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dft_tools/triqs/arrays/indexmaps/cuboid/slice_traversal_order.hpp

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/*******************************************************************************
*
* TRIQS: a Toolbox for Research in Interacting Quantum Systems
*
* Copyright (C) 2012 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/>.
*
******************************************************************************/
#ifndef TRIQS_ARRAYS_INDEXMAP_STORAGE_ORDER_H
#define TRIQS_ARRAYS_INDEXMAP_STORAGE_ORDER_H
#include "./mem_layout.hpp"
namespace triqs { namespace arrays { namespace indexmaps { namespace cuboid { namespace slicing_TO_order {
#ifndef TRIQS_WORKAROUND_INTEL_COMPILER_BUGS
template <typename... SliceArgs> struct _impl{
static constexpr int n_range_ellipsis=0;
static constexpr ull_t mask(ull_t mo, int P, int c) { return 0;}
static constexpr ull_t smo (ull_t mo, ull_t ma, int P, int c) { return 0;}
};
template <typename A0, typename... SliceArgs> struct _impl< A0,SliceArgs...> {
typedef _impl<SliceArgs...> next_t;
static constexpr bool is_range = std::is_base_of<range, A0>::value; // range and ellipsis (derived from range)
static constexpr int n_range_ellipsis= next_t::n_range_ellipsis + is_range;
static constexpr ull_t mask(ull_t mo, int P=0, int c=0) { return ((is_range ? P+1 : 0) << (4*c)) + next_t::mask(mo,P + is_range,c+1);}
static constexpr ull_t r2 (ull_t mo, ull_t ma, int c) { return (ma >> (4*(permutations::apply(mo,c)))) & 0xF; }
static constexpr ull_t aux (ull_t mo,ull_t ma,ull_t r,int P,int c) { return (r!=0? ( (r-1) << (4*P)) : 0) + next_t::smo(mo,ma,P+(r!=0), c+1); }
static constexpr ull_t smo (ull_t mo, ull_t ma, int P=0, int c=0) { return aux(mo,ma,r2(mo,ma,c),P,c); }
};
template<typename ... Args>
constexpr ull_t sliced_memory_order1(ull_t mo) { return _impl<Args...>::n_range_ellipsis + 0x10*_impl<Args...>::smo(mo, _impl<Args...>::mask(mo));}
template<typename ... Args>
constexpr ull_t sliced_memory_order2(ull_t mo) { return (mem_layout::is_c (mo) ? c_order(_impl<Args...>::n_range_ellipsis) :
( mem_layout::is_fortran(mo) ? fortran_order(_impl<Args...>::n_range_ellipsis) : sliced_memory_order1<Args...>(mo) ));
}
template<ull_t mo, typename ... Args> struct sliced_memory_order { static constexpr ull_t value = sliced_memory_order1<Args...>(mo); };
#else
template <int P, int c, typename... SliceArgs> struct mask {
static constexpr ull_t value = 0;
static constexpr int n_range_ellipsis= 0;
};
template <int P, int c, typename A0, typename... SliceArgs> struct mask<P,c,A0,SliceArgs...> {
static constexpr bool is_range = std::is_base_of<range, A0>::value;
typedef mask<P + is_range, c+1,SliceArgs...> next_t;
static constexpr int n_range_ellipsis= next_t::n_range_ellipsis + is_range;
static constexpr ull_t value = ((is_range ? P+1 : 0) << (4*c)) + next_t::value;
};
template <ull_t mo, ull_t ma, int P, int c, typename ... A> struct _impl { static constexpr ull_t value = 0; };
template <ull_t mo, ull_t ma, int P, int c, typename A0, typename... SliceArgs> struct _impl<mo,ma,P,c, A0,SliceArgs...> {
static constexpr bool is_range = std::is_base_of<range, A0>::value;
struct r2 { // Intel ....
static constexpr ull_t pn = permutations::apply(mo,c);
static constexpr ull_t value = (ma >> (4*(pn))) & 0xFull;
};
static const bool r2_nozero = (r2::value!=0);
static constexpr ull_t value = (r2::value!=0 ? ( (r2::value-1) << (4*P) ) : 0)+ _impl<mo,ma,P+r2_nozero,c+1,SliceArgs...>::value;
};
template<ull_t mo, typename ... Args> struct sliced_memory_order {
typedef mask<0,0,Args...> mask_t;
static constexpr ull_t value = mask_t::n_range_ellipsis + 0x10* _impl<mo, mask_t::value,0,0,Args...>::value ;
};
#endif
}}}}}//namespace triqs::arrays
#endif