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500 lines
16 KiB
C++
500 lines
16 KiB
C++
// Copyright 2002 The Trustees of Indiana University.
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// Use, modification and distribution is subject to the Boost Software
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// License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
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// http://www.boost.org/LICENSE_1_0.txt)
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// Boost.MultiArray Library
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// Authors: Ronald Garcia
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// Jeremy Siek
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// Andrew Lumsdaine
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// See http://www.boost.org/libs/multi_array for documentation.
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#ifndef BOOST_MULTI_ARRAY_RG071801_HPP
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#define BOOST_MULTI_ARRAY_RG071801_HPP
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//
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// multi_array.hpp - contains the multi_array class template
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// declaration and definition
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//
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#include "boost/multi_array/base.hpp"
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#include "boost/multi_array/collection_concept.hpp"
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#include "boost/multi_array/copy_array.hpp"
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#include "boost/multi_array/iterator.hpp"
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#include "boost/multi_array/subarray.hpp"
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#include "boost/multi_array/multi_array_ref.hpp"
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#include "boost/multi_array/algorithm.hpp"
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#include "boost/array.hpp"
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#include "boost/mpl/if.hpp"
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#include "boost/type_traits.hpp"
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#include <algorithm>
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#include <cstddef>
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#include <functional>
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#include <numeric>
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#include <vector>
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namespace boost {
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namespace detail {
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namespace multi_array {
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struct populate_index_ranges {
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multi_array_types::index_range
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// RG: underscore on extent_ to stifle strange MSVC warning.
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operator()(multi_array_types::index base,
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multi_array_types::size_type extent_) {
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return multi_array_types::index_range(base,base+extent_);
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}
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};
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#ifdef BOOST_NO_FUNCTION_TEMPLATE_ORDERING
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//
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// Compilers that don't support partial ordering may need help to
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// disambiguate multi_array's templated constructors. Even vc6/7 are
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// capable of some limited SFINAE, so we take the most-general version
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// out of the overload set with disable_multi_array_impl.
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//
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template <typename T, std::size_t NumDims, typename TPtr>
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char is_multi_array_impl_help(const_multi_array_view<T,NumDims,TPtr>&);
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template <typename T, std::size_t NumDims, typename TPtr>
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char is_multi_array_impl_help(const_sub_array<T,NumDims,TPtr>&);
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template <typename T, std::size_t NumDims, typename TPtr>
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char is_multi_array_impl_help(const_multi_array_ref<T,NumDims,TPtr>&);
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char ( &is_multi_array_impl_help(...) )[2];
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template <class T>
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struct is_multi_array_impl
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{
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static T x;
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BOOST_STATIC_CONSTANT(bool, value = sizeof((is_multi_array_impl_help)(x)) == 1);
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typedef mpl::bool_<value> type;
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};
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template <bool multi_array = false>
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struct disable_multi_array_impl_impl
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{
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typedef int type;
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};
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template <>
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struct disable_multi_array_impl_impl<true>
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{
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// forming a pointer to a reference triggers SFINAE
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typedef int& type;
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};
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template <class T>
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struct disable_multi_array_impl :
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disable_multi_array_impl_impl<is_multi_array_impl<T>::value>
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{ };
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template <>
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struct disable_multi_array_impl<int>
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{
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typedef int type;
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};
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#endif
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} //namespace multi_array
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} // namespace detail
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template<typename T, std::size_t NumDims,
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typename Allocator>
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class multi_array :
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public multi_array_ref<T,NumDims>
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{
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typedef multi_array_ref<T,NumDims> super_type;
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public:
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typedef typename super_type::value_type value_type;
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typedef typename super_type::reference reference;
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typedef typename super_type::const_reference const_reference;
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typedef typename super_type::iterator iterator;
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typedef typename super_type::const_iterator const_iterator;
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typedef typename super_type::reverse_iterator reverse_iterator;
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typedef typename super_type::const_reverse_iterator const_reverse_iterator;
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typedef typename super_type::element element;
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typedef typename super_type::size_type size_type;
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typedef typename super_type::difference_type difference_type;
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typedef typename super_type::index index;
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typedef typename super_type::extent_range extent_range;
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template <std::size_t NDims>
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struct const_array_view {
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typedef boost::detail::multi_array::const_multi_array_view<T,NDims> type;
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};
