mirror of
https://github.com/triqs/dft_tools
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230 lines
10 KiB
C++
230 lines
10 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) 2011 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_MATRIX_H
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#define TRIQS_ARRAYS_MATRIX_H
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#include "indexmaps/cuboid/map.hpp"
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#include "indexmaps/cuboid/slice.hpp"
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#include "impl/indexmap_storage_pair.hpp"
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#include "impl/assignment.hpp"
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#include "vector.hpp"
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namespace triqs { namespace arrays {
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template <typename ValueType, ull_t Opt=0, ull_t TraversalOrder= 0, bool Borrowed = false, bool IsConst=false> class matrix_view;
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template <typename ValueType, ull_t Opt=0, ull_t TraversalOrder= 0> class matrix;
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// ---------------------- matrix --------------------------------
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//
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#define _IMPL_MATRIX_COMMON \
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bool is_square() const { return this->shape()[0] == this->shape()[1];}\
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\
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view_type transpose() const {\
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typename indexmap_type::lengths_type l; l[0] = this->indexmap().lengths()[1];l[1] = this->indexmap().lengths()[0];\
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typename indexmap_type::strides_type s; s[0] = this->indexmap().strides()[1];s[1] = this->indexmap().strides()[0];\
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return view_type( indexmap_type(l,s, this->indexmap().start_shift()), this->storage());\
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}\
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bool memory_layout_is_c() const { return this->indexmap().strides()[0] >= this->indexmap().strides()[1]; } \
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bool memory_layout_is_fortran() const { return this->indexmap().strides()[0] < this->indexmap().strides()[1]; }
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#define IMPL_TYPE indexmap_storage_pair < indexmaps::cuboid::map<2,Opt,TraversalOrder>, \
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storages::shared_block<ValueType,Borrowed>, Opt, TraversalOrder, IsConst, Tag::matrix_view >
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template <typename ValueType, ull_t Opt, ull_t TraversalOrder, bool Borrowed, bool IsConst>
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class matrix_view : Tag::matrix_view, TRIQS_CONCEPT_TAG_NAME(MutableMatrix), public IMPL_TYPE {
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public :
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typedef matrix <ValueType,Opt,TraversalOrder> regular_type;
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typedef matrix_view<ValueType,Opt,TraversalOrder> view_type;
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typedef matrix_view<ValueType, Opt, TraversalOrder, false, true> const_view_type;
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typedef matrix_view<ValueType,Opt,TraversalOrder,true> weak_view_type;
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typedef typename IMPL_TYPE::indexmap_type indexmap_type;
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typedef typename IMPL_TYPE::storage_type storage_type;
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/// Build from an IndexMap and a storage
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template<typename S> matrix_view (typename IMPL_TYPE::indexmap_type const & Ind,S const & Mem): IMPL_TYPE(Ind, Mem) {}
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/// Build from anything that has an indexmap and a storage compatible with this class
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template<typename ISP> matrix_view(const ISP & X): IMPL_TYPE(X.indexmap(),X.storage()) {}
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#ifdef TRIQS_WITH_PYTHON_SUPPORT
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/// Build from a numpy.array : throws if X is not a numpy.array
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explicit matrix_view (PyObject * X): IMPL_TYPE(X, false, "matrix_view "){}
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#endif
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/// Copy construction
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matrix_view( matrix_view const & X): IMPL_TYPE(X.indexmap(),X.storage()) {}
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matrix_view () = delete;
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// Move
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matrix_view(matrix_view && X) { this->swap_me(X); }
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/// Swap
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friend void swap( matrix_view & A, matrix_view & B) { A.swap_me(B);}
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/// Rebind the view
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void rebind (matrix_view const & X) { this->indexmap_ = X.indexmap_; this->storage_ = X.storage_;}
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/** Assignement. The size of the array MUST match exactly. */
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template<typename RHS> matrix_view & operator=(const RHS & X) {triqs_arrays_assign_delegation(*this,X); return *this; }
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matrix_view & operator=(matrix_view const & X) {triqs_arrays_assign_delegation(*this,X); return *this; }//cf array_view class comment
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// Move assignment not defined : will use the copy = since view must copy data
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TRIQS_DEFINE_COMPOUND_OPERATORS(matrix_view);
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_IMPL_MATRIX_COMMON;
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};
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//---------------------------------------------------------------------
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// this traits is used by indexmap_storage_pair, when slicing to find the correct view type.
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template < class V, int R, ull_t OptionFlags, ull_t To, bool Borrowed, bool IsConst>
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struct ISPViewType< V, R, OptionFlags, To, Tag::matrix_view, Borrowed,IsConst> {
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typedef typename std::conditional<R == 1, vector_view<V, OptionFlags, Borrowed, IsConst>,
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matrix_view<V, OptionFlags, To, Borrowed, IsConst>>::type type;
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};
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#undef IMPL_TYPE
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template <typename ValueType, ull_t Opt = 0, ull_t TraversalOrder = 0, bool Borrowed = false>
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using matrix_const_view = matrix_view<ValueType, Opt, TraversalOrder, Borrowed, true>;
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// ---------------------- matrix --------------------------------
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#define IMPL_TYPE indexmap_storage_pair < indexmaps::cuboid::map<2,Opt,TraversalOrder>, \
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storages::shared_block<ValueType>, Opt, TraversalOrder, false, Tag::matrix_view >
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template <typename ValueType, ull_t Opt, ull_t TraversalOrder >
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class matrix: Tag::matrix, TRIQS_CONCEPT_TAG_NAME(MutableMatrix), public IMPL_TYPE {
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public :
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typedef typename IMPL_TYPE::value_type value_type;
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typedef typename IMPL_TYPE::storage_type storage_type;
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typedef typename IMPL_TYPE::indexmap_type indexmap_type;
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typedef matrix <ValueType,Opt,TraversalOrder> regular_type;
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typedef matrix_view<ValueType,Opt,TraversalOrder> view_type;
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typedef matrix_view<ValueType, Opt, TraversalOrder, false, true> const_view_type;
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typedef matrix_view<ValueType,Opt,TraversalOrder,true> weak_view_type;
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/// Empty matrix.
