mirror of
https://github.com/triqs/dft_tools
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89 lines
3.9 KiB
C++
89 lines
3.9 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) 2011 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_LOCAL_FOURIER_REAL_H
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#define TRIQS_GF_LOCAL_FOURIER_REAL_H
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#include "fourier_base.hpp"
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#include <triqs/gfs/refreq.hpp>
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#include <triqs/gfs/retime.hpp>
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namespace triqs { namespace gfs {
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// First the implementation of the fourier transform
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void fourier_impl (gf_view<refreq,scalar_valued> gw , gf_view<retime,scalar_valued> const gt, scalar_valued);
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void fourier_impl (gf_view<refreq,matrix_valued> gw , gf_view<retime,matrix_valued> const gt, matrix_valued);
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void inverse_fourier_impl (gf_view<retime,scalar_valued> gt, gf_view<refreq,scalar_valued> const gw, scalar_valued);
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void inverse_fourier_impl (gf_view<retime,matrix_valued> gt, gf_view<refreq,matrix_valued> const gw, matrix_valued);
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inline gf_view<refreq,matrix_valued> fourier (gf_view<retime, matrix_valued> const gt) {
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double pi = std::acos(-1);
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size_t L = gt.mesh().size();
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double wmin = -pi * (L-1) / (L*gt.mesh().delta());
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double wmax = pi * (L-1) / (L*gt.mesh().delta());
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auto gw = make_gf<refreq,matrix_valued>(wmin, wmax, L, gt.data().shape().front_pop());
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auto V = gw();
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fourier_impl(V, gt, matrix_valued());
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return gw;
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}
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inline gf_view<refreq,scalar_valued> fourier (gf_view<retime, scalar_valued> const gt) {
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double pi = std::acos(-1);
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size_t L = gt.mesh().size();
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double wmin = -pi * (L-1) / (L*gt.mesh().delta());
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double wmax = pi * (L-1) / (L*gt.mesh().delta());
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auto gw = make_gf<refreq,scalar_valued>(wmin, wmax, L);
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auto V = gw();
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fourier_impl(V, gt, scalar_valued());
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return gw;
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}
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inline gf_view<retime,matrix_valued> inverse_fourier (gf_view<refreq,matrix_valued> const gw) {
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double pi = std::acos(-1);
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size_t L = gw.mesh().size();
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double tmin = -pi * (L-1) / (L*gw.mesh().delta());
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double tmax = pi * (L-1) / (L*gw.mesh().delta());
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auto gt = make_gf<retime,matrix_valued>(tmin, tmax, L, gw.data().shape().front_pop());
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auto V = gt();
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inverse_fourier_impl(V, gw, matrix_valued());
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return gt;
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}
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inline gf_view<retime,scalar_valued> inverse_fourier (gf_view<refreq,scalar_valued> const gw) {
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double pi = std::acos(-1);
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size_t L = gw.mesh().size();
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double tmin = -pi * (L-1) / (L*gw.mesh().delta());
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double tmax = pi * (L-1) / (L*gw.mesh().delta());
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auto gt = make_gf<retime,scalar_valued>(tmin, tmax, L);
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auto V = gt();
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inverse_fourier_impl(V, gw, scalar_valued());
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return gt;
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}
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inline gf_keeper<tags::fourier,retime,scalar_valued> lazy_fourier (gf_view<retime,scalar_valued> const & g) { return g;}
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inline gf_keeper<tags::fourier,refreq,scalar_valued> lazy_inverse_fourier (gf_view<refreq,scalar_valued> const & g) { return g;}
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inline gf_keeper<tags::fourier,retime,matrix_valued> lazy_fourier (gf_view<retime,matrix_valued> const & g) { return g;}
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inline gf_keeper<tags::fourier,refreq,matrix_valued> lazy_inverse_fourier (gf_view<refreq,matrix_valued> const & g) { return g;}
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void triqs_gf_view_assign_delegation( gf_view<refreq> g, gf_keeper<tags::fourier,retime> const & L);
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void triqs_gf_view_assign_delegation( gf_view<retime> g, gf_keeper<tags::fourier,refreq> const & L);
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}}
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#endif
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