mirror of
https://github.com/triqs/dft_tools
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800aea4c5e
- deprecated.... - remove the TRIQS_WORKAROUND_INTEL_COMPILER_BUGS macro
108 lines
5.5 KiB
C++
108 lines
5.5 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) 2013 by 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_ARRAYS_INDEXMAP_CUBOID_GROUP_INDICES_H
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#define TRIQS_ARRAYS_INDEXMAP_CUBOID_GROUP_INDICES_H
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#include <triqs/arrays/array.hpp>
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namespace triqs { namespace arrays {
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// a variadic push_back into a vector.
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template<typename V> void vector_push_back_v(V & v){}
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template<typename V, typename T0, typename ... T> void vector_push_back_v(V & v, T0 && t0, T && ... t){ v.push_back(std::forward<T0>(t0)); vector_push_back_v(v,t...);}
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// a list of compile time int...
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template<int... Is> struct m_index{};
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template<int I0, int... Is> struct m_index<I0,Is...> {static constexpr int head = I0; };
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template<int... Is> std::vector<int> m_index_to_vector( m_index<Is...>) { std::vector<int> v; vector_push_back_v(v,Is...); return v;}
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// a trait to get the min, max of a m_index
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template<typename CTL> struct get_min_max;
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template<int I0, int I1, int ... Is> struct get_min_max<m_index<I0, I1, Is...>> {
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typedef get_min_max<m_index<I1,Is...>> r;
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static constexpr int min = (I0 < r::min ? I0 : r::min); static constexpr int max = (I0 > r::max ? I0 : r::max);
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};
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template<int I0> struct get_min_max<m_index<I0>> { static constexpr int min = I0; static constexpr int max = I0; };
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// given a m_index of indices, a metafunction to map to their position into memory
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template<ull_t ML, typename CTL> struct index_group_to_mem_pos_list;
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template<ull_t ML,int ... Is> struct index_group_to_mem_pos_list<ML,m_index<Is...>> {
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typedef m_index < indexmaps::mem_layout::index_to_memory_rank(ML,Is)...> type;
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static_assert( get_min_max<type>::max - get_min_max<type>::min + 1 == sizeof...(Is), "Indices not contiguous in memory");
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};
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#ifndef TRIQS_WORKAROUND_INTEL_COMPILER_BUGS
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// count the number of Is strictly smaller than C
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constexpr int count_pos(int C){ return 0;}
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template<typename ... T> constexpr int count_pos(int C, int i, T... t){ return (i<C ? 1 : 0) + count_pos(C, t...);}
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// a metafunction to map this counting on a list
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template<int ... Is> struct count_pos_list { typedef m_index< count_pos(Is, Is...)...> type; };
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#else
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template<int C, typename CTL> struct count_pos;
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template<int C, int I0, int ... Is> struct count_pos<C,m_index<I0,Is...>> : std::integral_constant<int, count_pos<C,m_index<Is...>>::value + (I0<C ? 1 : 0)> {};
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template<int C> struct count_pos<C,m_index<>> : std::integral_constant<int,0>{};
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template<int ... Is> struct count_pos_list { typedef m_index<Is...> tmp; typedef m_index< count_pos<Is, tmp>::value...> type; };
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#endif
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// a simple foreach
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template<typename Callee, typename T0, typename ... T> void for_each (Callee & C, T0 const & t0, T const & ... t ) { C(t0); for_each(C, t...);}
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template<typename Callee> void for_each (Callee & C){}
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// make a permutation out of a m_index
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template<typename CTL> struct to_permu;
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template<int ... Is> struct to_permu<m_index<Is...>> { static constexpr ull_t value = permutations::permutation(Is...);};
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// the main class
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template<typename A, typename ... MIndex> struct group_indices_impl {
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static constexpr int new_dim = sizeof...(MIndex);
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typedef typename count_pos_list< index_group_to_mem_pos_list<A::indexmap_type::traversal_order,MIndex>::type::head ...>::type new_memory_pos;
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static constexpr ull_t traversal_layout = to_permu<new_memory_pos>::value;
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typedef array_view<typename A::value_type, new_dim,0,traversal_layout > type;
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static type invoke(A const & a) {
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if (a.indexmap().memory_indices_layout_ull() != a.indexmap().traversal_order)
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TRIQS_RUNTIME_ERROR << "Grouping indices is only possible for arrays when the memory_layout is the same as the traversal order \n"
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<< "But here your memory_layout is "<< a.indexmap().memory_indices_layout() << " while the traversal order is "<< a.indexmap().traversal_order_indices_layout();
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std::vector< std::vector<int> > Indices;
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vector_push_back_v(Indices, m_index_to_vector(MIndex())...);
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mini_vector<size_t, type::rank> l;
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mini_vector<std::ptrdiff_t, type::rank> s;
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for (size_t u=0; u<type::rank; ++u) {l[u]=1; s[u]=0;}
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size_t i =0;
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for (auto & m_index : Indices) {
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bool first = true;
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for (auto & ind : m_index) {
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l[i] *= a.indexmap().lengths()[ind];
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s[i] = (first ? a.indexmap().strides()[ind]: std::min(s[i], a.indexmap().strides()[ind]));
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first = false;
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}
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++i;
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}
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//std::cerr << "strides "<< s << std::endl ;
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typename type::indexmap_type im(l,s,0);
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return type(im,a.storage());
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}
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};
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template<typename A, typename ... MIndex >
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typename group_indices_impl<A,MIndex... >::type group_indices(A const & a, MIndex... ) { return group_indices_impl<A,MIndex...>::invoke(a);}
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}}//namespace triqs::arrays
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#endif
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