mirror of
https://github.com/triqs/dft_tools
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bdac3e159c
- little details : code cleaning, clang formatting, along with documentation writing for c++ gf. - separated the mesh in small class for better doc. - work on documentation : reorganize specialisation, ...
143 lines
5.8 KiB
C++
143 lines
5.8 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) 2012-2013 by 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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#pragma once
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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 "./local/no_tail.hpp"
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#include "./meshes/matsubara_freq.hpp"
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#include "./evaluators.hpp"
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namespace triqs {
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namespace gfs {
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struct imfreq {};
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template <typename Opt> struct gf_mesh<imfreq, Opt> : matsubara_freq_mesh {
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template <typename... T> gf_mesh(T &&... x) : matsubara_freq_mesh(std::forward<T>(x)...) {}
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//using matsubara_freq_mesh::matsubara_freq_mesh;
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};
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namespace gfs_implementation {
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// singularity
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template <> struct singularity<imfreq, matrix_valued, void> {
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using type = local::tail;
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};
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template <> struct singularity<imfreq, scalar_valued, void> {
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using type = local::tail;
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};
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// h5 name
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template <typename Opt> struct h5_name<imfreq, matrix_valued, Opt> {
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static std::string invoke() { return "ImFreq"; }
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};
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/// --------------------------- evaluator ---------------------------------
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// simple evaluation : take the point on the grid...
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template <> struct evaluator_fnt_on_mesh<imfreq> {
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long n;
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evaluator_fnt_on_mesh() = default;
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template <typename MeshType> evaluator_fnt_on_mesh(MeshType const &m, long p) { n = p; }
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template <typename MeshType> evaluator_fnt_on_mesh(MeshType const &m, matsubara_freq const &p) { n = p.n; }
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template <typename F> auto operator()(F const &f) const DECL_AND_RETURN(f(n));
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};
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// ------------- evaluator -------------------
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// handle the case where the matsu. freq is out of grid...
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template <typename Target, typename Opt> struct evaluator<imfreq, Target, Opt> {
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static constexpr int arity = 1;
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template <typename G> auto operator()(G const *g, int n) const DECL_AND_RETURN((*g)[n]);
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template <typename G>
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auto operator()(G const *g, matsubara_freq_mesh::mesh_point_t const &p) const DECL_AND_RETURN((*g)[p.index()]);
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// dispatch for 2x2 cases : matrix/scalar and tail/no_tail ( true means no_tail)
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template <typename G>
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std::complex<double> _call_impl(G const *g, matsubara_freq const &f, scalar_valued, std::false_type) const {
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if ((f.n >= 0) && (f.n < g->mesh().size())) return (*g)[f.n];
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if ((f.n < 0) && (-f.n < g->mesh().size())) return conj((*g)[-f.n]);
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return g->singularity().evaluate(f)(0, 0);
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}
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template <typename G>
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std::complex<double> _call_impl(G const *g, matsubara_freq const &f, scalar_valued, std::true_type) const {
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if ((f.n >= 0) && (f.n < g->mesh().size())) return (*g)[f.n];
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if ((f.n < 0) && (-f.n < g->mesh().size())) return conj((*g)[-f.n]);
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return 0;
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}
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template <typename G>
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arrays::matrix_const_view<std::complex<double>> _call_impl(G const *g, matsubara_freq const &f, matrix_valued,
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std::false_type) const {
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if ((f.n >= 0) && (f.n < g->mesh().size())) return (*g)[f.n]();
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if ((f.n < 0) && (-f.n < g->mesh().size()))
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return arrays::matrix<std::complex<double>>{conj((*g)[-f.n]())};
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else
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return g->singularity().evaluate(f);
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}
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template <typename G>
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arrays::matrix_const_view<std::complex<double>> _call_impl(G const *g, matsubara_freq const &f, matrix_valued,
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std::true_type) const {
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if ((f.n >= 0) && (f.n < g->mesh().size())) return (*g)[f.n]();
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if ((f.n < 0) && (-f.n < g->mesh().size())) return arrays::matrix<std::complex<double>>{conj((*g)[-f.n]())};
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auto r = arrays::matrix<std::complex<double>>{get_target_shape(*g)};
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r() = 0;
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return r;
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}
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// does not work on gcc 4.8.1 ???
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/* template <typename G>
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auto operator()(G const *g, matsubara_freq const &f) const
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DECL_AND_RETURN(_call_impl(g, f, Target{}, std::integral_constant<bool, std::is_same<Opt, no_tail>::value>{}));
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*/
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template <typename G>
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typename std::conditional<std::is_same<Target, matrix_valued>::value, arrays::matrix_const_view<std::complex<double>>,
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std::complex<double>>::type
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operator()(G const *g, matsubara_freq const &f) const {
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return _call_impl(g, f, Target{}, std::integral_constant<bool, std::is_same<Opt, no_tail>::value>{});
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}
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#ifdef __clang__
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// to generate a clearer error message ? . Only ok on clang ?
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template <int n> struct error {
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static_assert(n > 0, "Green function can not be evaluated on a complex number !");
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};
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template <typename G> error<0> operator()(G const *g, std::complex<double>) const {
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return {};
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}
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#endif
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template <typename G> typename G::singularity_t const &operator()(G const *g, freq_infty const &) const {
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return g->singularity();
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}
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};
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/// --------------------------- data access ---------------------------------
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template <typename Opt> struct data_proxy<imfreq, matrix_valued, Opt> : data_proxy_array<std::complex<double>, 3> {};
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template <typename Opt> struct data_proxy<imfreq, scalar_valued, Opt> : data_proxy_array<std::complex<double>, 1> {};
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} // gfs_implementation
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}
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}
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