/******************************************************************************* * * TRIQS: a Toolbox for Research in Interacting Quantum Systems * * Copyright (C) 2011 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 . * ******************************************************************************/ #ifndef TRIQS_ARRAY_VECTOR_H #define TRIQS_ARRAY_VECTOR_H #include "indexmaps/cuboid/map.hpp" #include "indexmaps/cuboid/slice.hpp" #include "impl/indexmap_storage_pair.hpp" #include "impl/assignment.hpp" #include "impl/flags.hpp" #include namespace triqs { namespace arrays { template class vector_view; template class vector; // ---------------------- vector_view -------------------------------- #define IMPL_TYPE indexmap_storage_pair< indexmaps::cuboid::map<1,Opt,0> , storages::shared_block, Opt, 0, IsConst, true, Tag::vector_view > /** */ template class vector_view : Tag::vector_view, TRIQS_CONCEPT_TAG_NAME(MutableVector), public IMPL_TYPE { public : typedef vector regular_type; typedef vector_view view_type; typedef vector_view const_view_type; typedef vector_view weak_view_type; typedef typename IMPL_TYPE::indexmap_type indexmap_type; typedef typename IMPL_TYPE::storage_type storage_type; /// Build from an IndexMap and a storage template vector_view (indexmaps::cuboid::map<1, Opt2,To2> const & Ind,S const & Mem): IMPL_TYPE(Ind, Mem) {} /// Build from anything that has an indexmap and a storage compatible with this class template vector_view(const ISP & X): IMPL_TYPE(X.indexmap(),X.storage()) {} #ifdef TRIQS_WITH_PYTHON_SUPPORT /// Build from a numpy.array : throws if X is not a numpy.array explicit vector_view (PyObject * X): IMPL_TYPE(X, false, "vector_view "){} #endif /// Copy construction vector_view(vector_view const & X): IMPL_TYPE(X.indexmap(),X.storage()) {} vector_view () = delete; // Move vector_view(vector_view && X) { this->swap_me(X);} /// Swap friend void swap( vector_view & A, vector_view & B) { A.swap_me(B);} /// Rebind the view void rebind(vector_view const& X) { this->indexmap_ = X.indexmap_; this->storage_ = X.storage_; } // rebind the other view, iif this is const, and the other is not. template ENABLE_IFC(C) rebind(vector_view const& X) { this->indexmap_ = X.indexmap_; this->storage_ = X.storage_; } /** Assignment. The size of the array MUST match exactly. */ template vector_view & operator=(const RHS & X) { triqs_arrays_assign_delegation(*this,X); return *this; } vector_view & operator=(vector_view const & X) {triqs_arrays_assign_delegation(*this,X); return *this; }//cf array_view class comment // Move assignment not defined : will use the copy = since view must copy data size_t size() const { return this->shape()[0];} std::ptrdiff_t stride() const { return this->indexmap().strides()[0];} TRIQS_DEFINE_COMPOUND_OPERATORS(vector_view); // to make interface similar to std::vector : forward [] to () template auto operator[](Arg && arg) const DECL_AND_RETURN((*this)(std::forward(arg))); template auto operator[](Arg && arg) DECL_AND_RETURN((*this)(std::forward(arg))); }; #undef IMPL_TYPE template < class V, int R, ull_t OptionFlags, ull_t To, bool Borrowed, bool IsConst> struct ISPViewType< V, R,OptionFlags,To, Tag::vector_view, Borrowed, IsConst> { typedef vector_view type; }; template using vector_const_view = vector_view; // ---------------------- vector-------------------------------- #define IMPL_TYPE indexmap_storage_pair< indexmaps::cuboid::map<1,Opt,0> , storages::shared_block, Opt, 0, false, false,Tag::vector_view > template