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https://github.com/triqs/dft_tools
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579368f24b
- lazy_fourier and co --> fourier - ex fourier --> make_gf_from_fourier to make a new gf - = fourier (g) works only iif lhs is a view, like scalar. - updated python (commented fourier method).
63 lines
2.5 KiB
C++
63 lines
2.5 KiB
C++
#define TRIQS_ARRAYS_ENFORCE_BOUNDCHECK
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#include <triqs/gfs.hpp>
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using namespace triqs::gfs;
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using namespace triqs::arrays;
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#define TEST(X) std::cout << BOOST_PP_STRINGIZE((X)) << " ---> "<< (X) <<std::endl<<std::endl;
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#include <triqs/gfs/local/fourier_matsubara.hpp>
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namespace triqs { namespace gfs {
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// defined in the cpp file
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void fourier_impl (gf_view<imfreq,scalar_valued> gw , gf_const_view<imtime,scalar_valued> gt, scalar_valued);
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void fourier_impl (gf_view<imfreq,matrix_valued> gw , gf_const_view<imtime,matrix_valued> gt, matrix_valued);
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void inverse_fourier_impl (gf_view<imtime,scalar_valued> gt, gf_const_view<imfreq,scalar_valued> gw, scalar_valued);
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void inverse_fourier_impl (gf_view<imtime,matrix_valued> gt, gf_const_view<imfreq,matrix_valued> gw, matrix_valued);
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}}
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int main() {
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double precision=10e-9;
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H5::H5File file("test_fourier_matsubara.h5",H5F_ACC_TRUNC);
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triqs::clef::placeholder<0> om_;
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double beta =1;
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int N=10000;
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double E=1;
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auto Gw1 = gf<imfreq> {{beta, Fermion, N}, {1,1}};
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Gw1(om_) << 1/(om_-E);
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// for(auto const& w:Gw1.mesh()){
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// std::cout<<"w="<<std::complex<double>(w)<<", Gw1=" << Gw1[w](0,0)<<std::endl;
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// }
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h5_write(file, "Gw1", Gw1); // the original lorentzian
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auto Gt1 = gf<imtime> {{beta, Fermion, N}, {1,1}};
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inverse_fourier_impl( Gt1, Gw1, triqs::gfs::matrix_valued() );
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// for(auto const& t:Gt1.mesh()){
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// std::cout<<"t="<<t<<", expected="<<exp(-E*t) * ( (t>0?-1:0)+1/(1+exp(E*beta)) )<<std::endl;
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// }
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h5_write(file, "Gt1", Gt1); // the lorentzian TF : lorentzian_inverse
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///verification that TF(TF^-1)=Id
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auto Gw1b = gf<imfreq> {{beta, Fermion, N}, {1,1}};
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fourier_impl(Gw1b, Gt1, triqs::gfs::matrix_valued());
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for(auto const& w:Gw1.mesh()){
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// std::cout<<"w="<<std::complex<double>(w)<<",Gw1b=" << Gw1b(w)(0,0)<<std::endl;
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// std::cout<<"w="<<std::complex<double>(w)<<",Delta Gw1b=" << Gw1b(w)(0,0)-Gw1(w)(0,0)<<std::endl;
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if ( std::abs(Gw1b[w](0,0)-Gw1[w](0,0)) > precision) TRIQS_RUNTIME_ERROR<<" fourier_matsubara error : w="<<std::complex<double>(w)<<" ,Gw1b="<<std::abs(Gw1b[w](0,0))<<"\n";
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}
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h5_write(file,"Gw1b",Gw1b); // must be 0
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///verification that the TF is OK
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for(auto const & t:Gt1.mesh()){
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Gt1[t]-= exp(-E*t) * ( (t>0?-1:0)+1/(1+exp(E*beta)) );
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if ( std::abs(Gt1[t](0,0)) > precision) TRIQS_RUNTIME_ERROR<<" fourier_matsubara error : t="<<t<<" ,G1="<<std::abs(Gt1[t](0,0))<<"\n";
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}
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h5_write(file,"Gt1b",Gt1); // must be 0
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///to verify that fourier computes
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auto Gw2 = gf<imfreq> {{beta, Fermion}, {1,1}};
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Gw2() = fourier(Gt1);
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}
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