mirror of
https://github.com/triqs/dft_tools
synced 2024-12-27 06:43:40 +01:00
f2c7d449cc
for earlier commits, see TRIQS0.x repository.
182 lines
6.4 KiB
C++
182 lines
6.4 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_MESH_LINEAR_H
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#define TRIQS_GF_MESH_LINEAR_H
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#include "./mesh_tools.hpp"
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namespace triqs { namespace gf {
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// Three possible meshes
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enum mesh_kind { half_bins, full_bins, without_last };
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template<typename Domain>
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struct linear_mesh {
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typedef Domain domain_t;
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typedef size_t index_t;
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typedef typename domain_t::point_t domain_pt_t;
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linear_mesh (domain_t const & dom, double a, double b, size_t n_pts, mesh_kind mk) :
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_dom(dom), L(n_pts), a_pt(a), b_pt(b), meshk(mk) {
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switch(mk) {
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case half_bins: del = (b-a)/L; xmin = a+0.5*del; break;
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case full_bins: del = (b-a)/(L-1); xmin = a; break;
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case without_last: del = (b-a)/L; xmin = a; break;
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}
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xmax = xmin + del*(L-1);
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}
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linear_mesh (domain_t && dom, double a, double b, size_t n_pts, mesh_kind mk) :
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_dom(dom), L(n_pts), a_pt(a), b_pt(b), meshk(mk) {
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switch(mk) {
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case half_bins: del = (b-a)/L; xmin = a+0.5*del; break;
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case full_bins: del = (b-a)/(L-1); xmin = a; break;
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case without_last: del = (b-a)/L; xmin = a; break;
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}
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xmax = xmin + del*(L-1);
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}
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linear_mesh () : _dom(), L(0), a_pt(0), b_pt(0), xmin(0), xmax(0), del(0), meshk(half_bins) {}
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domain_t const & domain() const { return _dom;}
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size_t size() const { return L; }
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double delta() const { return del; }
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double x_max() const { return xmax; }
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double x_min() const { return xmin; }
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mesh_kind kind() const { return meshk; }
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/// Conversions point <-> index <-> linear_index
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domain_pt_t index_to_point (index_t ind) const {return embed(xmin + ind * del, mpl::bool_<boost::is_base_of<std::complex<double>, domain_pt_t>::value >()) ;}
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private : // multiply by I is the type is a complex ....
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domain_pt_t embed( double x, mpl::bool_<false> ) const { return x;}
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domain_pt_t embed( double x, mpl::bool_<true> ) const { return std::complex<double>(0,x);}
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public :
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size_t index_to_linear(index_t ind) const {return ind;}
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/// The wrapper for the mesh point
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class mesh_point_t : tag::mesh_point, public arith_ops_by_cast<mesh_point_t, domain_pt_t > {
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linear_mesh const * m;
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index_t _index;
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public:
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mesh_point_t( linear_mesh const & mesh, index_t const & index_): m(&mesh), _index(index_) {}
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void advance() { ++_index;}
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operator domain_pt_t () const { return m->index_to_point(_index);}
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size_t linear_index() const { return _index;}
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size_t index() const { return _index;}
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bool at_end() const { return (_index == m->size());}
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void reset() {_index =0;}
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};
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/// Accessing a point of the mesh
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mesh_point_t operator[](index_t i) const { return mesh_point_t (*this,i);}
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/// Iterating on all the points...
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typedef mesh_pt_generator<linear_mesh> iterator;
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iterator begin() const { return iterator (this);}
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iterator end() const { return iterator (this, true);}
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/// Mesh comparison
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bool operator == (linear_mesh const & M) const { return ((_dom == M._dom) && (size() ==M.size()) && (std::abs(xmin - M.xmin)<1.e-15) && (std::abs(xmax - M.xmax)<1.e-15));}
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/// Write into HDF5
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friend void h5_write (h5::group fg, std::string subgroup_name, linear_mesh const & m) {
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h5::group gr = fg.create_group(subgroup_name);
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int k;
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switch(m.meshk) {
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case half_bins: k=0; break;
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case full_bins: k=1; break;
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case without_last: k=2; break;
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}
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h5_write(gr,"domain",m.domain());
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h5_write(gr,"min",m.a_pt);
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h5_write(gr,"max",m.b_pt);
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h5_write(gr,"size",m.size());
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h5_write(gr,"kind",k);
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}
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/// Read from HDF5
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friend void h5_read (h5::group fg, std::string subgroup_name, linear_mesh & m){
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h5::group gr = fg.open_group(subgroup_name);
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typename linear_mesh::domain_t dom;
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double a,b;
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size_t L;
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int k;
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mesh_kind mk;
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h5_read(gr,"domain",dom);
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h5_read(gr,"min",a);
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h5_read(gr,"max",b);
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h5_read(gr,"size",L);
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h5_read(gr,"kind",k);
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switch(k) {
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case 0: mk = half_bins; break;
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case 1: mk = full_bins; break;
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case 2: mk = without_last; break;
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}
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m = linear_mesh(std::move(dom), a, b, L, mk);
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}
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// BOOST Serialization
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friend class boost::serialization::access;
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template<class Archive>
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void serialize(Archive & ar, const unsigned int version) {
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ar & boost::serialization::make_nvp("domain",_dom);
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ar & boost::serialization::make_nvp("a_pt",a_pt);
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ar & boost::serialization::make_nvp("b_pt",b_pt);
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ar & boost::serialization::make_nvp("xmin",xmin);
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ar & boost::serialization::make_nvp("xmax",xmax);
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ar & boost::serialization::make_nvp("del",del);
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ar & boost::serialization::make_nvp("size",L);
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ar & boost::serialization::make_nvp("kind",meshk);
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}
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private:
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domain_t _dom;
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size_t L;
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double a_pt, b_pt;
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double xmin, xmax;
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double del;
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mesh_kind meshk;
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};
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// UNUSED
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/// Simple approximation of a point of the domain by a mesh point. No check
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template<typename D>
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size_t get_closest_mesh_pt_index ( linear_mesh<D> const & mesh, typename D::point_t const & x) {
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double a = (x - mesh.x_min())/mesh.delta();
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return std::floor(a);
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}
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/// Approximation of a point of the domain by a mesh point
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template<typename D>
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std::tuple<bool, size_t, double> windowing ( linear_mesh<D> const & mesh, typename D::point_t const & x) {
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double a = (x - mesh.x_min())/mesh.delta();
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long i = floor(a);
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bool in = (! ((i<0) || (i>=long(mesh.size())-1)));
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double w = a-i;
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// std::cerr << " window "<< i << " "<< in << " "<< w<< std::endl ;
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return std::make_tuple(in, (in ? size_t(i) : 0),w);
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}
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}}
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#endif
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