class vector: Tag::vector, TRIQS_CONCEPT_TAG_NAME(MutableVector), public IMPL_TYPE { public : typedef typename IMPL_TYPE::value_type value_type; typedef typename IMPL_TYPE::storage_type storage_type; typedef typename IMPL_TYPE::indexmap_type indexmap_type; typedef vector regular_type; typedef vector_view view_type; typedef vector_view const_view_type; typedef vector_view weak_view_type; /// Empty vector. vector(){} // Move explicit vector(vector && X) { this->swap_me(X); } /// vector(size_t dim):IMPL_TYPE(indexmap_type(mini_vector(dim))) {} /// to mimic std vector template vector(size_t dim, Arg && arg):IMPL_TYPE(indexmap_type(mini_vector(dim))) { (*this)() = std::forward(arg);} /** Makes a true (deep) copy of the data. */ vector(const vector & X): IMPL_TYPE(X.indexmap(),X.storage().clone()) {} /** * Build a new vector from X.domain() and fill it with by evaluating X. X can be : * - another type of array, array_view, matrix,.... (any pair) * - a expression : e.g. array > A( B+ 2*C); * - ml : useless directly, since there only one ml, but used in generic code it maintains the same constructor as array, matrix */ template //vector(const T & X, typename boost::enable_if< ImmutableCuboidArray >::type *dummy =0): vector(const T & X, TYPE_ENABLE_IF(memory_layout<1>, ImmutableCuboidArray) ml = memory_layout<1>(IMPL_TYPE::indexmap_type::traversal_order)): IMPL_TYPE(indexmap_type(X.domain(),ml)) { triqs_arrays_assign_delegation(*this,X); } #ifdef TRIQS_WITH_PYTHON_SUPPORT ///Build from a numpy.array X (or any object from which numpy can make a numpy.array). Makes a copy. explicit vector (PyObject * X): IMPL_TYPE(X, true, "vector "){} #endif // build from a init_list template vector(std::initializer_list const & l): IMPL_TYPE(indexmap_type(mini_vector(l.size()),memory_layout<1>(IMPL_TYPE::indexmap_type::traversal_order))) { size_t i=0; for (auto const & x : l) (*this)(i++) = x; } /** * Resizes the vector. NB : all references to the storage is invalidated. * Does not initialize the vector by default: to resize and init, do resize(IND).init() */ vector & resize (size_t L) { IMPL_TYPE::resize(typename IMPL_TYPE::domain_type(mini_vector(L))); return *this; } /** * Resizes the vector. NB : all references to the storage is invalidated. * Does not initialize the vector by default: to resize and init, do resize(IND).init() */ vector & resize (const indexmaps::cuboid::domain_t & l) { IMPL_TYPE::resize(l); return *this; } /// Assignement resizes the vector. All references to the storage are therefore invalidated. vector & operator=(const vector & X) { IMPL_TYPE::resize_and_clone_data(X); return *this; } /** * Assignement resizes the vector. All references to the storage are therefore invalidated. * NB : to avoid that, do make_view(A) = X instead of A = X */ template vector & operator=(const RHS & X) { static_assert( ImmutableCuboidArray::value, "Assignment : RHS not supported"); IMPL_TYPE::resize(X.domain()); triqs_arrays_assign_delegation(*this,X); return *this; } /// Move assignment vector & operator=(vector && X) { this->swap_me(X); return *this;} /// Swap friend void swap( vector & A, vector & B) { A.swap_me(B);} /// size_t size() const { return this->shape()[0];} /// std::ptrdiff_t stride() const { return this->indexmap().strides()[0];} TRIQS_DEFINE_COMPOUND_OPERATORS(vector); // to make interface similar to std::vector : forward [] to () template auto operator[](Arg && arg) const DECL_AND_RETURN((*this)(std::forward(arg))); template auto operator[](Arg && arg) DECL_AND_RETURN((*this)(std::forward(arg))); };//vector class }}//namespace triqs::arrays #undef IMPL_TYPE #include "./blas_lapack/scal.hpp" #include "./blas_lapack/copy.hpp" #include "./blas_lapack/swap.hpp" #include "./blas_lapack/axpy.hpp" namespace triqs { namespace arrays { // norm2 squared template typename std::enable_if::value, typename V::value_type>::type norm2_sqr(V const& a) { int dim = a.size(); auto r = typename V::value_type{}; for (int i = 0; i < dim; ++i) r += a(i) * a(i); return r; } // norm2 template typename std::enable_if::value, typename V::value_type>::type norm2(V const& a) { using std::sqrt; return sqrt(norm2(a)); } // lexicographical comparison operators template typename std::enable_if< ImmutableVector::value && ImmutableVector::value , bool>::type operator < (V1 const & a, V2 const & b) { return std::lexicographical_compare(a.begin(), a.end(), b.begin(), b.end());} template typename std::enable_if< ImmutableVector::value && ImmutableVector::value , bool>::type operator > (V1 const & a, V2 const & b) { return (b typename boost::enable_if< is_vector_or_view >::type triqs_arrays_assign_delegation (vector & lhs, RHS const & rhs) { blas::copy(rhs,lhs); } template typename boost::enable_if< is_vector_or_view >::type triqs_arrays_compound_assign_delegation (vector & lhs, RHS const & rhs, mpl::char_<'A'>) { T a = 1.0; blas::axpy(a,rhs,lhs); } template typename boost::enable_if< is_vector_or_view >::type triqs_arrays_compound_assign_delegation (vector & lhs, RHS const & rhs, mpl::char_<'S'>) { T a = -1.0; blas::axpy(a,rhs,lhs); } template typename boost::enable_if< is_scalar_for > >::type triqs_arrays_compound_assign_delegation (vector & lhs, RHS const & rhs, mpl::char_<'M'>) { T a = rhs; blas::scal(a,lhs); } template typename boost::enable_if< is_scalar_for > >::type triqs_arrays_compound_assign_delegation (vector & lhs, RHS const & rhs, mpl::char_<'D'>) { T a = 1/rhs; blas::scal(a,lhs); } template typename boost::enable_if< is_vector_or_view >::type triqs_arrays_assign_delegation (vector_view & lhs, RHS const & rhs) { blas::copy(rhs,lhs); } template typename boost::enable_if< is_vector_or_view >::type triqs_arrays_compound_assign_delegation (vector_view & lhs, RHS const & rhs, mpl::char_<'A'>) { T a = 1.0; blas::axpy(a,rhs,lhs); } template typename boost::enable_if< is_vector_or_view >::type triqs_arrays_compound_assign_delegation (vector_view & lhs, RHS const & rhs, mpl::char_<'S'>) { T a = -1.0; blas::axpy(a,rhs,lhs); } template typename boost::enable_if< is_scalar_for > >::type triqs_arrays_compound_assign_delegation (vector_view & lhs, RHS const & rhs, mpl::char_<'M'>) { T a = rhs; blas::scal(a,lhs); } template typename boost::enable_if< is_scalar_for > >::type triqs_arrays_compound_assign_delegation (vector_view & lhs, RHS const & rhs, mpl::char_<'D'>) { T a = 1/rhs; blas::scal(a,lhs); } template void triqs_arrays_assign_delegation(vector_view & av, std::vector const& vec) { std::size_t size = vec.size(); for(std::size_t n = 0; n < size; ++n) av(n) = vec[n]; } // swapping 2 vector template void deep_swap(vector_view x, vector_view y) { blas::swap(x,y); } template void deep_swap(vector & x, vector & y) { blas::swap(x,y);} }} // The std::swap is WRONG for a view because of the copy/move semantics of view. // Use swap instead (the correct one, found by ADL). namespace std { template void swap(triqs::arrays::vector_view& a, triqs::arrays::vector_view& b) = delete; } #include "./expression_template/vector_algebra.hpp" #endif