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dft_tools/triqs/gfs/meshes/matsubara_freq.hpp

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/*******************************************************************************
*
* TRIQS: a Toolbox for Research in Interacting Quantum Systems
*
* Copyright (C) 2013 by 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/>.
*
******************************************************************************/
#pragma once
#include "./mesh_tools.hpp"
#include "../domains/matsubara.hpp"
namespace triqs {
namespace gfs {
struct matsubara_freq_mesh {
///
using domain_t = matsubara_domain<true>;
///
using index_t = long;
///
using domain_pt_t = typename domain_t::point_t;
/// Constructor
matsubara_freq_mesh() : _dom(), _n_pts(0), _positive_only(true) {}
/// Constructor
matsubara_freq_mesh(domain_t dom, int n_pts=1025, bool positive_only = true)
: _dom(std::move(dom)), _n_pts(n_pts), _positive_only(positive_only) {}
/// Constructor
matsubara_freq_mesh(double beta, statistic_enum S, int n_pts = 1025, bool positive_only = true)
: matsubara_freq_mesh({beta, S}, n_pts, positive_only) {}
/// Copy constructor
matsubara_freq_mesh(matsubara_freq_mesh const &) = default;
/// The corresponding domain
domain_t const &domain() const { return _dom; }
/** \brief First value of the index
*
* 0 if positive_only is true
* else :
* For fermions : -Nmax - 1
* For Bosons : -Nmax
**/
/// last Matsubara index
int last_index() const { return (_positive_only ? _n_pts : (_n_pts - (_dom.statistic == Boson ? 1 : 2))/2);}
/// first Matsubara index
int first_index() const { return -(_positive_only ? 0 : last_index() + (_dom.statistic == Fermion)); }
/// Size (linear) of the mesh
long size() const { return _n_pts;}
/// From an index of a point in the mesh, returns the corresponding point in the domain
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domain_pt_t index_to_point(index_t ind) const { return 1_j * M_PI * (2 * ind + (_dom.statistic == Fermion)) / _dom.beta; }
/// Flatten the index in the positive linear index for memory storage (almost trivial here).
long index_to_linear(index_t ind) const { return ind - first_index(); }
/// Is the mesh only for positive omega_n (G(tau) real))
bool positive_only() const { return _positive_only;}
/**
* The mesh point
*
* * NB : the mesh point is also in this case a matsubara_freq.
**/
struct mesh_point_t : tag::mesh_point, matsubara_freq {
mesh_point_t() = default;
mesh_point_t(matsubara_freq_mesh const &mesh, index_t const &index_)
: matsubara_freq(index_, mesh.domain().beta, mesh.domain().statistic),
first_index(mesh.first_index()),
index_stop(mesh.first_index() + mesh.size() - 1) {}
mesh_point_t(matsubara_freq_mesh const &mesh) : mesh_point_t(mesh, mesh.first_index()) {}
void advance() { ++n; }
long linear_index() const { return n - first_index; }
long index() const { return n; }
bool at_end() const { return (n == index_stop + 1); } // at_end means " one after the last one", as in STL
void reset() { n = first_index; }
private:
index_t first_index, index_stop;
};
/// Accessing a point of the mesh from its index
mesh_point_t operator[](index_t i) const {
return {*this, i};
}
/// Iterating on all the points...
using const_iterator = mesh_pt_generator<matsubara_freq_mesh>;
const_iterator begin() const { return const_iterator(this); }
const_iterator end() const { return const_iterator(this, true); }
const_iterator cbegin() const { return const_iterator(this); }
const_iterator cend() const { return const_iterator(this, true); }
bool operator==(matsubara_freq_mesh const &M) const {
return (std::make_tuple(_dom, _n_pts, _positive_only) == std::make_tuple(M._dom, M._n_pts, M._positive_only));
}
bool operator!=(matsubara_freq_mesh const &M) const { return !(operator==(M)); }
/// Write into HDF5
friend void h5_write(h5::group fg, std::string subgroup_name, matsubara_freq_mesh const &m) {
h5::group gr = fg.create_group(subgroup_name);
h5_write(gr, "domain", m.domain());
h5_write(gr, "size", m.size());
if (m._positive_only) {
// kept ONLY for backward compatibility of archives
auto beta = m.domain().beta;
h5_write(gr, "min", Fermion ? M_PI / beta : 0);
h5_write(gr, "max", ((Fermion ? 1 : 0) + 2 * m.size()) * M_PI / beta);
h5_write(gr, "kind", 2);
} else { // A strange way : to preserve backward compatibility for old archive.
h5_write(gr, "start_at_0", m._positive_only);
}
}
/// Read from HDF5
friend void h5_read(h5::group fg, std::string subgroup_name, matsubara_freq_mesh &m) {
h5::group gr = fg.open_group(subgroup_name);
typename matsubara_freq_mesh::domain_t dom;
int L;
bool s = true;
h5_read(gr, "domain", dom);
h5_read(gr, "size", L);
if (gr.has_key("start_at_0")) h5_read(gr, "start_at_0", s);
m = matsubara_freq_mesh{std::move(dom), L, s};
}
friend class boost::serialization::access;
/// BOOST Serialization
template <class Archive> void serialize(Archive &ar, const unsigned int version) {
ar &TRIQS_MAKE_NVP("domain", _dom);
ar &TRIQS_MAKE_NVP("size", _n_pts);
ar &TRIQS_MAKE_NVP("kind", _positive_only);
}
/// Simple print (just blabla and the size)
friend std::ostream &operator<<(std::ostream &sout, matsubara_freq_mesh const &m) {
return sout << "Matsubara Freq Mesh of size " << m.size();
}
private:
domain_t _dom;
int _n_pts;
bool _positive_only;
};
//-------------------------------------------------------
/** \brief foreach for this mesh
*
* @param m : a mesh
* @param F : a function of synopsis auto F (matsubara_freq_mesh::mesh_point_t)
*
* Calls F on each point of the mesh, in arbitrary order.
**/
template <typename Lambda> void foreach(matsubara_freq_mesh const &m, Lambda F) {
for (auto const &w : m) F(w);
}
}
}