freq}};
auto G_t_tau= gf<cartesian_product<retime,imtime>, scalar_valued>({ gf_mesh<retime>(tmin, tmax, n_re_time), gf_mesh<imtime>(beta, Fermion, n_im_time)} );
auto G_w_wn = gf<cartesian_product<refreq,imfreq>, scalar_valued>( {gf_mesh<refreq>(wmin, wmax, n_re_freq), gf_mesh<imfreq>(beta, Fermion, n_im_freq)});
auto G_w_tau =gf<cartesian_product<refreq,imtime>, scalar_valued>( {gf_mesh<refreq>(wmin, wmax, n_re_freq), gf_mesh<imtime>(beta, Fermion, n_im_time,full_bins)});
//auto g_tau = slice_mesh1(G_w_tau(),1);
//auto g_wn = G_w_wn_curry0[1];
//std::cout << G_t_tau_N (0.1,0.2) << std::endl;
auto G_w_wn_view = G_w_wn();
auto G_w_wn_sl0_a = partial_eval<0>(G_w_wn(), 8);
static_assert(std::is_same<typename std::remove_reference<decltype(G_w_wn_sl0_a.mesh())>::type, const gf_mesh<imfreq>>::value, "oops");
//auto G_w_wn_curry0_a = curry0(G_w_wn);
//auto G_w_wn_sl0_a = slice_mesh0(G_w_wn(), 8);
triqs::clef::placeholder<0> w_;
triqs::clef::placeholder<1> wn_;
triqs::clef::placeholder<2> tau_;
G_w_wn(w_,wn_)<<1/(wn_-1)/( pow(w_,3) );
G_w_tau(w_,tau_)<< exp( -2*tau_ ) / (w_*w_ + 1 );
int index = n_re_freq/3;
double tau = std::get<1>(G_w_tau.mesh().components())[index];
//identical functions
G_w(w_) << exp( -2*tau ) / (w_*w_ + 1 );
//the singularity must be removed as it is inexistent in re_im_time, to give the same TF.
G_w.singularity()(0)=triqs::arrays::matrix<double>{{0}};
G_w.singularity()(1)=triqs::arrays::matrix<double>{{0}};
G_w.singularity()(2)=triqs::arrays::matrix<double>{{0}};
//auto G_w2 = slice_mesh1(G_w_tau(), index);
/*auto G_w2 = slice_mesh_imtime(G_w_tau, index);
for(auto& w:G_w.mesh())
if ( std::abs(G_w[w]-G_w2[w]) > precision) TRIQS_RUNTIME_ERROR<<" fourier_slice error : w="<< w <<" ,G_w="<< G_w[w]<<" ,G_w2="<< G_w2[w] <<"\n";
*/
//test of the interpolation
std::cout << G_t_tau(0.789,0.123) << std::endl;
std::cout << "G_w_wn( 0.789,3) "<<G_w_wn( 0.789,3) << std::endl;
std::cout << "G_w_tau(0.789,0.123)" << G_w_tau(0.789,0.123) << std::endl;
// test curry
std::cout << "curry no"<< G_w_wn.on_mesh(8,3) << std::endl ;
auto G_w_wn_curry0 = curry<0>(G_w_wn);
static_assert(std::is_same<typename std::remove_reference<decltype(G_w_wn_curry0[0].mesh())>::type, const gf_mesh<imfreq>>::value, "oops");
static_assert(std::is_same<typename std::remove_reference<decltype(G_w_wn_curry0.mesh())>::type, const gf_mesh<refreq>>::value, "oops");
auto G_w_wn_curry1 = curry<1>(G_w_wn);
auto G_w_wn_view2 = G_w_wn();
std::cout << " curry "<<G_w_wn_curry0[8] << G_w_wn_curry0[8][3] << G_w_wn_view2.on_mesh(8,3) << G_w_wn_view2.on_mesh(8,3) <<std::endl ;
std::cout << " curry "<<G_w_wn_curry1[3][8] << std::endl;
std::cout << "G_w_wn_sl0_a [3]"<<G_w_wn_sl0_a[3] << std::endl ;
// test hdf5
H5::H5File file("gf_re_im_freq_time.h5", H5F_ACC_TRUNC );
h5_write(file, "g_t_tau", G_t_tau);
h5_write(file, "g_w_wn", G_w_wn);
h5_write(file, "g_w_tau", G_w_tau);
/*
// try to slice it
auto gt = slice_mesh_imtime(G_t_tau, 1);
h5_write(file, "gt0", gt);
auto gw = slice_mesh_imtime(G_w_tau, 1);
h5_write(file, "gw0", gw);
//comparison of the TF of the one time and sliced two times GF's
auto G_t = inverse_fourier(G_w);
auto G_t2 = inverse_fourier(slice_mesh_imtime(G_w_tau, index) );
for(auto& t:G_t.mesh())
if ( std::abs(G_t[t]-G_t2[t]) > precision) TRIQS_RUNTIME_ERROR<<" fourier_slice_re_time error : t="<< t <<" ,G_t="<< G_t[t] <<" ,G_t2="<< G_t2[t] <<"\n";
*/
}
TRIQS_CATCH_AND_ABORT;
}