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dft_tools/triqs/gf/imfreq.hpp

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/*******************************************************************************
*
* TRIQS: a Toolbox for Research in Interacting Quantum Systems
*
* Copyright (C) 2012 by M. Ferrero, O. Parcollet
*
* TRIQS is free software: you can redistribute it and/or modify it under the
* terms of the GNU General Public License as published by the Free Software
* Foundation, either version 3 of the License, or (at your option) any later
* version.
*
* TRIQS is distributed in the hope that it will be useful, but WITHOUT ANY
* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
* FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
* details.
*
* You should have received a copy of the GNU General Public License along with
* TRIQS. If not, see <http://www.gnu.org/licenses/>.
*
******************************************************************************/
#ifndef TRIQS_GF_MATSUBARA_FREQ_H
#define TRIQS_GF_MATSUBARA_FREQ_H
#include "./tools.hpp"
#include "./gf.hpp"
#include "./local/tail.hpp"
#include "./domains/matsubara.hpp"
#include "./meshes/linear.hpp"
namespace triqs { namespace gf {
struct imfreq {};
namespace gf_implementation {
// mesh type and its factories
template<typename Opt> struct mesh<imfreq,Opt> {
typedef linear_mesh<matsubara_domain<true>> type;
typedef typename type::domain_t domain_t;
static type make(double beta, statistic_enum S, size_t Nmax = 1025) {
double m1 = std::acos(-1)/beta;
return type( domain_t(beta,S), S==Fermion?m1:0, S==Fermion?(2*Nmax+1)*m1: 2*Nmax*m1, Nmax, without_last);
}
};
//singularity
template<typename Opt> struct singularity<imfreq,matrix_valued,Opt> { typedef local::tail type;};
template<typename Opt> struct singularity<imfreq,scalar_valued,Opt> { typedef local::tail type;};
//h5 name
template<typename Opt> struct h5_name<imfreq,matrix_valued,Opt> { static std::string invoke(){ return "GfImFreq";}};
template<typename Opt> struct h5_name<imfreq,scalar_valued,Opt> { static std::string invoke(){ return "GfImFreq_s";}};
/// --------------------------- evaluator ---------------------------------
template<typename Opt, typename Target>
struct evaluator<imfreq,Target,Opt> {
static constexpr int arity = 1;
typedef typename std::conditional < std::is_same<Target, matrix_valued>::value, arrays::matrix_view<std::complex<double>>, std::complex<double>>::type rtype;
template<typename G>
rtype operator() (G const * g, long n) const {return g->data()(n, arrays::ellipsis()); }
template<typename G>
local::tail_view operator()(G const * g, freq_infty const &) const {return g->singularity();}
};
/// --------------------------- data access ---------------------------------
template<typename Opt> struct data_proxy<imfreq,matrix_valued,Opt> : data_proxy_array<std::complex<double>,3> {};
template<typename Opt> struct data_proxy<imfreq,scalar_valued,Opt> : data_proxy_array<std::complex<double>,1> {};
// ------------------------------- Factories --------------------------------------------------
// matrix_valued
template<typename Opt> struct factories<imfreq,matrix_valued,Opt> {
typedef gf<imfreq,matrix_valued,Opt> gf_t;
template<typename MeshType>
static gf_t make_gf(MeshType && m, tqa::mini_vector<size_t,2> shape, local::tail_view const & t) {
typename gf_t::data_non_view_t A(shape.front_append(m.size())); A() =0;
return gf_t ( std::forward<MeshType>(m), std::move(A), t, nothing() ) ;
}
static gf_t make_gf(double beta, statistic_enum S, tqa::mini_vector<size_t,2> shape) {
return make_gf(mesh<imfreq,Opt>::make(beta,S), shape, local::tail(shape));
}
static gf_t make_gf(double beta, statistic_enum S, tqa::mini_vector<size_t,2> shape, size_t Nmax) {
return make_gf(mesh<imfreq,Opt>::make(beta,S,Nmax), shape, local::tail(shape));
}
static gf_t make_gf(double beta, statistic_enum S, tqa::mini_vector<size_t,2> shape, size_t Nmax, local::tail_view const & t) {
return make_gf(mesh<imfreq,Opt>::make(beta,S,Nmax), shape, t);
}
};
// scalar_valued
template<typename Opt> struct factories<imfreq,scalar_valued,Opt> {
typedef gf<imfreq,scalar_valued,Opt> gf_t;
template<typename MeshType>
static gf_t make_gf(MeshType && m, local::tail_view const & t) {
typename gf_t::data_non_view_t A(m.size()); A() =0;
return gf_t ( std::forward<MeshType>(m), std::move(A), t, nothing() ) ;
}
static gf_t make_gf(double beta, statistic_enum S) {
return make_gf(mesh<imfreq,Opt>::make(beta,S), local::tail(tqa::mini_vector<size_t,2> (1,1)));
}
static gf_t make_gf(double beta, statistic_enum S, size_t Nmax) {
return make_gf(mesh<imfreq,Opt>::make(beta,S,Nmax), local::tail(tqa::mini_vector<size_t,2> (1,1)));
}
static gf_t make_gf(double beta, statistic_enum S, size_t Nmax, local::tail_view const & t) {
return make_gf(mesh<imfreq,Opt>::make(beta,S,Nmax), t);
}
};
} // gf_implementation
}}
#endif