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dft_tools/triqs/gfs/data_proxies.hpp

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/*******************************************************************************
*
* TRIQS: a Toolbox for Research in Interacting Quantum Systems
*
* Copyright (C) 2012 by M. Ferrero, 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/>.
*
******************************************************************************/
#ifndef TRIQS_GF_DATA_PROXIES_H
#define TRIQS_GF_DATA_PROXIES_H
#include <triqs/utility/first_include.hpp>
#include <utility>
#include <triqs/arrays.hpp>
#include <triqs/arrays/matrix_view_proxy.hpp>
namespace triqs { namespace gfs {
template<typename T, int R> struct data_proxy_array;
//---------------------------- 3d array ----------------------------------
template<typename T> struct data_proxy_array<T,3> {
/// The storage
typedef arrays::array<T,3> storage_t;
typedef typename storage_t::view_type storage_view_t;
/// The data access
arrays::matrix_view_proxy<storage_t,0> operator()(storage_t & data, size_t i) const { return arrays::matrix_view_proxy<storage_t,0>(data,i); }
arrays::const_matrix_view_proxy<storage_t,0> operator()(storage_t const & data, size_t i) const { return arrays::const_matrix_view_proxy<storage_t,0>(data,i); }
arrays::matrix_view_proxy<storage_view_t,0> operator()(storage_view_t & data, size_t i) const { return arrays::matrix_view_proxy<storage_view_t,0>(data,i); }
arrays::const_matrix_view_proxy<storage_view_t,0> operator()(storage_view_t const & data, size_t i) const { return arrays::const_matrix_view_proxy<storage_view_t,0>(data,i); }
template<typename S, typename RHS> static void assign_no_resize (S & data, RHS && rhs) { data() = std::forward<RHS>(rhs);}
template<typename S, typename RHS> static void assign_to_scalar (S & data, RHS && rhs) { data() = std::forward<RHS>(rhs);}
template<typename RHS> static void assign_with_resize (storage_t & data, RHS && rhs) { data = std::forward<RHS>(rhs);}
template<typename RHS> static void rebind (storage_view_t & data, RHS && rhs) { data.rebind(rhs.data()); }
};
//---------------------------- 1d array ----------------------------------
template<typename T> struct data_proxy_array<T,1>{
/// The storage
typedef arrays::array<T,1> storage_t;
typedef typename storage_t::view_type storage_view_t;
/// The data access
auto operator()(storage_t & data,size_t i) const -> decltype(data(i)) { return data(i);}
auto operator()(storage_t const & data,size_t i) const -> decltype(data(i)) { return data(i);}
auto operator()(storage_view_t & data,size_t i) const -> decltype(data(i)) { return data(i);}
auto operator()(storage_view_t const & data,size_t i) const -> decltype(data(i)) { return data(i);}
template<typename S, typename RHS> static void assign_no_resize (S & data, RHS && rhs) { data() = std::forward<RHS>(rhs);}
template<typename S, typename RHS> static void assign_to_scalar (S & data, RHS && rhs) { data() = std::forward<RHS>(rhs);}
template<typename RHS> static void assign_with_resize (storage_t & data, RHS && rhs) { data = std::forward<RHS>(rhs);}
template<typename RHS> static void rebind (storage_view_t & data, RHS && rhs) { data.rebind(rhs.data()); }
};
//---------------------------- vector ----------------------------------
template<typename T> struct data_proxy_vector {
typedef typename T::view_type Tv;
/// The storage
typedef std::vector<T> storage_t;
typedef std::vector<Tv> storage_view_t;
/// The data access
T & operator()(storage_t & data, size_t i) { return data[i];}
T const & operator()(storage_t const & data, size_t i) const { return data[i];}
Tv & operator()(storage_view_t & data, size_t i) { return data[i];}
Tv const & operator()(storage_view_t const & data, size_t i) const { return data[i];}
template<typename S, typename RHS> static void assign_no_resize (S & data, RHS && rhs) {
//auto r = make_vector(rhs);
if (data.size() !=rhs.size()) TRIQS_RUNTIME_ERROR << "Size mismatch in gf assignment";
for (size_t i =0; i<data.size(); ++i) data[i] = rhs[i];
}
template<typename S, typename RHS> static void assign_with_resize (S & data, RHS && rhs) {data = utility::factory<storage_t>(rhs);}
template<typename S, typename RHS> static void assign_to_scalar (S & data, RHS && rhs) {for (size_t i =0; i<data.size(); ++i) data[i] = rhs;}
template<typename RHS> static void rebind (storage_view_t & data, RHS && rhs) { data.clear(); for (auto & x : rhs.data()) data.push_back(x);}
};
//---------------------------- vector ----------------------------------
template<typename F> struct data_proxy_lambda {
/// The storage
typedef F storage_t;
typedef F storage_view_t;
/// The data access
auto operator()(storage_t & data, size_t i) DECL_AND_RETURN( data(i));
auto operator()(storage_t const & data, size_t i) const DECL_AND_RETURN( data(i));
template<typename S, typename RHS> static void assign_no_resize (S & data, RHS && rhs) { data() = std::forward<RHS>(rhs);}
template<typename S, typename RHS> static void assign_with_resize (S & data, RHS && rhs) = delete;
template<typename S, typename RHS> static void assign_to_scalar (S & data, RHS && rhs) = delete;
template<typename RHS> static void rebind (storage_view_t & data, RHS && rhs) = delete;// { data = std::forward<RHS>(rhs);}
};
}}
#endif