//#define TRIQS_ARRAYS_ENFORCE_BOUNDCHECK #include #include #include #include using triqs::gfs::refreq; using triqs::gfs::retime; using triqs::gfs::imfreq; using triqs::gfs::imtime; using triqs::gfs::make_gf; using triqs::gfs::scalar_valued; using triqs::gfs::Fermion; using triqs::arrays::make_shape; using triqs::arrays::range; double precision=10e-12; #define TEST(X) std::cout << BOOST_PP_STRINGIZE((X)) << " ---> "<< (X) < (-wmax, wmax, N, make_shape(2,2)); auto Gt = make_gf (0, tmax, N, make_shape(2,2)); auto Gw2 = make_gf (-wmax, wmax, N); auto Gt2 = make_gf (0, tmax, N); auto Giw = make_gf (beta, Fermion, make_shape(2,2), N); auto Git = make_gf (beta, Fermion, make_shape(2,2), N); auto Giw2 = make_gf (beta, Fermion, N); auto Git2 = make_gf (beta, Fermion, N); int i =0; for (auto & t : Gt.mesh()) Gt[t] = 1.0*t; for (auto & w : Gw.mesh()) Gw[w] = 1.0*w; for (auto & it : Git.mesh()) Git[it] = 1.0*it; for (auto & iw : Giw.mesh()) Giw[iw] = 1.0*iw; triqs::clef::placeholder<0> t_; triqs::clef::placeholder<1> w_; Gt2( t_) << 1.0*t_; Gw2( w_) << 1.0*w_; Git2( t_) << 1.0*t_; Giw2( w_) << 1.0*w_; std::cout << "Gt(0.3352*tmax)(0,0)=" << Gt(0.3352*tmax)(0,0) << std::endl; if ( std::abs(Gt(0.3352*tmax)(0,0)-0.3352*tmax) > precision) TRIQS_RUNTIME_ERROR<< "evaluator error in Gt\n"; std::cout << "Gt2(0.3352*tmax)=" << Gt2(0.3352*tmax) << std::endl; if ( std::abs(Gt2(0.3352*tmax)-0.3352*tmax) > precision) TRIQS_RUNTIME_ERROR<< "evaluator error in Gt2\n"; std::cout << "Gw(0.3352*wmax)(0,0)=" << Gw(0.3352*wmax)(0,0) << std::endl; if ( std::abs(Gw(0.3352*wmax)(0,0)-0.3352*wmax) > precision) TRIQS_RUNTIME_ERROR<< "evaluator error in Gw\n"; std::cout << "Gw2(0.3352*wmax)=" << Gw2(0.3352*wmax) << std::endl; if ( std::abs(Gw2(0.3352*wmax)-0.3352*wmax) > precision) TRIQS_RUNTIME_ERROR<< "evaluator error in Gw2\n"; std::cout << "Git(0.3352*beta)(0,0)=" << Git(0.3352*beta)(0,0) << std::endl; if ( std::abs(Git(0.3352*beta)(0,0)-0.3352*beta) > precision) TRIQS_RUNTIME_ERROR<< "evaluator error in Git\n"; std::cout << "Git2(0.3352*beta)=" << Git2(0.3352*beta) << std::endl; if ( std::abs(Git2(0.3352*beta)-0.3352*beta) > precision) TRIQS_RUNTIME_ERROR<< "evaluator error in Git2\n"; if ( std::abs(Gw2.on_mesh(N/3) -Gw2[N/3] ) > precision) TRIQS_RUNTIME_ERROR<< "error in on_mesh()\n"; if ( std::abs(Gt2.on_mesh(N/3) -Gt2[N/3] ) > precision) TRIQS_RUNTIME_ERROR<< "error in on_mesh()\n"; if ( std::abs(Git2.on_mesh(N/3)-Git2[N/3]) > precision) TRIQS_RUNTIME_ERROR<< "error in on_mesh()\n"; // test hdf5 H5::H5File file("ess_gfre.h5", H5F_ACC_TRUNC ); h5_write(file, "gt", Gt); h5_write(file, "gw", Gw); h5_write(file, "git", Git); h5_write(file, "giw", Giw); }