mirror of
https://github.com/triqs/dft_tools
synced 2024-11-01 03:33:50 +01:00
b45045e81c
gcc has a pb because the template mesh<Variable,Opt> has the name same as the gf mesh method (!). Clang is fine however on this... Solution : rename the template mesh<...> to gf_mesh... Not very elegant, but ok.
120 lines
5.0 KiB
C++
120 lines
5.0 KiB
C++
/*******************************************************************************
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*
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* TRIQS: a Toolbox for Research in Interacting Quantum Systems
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*
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* Copyright (C) 2012 by M. Ferrero, O. Parcollet
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*
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* TRIQS is free software: you can redistribute it and/or modify it under the
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* terms of the GNU General Public License as published by the Free Software
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* Foundation, either version 3 of the License, or (at your option) any later
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* version.
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*
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* TRIQS is distributed in the hope that it will be useful, but WITHOUT ANY
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* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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* FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
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* details.
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*
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* You should have received a copy of the GNU General Public License along with
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* TRIQS. If not, see <http://www.gnu.org/licenses/>.
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*
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******************************************************************************/
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#ifndef TRIQS_GF_FREQ_H
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#define TRIQS_GF_FREQ_H
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#include "./tools.hpp"
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#include "./gf.hpp"
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#include "./local/tail.hpp"
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#include "./domains/R.hpp"
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#include "./meshes/linear.hpp"
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namespace triqs { namespace gfs {
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struct refreq {};
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template<typename Opt> struct gf_mesh<refreq,Opt> : linear_mesh<R_domain> {
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typedef linear_mesh<R_domain> B;
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gf_mesh() = default;
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gf_mesh (double wmin, double wmax, size_t n_freq, mesh_kind mk=full_bins) :
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B(typename B::domain_t(), wmin, wmax, n_freq, mk){}
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};
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namespace gfs_implementation {
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// singularity
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template<typename Opt> struct singularity<refreq,matrix_valued,Opt> { typedef local::tail type;};
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template<typename Opt> struct singularity<refreq,scalar_valued,Opt> { typedef local::tail type;};
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// h5 name
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template<typename Opt> struct h5_name<refreq,matrix_valued,Opt> { static std::string invoke(){ return "ReFreq";}};
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/// --------------------------- evaluator ---------------------------------
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template<typename Opt, typename Target>
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struct evaluator<refreq,Target,Opt> {
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static constexpr int arity = 1;
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typedef typename std::conditional < std::is_same<Target, matrix_valued>::value, arrays::matrix<std::complex<double> >, std::complex<double>>::type rtype;
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template<typename G>
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rtype operator() (G const * g,double w0) const {
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//auto operator() (G const * g,double w0) const -> typename decltype ((*g)[0])::regular_type {
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size_t n; double w; bool in;
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std::tie(in, n, w) = windowing(g->mesh(),w0);
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if (!in) TRIQS_RUNTIME_ERROR <<" Evaluation out of bounds";
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auto gg = on_mesh(*g);
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return (1-w) * gg(n) + w * gg(n+1);
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}
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template<typename G>
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local::tail_view operator()(G const * g,freq_infty const &) const {return g->singularity();}
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};
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/// --------------------------- data access ---------------------------------
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template<typename Opt> struct data_proxy<refreq,matrix_valued,Opt> : data_proxy_array<std::complex<double>,3> {};
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template<typename Opt> struct data_proxy<refreq,scalar_valued,Opt> : data_proxy_array<std::complex<double>,1> {};
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// ------------------------------- Factories --------------------------------------------------
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//matrix_valued
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template<typename Opt> struct factories<refreq, matrix_valued,Opt> {
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typedef gf<refreq,matrix_valued> gf_t;
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template<typename MeshType>
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static gf_t make_gf(MeshType && m, tqa::mini_vector<size_t,2> shape, local::tail_view const & t) {
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typename gf_t::data_regular_t A(shape.front_append(m.size())); A() =0;
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return gf_t ( std::forward<MeshType>(m), std::move(A), t, nothing() ) ;
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}
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static gf_t make_gf(double wmin, double wmax, size_t n_freq, tqa::mini_vector<size_t,2> shape) {
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typename gf_t::data_regular_t A(shape.front_append(n_freq)); A() =0;
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return gf_t(gf_mesh<refreq,Opt>(wmin, wmax, n_freq, full_bins), std::move(A), local::tail(shape), nothing());
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}
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static gf_t make_gf(double wmin, double wmax, size_t n_freq, tqa::mini_vector<size_t,2> shape, mesh_kind mk) {
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typename gf_t::data_regular_t A(shape.front_append(n_freq)); A() =0;
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return gf_t(gf_mesh<refreq,Opt>(wmin, wmax, n_freq, mk), std::move(A), local::tail(shape), nothing());
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}
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};
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//scalar_valued
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template<typename Opt> struct factories<refreq,scalar_valued,Opt> {
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typedef gf<refreq,scalar_valued> gf_t;
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template<typename MeshType>
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static gf_t make_gf(MeshType && m, local::tail_view const & t) {
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typename gf_t::data_regular_t A(m.size()); A() =0;
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return gf_t ( std::forward<MeshType>(m), std::move(A), t, nothing() ) ;
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}
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static gf_t make_gf(double wmin, double wmax, size_t n_freq) {
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typename gf_t::data_regular_t A(n_freq); A() =0;
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return gf_t(gf_mesh<refreq,Opt>(wmin, wmax, n_freq), std::move(A), local::tail(tqa::mini_vector<size_t,2>(1,1)), nothing());
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}
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static gf_t make_gf(double wmin, double wmax, size_t n_freq, mesh_kind mk) {
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typename gf_t::data_regular_t A(n_freq); A() =0;
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return gf_t(gf_mesh<refreq,Opt>(wmin, wmax, n_freq, mk), std::move(A), local::tail(tqa::mini_vector<size_t,2>(1,1)), nothing());
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}
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};
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} // gfs_implementation
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}}
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#endif
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