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matrix(memory_layout<2> ml = memory_layout<2>(IMPL_TYPE::indexmap_type::traversal_order) ): IMPL_TYPE(indexmap_type(ml)) {}
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/// Move
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explicit matrix(matrix && X) { this->swap_me(X); }
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///
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matrix(size_t dim1, size_t dim2, memory_layout<2> ml = memory_layout<2>(IMPL_TYPE::indexmap_type::traversal_order) ) :
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IMPL_TYPE(indexmap_type(mini_vector<size_t,2>(dim1,dim2),ml)) {}
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///
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matrix(mini_vector<size_t,2> const & sha, memory_layout<2> ml = memory_layout<2>(IMPL_TYPE::indexmap_type::traversal_order)) :
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IMPL_TYPE(indexmap_type(sha,ml)) {}
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/** Makes a true (deep) copy of the data. */
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matrix(const matrix & X): IMPL_TYPE(X.indexmap(),X.storage().clone()) {}
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/// Build a new matrix from X.domain() and fill it with by evaluating X. X can be :
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template <typename T>
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matrix(const T & X, TYPE_ENABLE_IF(memory_layout<2>, ImmutableCuboidArray<T>) ml = memory_layout<2>(IMPL_TYPE::indexmap_type::traversal_order)):
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IMPL_TYPE(indexmap_type(X.domain(),ml)) { triqs_arrays_assign_delegation(*this,X); }
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#ifdef TRIQS_WITH_PYTHON_SUPPORT
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///Build from a numpy.array X (or any object from which numpy can make a numpy.array). Makes a copy.
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explicit matrix (PyObject * X): IMPL_TYPE(X, true, "matrix "){}
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#endif
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// build from a init_list
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template<typename T>
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matrix (std::initializer_list<std::initializer_list<T>> const & l):
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IMPL_TYPE(memory_layout<2>(IMPL_TYPE::indexmap_type::traversal_order)) {
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size_t i=0,j=0; int s=-1;
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for (auto const & l1 : l) { if (s==-1) s= l1.size(); else if (s != l1.size()) TRIQS_RUNTIME_ERROR << "initializer list not rectangular !";}
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IMPL_TYPE::resize(typename IMPL_TYPE::domain_type (mini_vector<size_t,2>(l.size(),s)));
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for (auto const & l1 : l) {
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for (auto const & x : l1) { (*this)(i,j++) = x;}
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j=0; ++i;
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}
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}
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/**
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* Resizes the matrix. NB : all references to the storage is invalidated.
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* Does not initialize the matrix by default
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*/
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matrix & resize (size_t n1, size_t n2) { IMPL_TYPE::resize(typename IMPL_TYPE::domain_type (mini_vector<size_t,2>(n1,n2))); return *this;}
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/**
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* Resizes the matrix. NB : all references to the storage is invalidated.
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* Does not initialize the matrix by default
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*/
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matrix & resize (const indexmaps::cuboid::domain_t<IMPL_TYPE::rank> & l) { IMPL_TYPE::resize(l); return *this; }
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/// Assignement resizes the matrix. All references to the storage are therefore invalidated.
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matrix & operator=(const matrix & X) { IMPL_TYPE::resize_and_clone_data(X); return *this; }
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/// Move assignment
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matrix & operator=(matrix && X) { this->swap_me(X); return *this;}
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/// Swap
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friend void swap( matrix & A, matrix & B) { A.swap_me(B);}
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/**
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* Assignement resizes the matrix. All references to the storage are therefore invalidated.
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* NB : to avoid that, do make_view(A) = X instead of A = X
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*/
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template<typename RHS>
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matrix & operator=(const RHS & X) {
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static_assert( ImmutableCuboidArray<RHS>::value, "Assignment : RHS not supported");
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IMPL_TYPE::resize(X.domain());
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triqs_arrays_assign_delegation(*this,X);
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return *this;
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}
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TRIQS_DEFINE_COMPOUND_OPERATORS(matrix);
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_IMPL_MATRIX_COMMON;
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};//matrix class
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#undef _IMPL_MATRIX_COMMON
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#undef IMPL_TYPE
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/*
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template<typename ArrayType>
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matrix_view<typename ArrayType::value_type, ArrayType::opt_flags, ArrayType::traversal_order>
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make_matrix_view(ArrayType const & a) {
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static_assert(ArrayType::rank ==2, "make_matrix_view only works for array of rank 2");
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return a;
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}
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*/
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template<typename ArrayType>
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matrix<typename ArrayType::value_type> //, ArrayType::opt_flags, ArrayType::traversal_order>
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make_matrix(ArrayType const & a) {
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static_assert(ArrayType::domain_type::rank ==2, "make_matrix only works for array of rank 2");
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return a;
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}
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}}//namespace triqs::arrays
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// The std::swap is WRONG for a view because of the copy/move semantics of view.
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// Use swap instead (the correct one, found by ADL).
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namespace std {
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template <typename V, triqs::ull_t Opt, triqs::ull_t To, bool B1, bool B2, bool C1, bool C2>
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void swap( triqs::arrays::matrix_view<V,Opt,To,B1,C1> & a , triqs::arrays::matrix_view<V,Opt,To,B2,C2> & b)= delete;
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}
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#include "./expression_template/matrix_algebra.hpp"
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#endif
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