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template <std::size_t NDims>
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struct array_view {
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typedef boost::detail::multi_array::multi_array_view<T,NDims> type;
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};
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explicit multi_array() :
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super_type((T*)initial_base_,c_storage_order(),
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/*index_bases=*/0, /*extents=*/0) {
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allocate_space();
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}
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template <class ExtentList>
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explicit multi_array(
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ExtentList const& extents
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#ifdef BOOST_NO_FUNCTION_TEMPLATE_ORDERING
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, typename mpl::if_<
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detail::multi_array::is_multi_array_impl<ExtentList>,
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int&,int>::type* = 0
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#endif
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) :
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super_type((T*)initial_base_,extents) {
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boost::function_requires<
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detail::multi_array::CollectionConcept<ExtentList> >();
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allocate_space();
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}
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template <class ExtentList>
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explicit multi_array(ExtentList const& extents,
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const general_storage_order<NumDims>& so) :
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super_type((T*)initial_base_,extents,so) {
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boost::function_requires<
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detail::multi_array::CollectionConcept<ExtentList> >();
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allocate_space();
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}
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template <class ExtentList>
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explicit multi_array(ExtentList const& extents,
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const general_storage_order<NumDims>& so,
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Allocator const& alloc) :
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super_type((T*)initial_base_,extents,so), allocator_(alloc) {
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boost::function_requires<
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detail::multi_array::CollectionConcept<ExtentList> >();
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allocate_space();
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}
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explicit multi_array(const detail::multi_array
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::extent_gen<NumDims>& ranges) :
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super_type((T*)initial_base_,ranges) {
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allocate_space();
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}
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explicit multi_array(const detail::multi_array
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::extent_gen<NumDims>& ranges,
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const general_storage_order<NumDims>& so) :
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super_type((T*)initial_base_,ranges,so) {
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allocate_space();
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}
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explicit multi_array(const detail::multi_array
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::extent_gen<NumDims>& ranges,
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const general_storage_order<NumDims>& so,
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Allocator const& alloc) :
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super_type((T*)initial_base_,ranges,so), allocator_(alloc) {
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allocate_space();
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}
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multi_array(const multi_array& rhs) :
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super_type(rhs), allocator_(rhs.allocator_) {
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allocate_space();
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boost::detail::multi_array::copy_n(rhs.base_,rhs.num_elements(),base_);
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}
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//
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// A multi_array is constructible from any multi_array_ref, subarray, or
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// array_view object. The following constructors ensure that.
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//
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// Due to limited support for partial template ordering,
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// MSVC 6&7 confuse the following with the most basic ExtentList
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// constructor.
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#ifndef BOOST_NO_FUNCTION_TEMPLATE_ORDERING
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template <typename OPtr>
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multi_array(const const_multi_array_ref<T,NumDims,OPtr>& rhs,
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const general_storage_order<NumDims>& so = c_storage_order())
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: super_type(0,so,rhs.index_bases(),rhs.shape())
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{
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allocate_space();
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// Warning! storage order may change, hence the following copy technique.
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std::copy(rhs.begin(),rhs.end(),this->begin());
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}
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template <typename OPtr>
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multi_array(const detail::multi_array::
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const_sub_array<T,NumDims,OPtr>& rhs,
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const general_storage_order<NumDims>& so = c_storage_order())
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: super_type(0,so,rhs.index_bases(),rhs.shape())
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{
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allocate_space();
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std::copy(rhs.begin(),rhs.end(),this->begin());
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}
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template <typename OPtr>
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multi_array(const detail::multi_array::
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const_multi_array_view<T,NumDims,OPtr>& rhs,
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const general_storage_order<NumDims>& so = c_storage_order())
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: super_type(0,so,rhs.index_bases(),rhs.shape())
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{
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allocate_space();
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std::copy(rhs.begin(),rhs.end(),this->begin());
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}
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#else // BOOST_NO_FUNCTION_TEMPLATE_ORDERING
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// More limited support for MSVC
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multi_array(const const_multi_array_ref<T,NumDims>& rhs)
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: super_type(0,c_storage_order(),rhs.index_bases(),rhs.shape())
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{
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allocate_space();
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// Warning! storage order may change, hence the following copy technique.
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std::copy(rhs.begin(),rhs.end(),this->begin());
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}
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multi_array(const const_multi_array_ref<T,NumDims>& rhs,
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const general_storage_order<NumDims>& so)
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: super_type(0,so,rhs.index_bases(),rhs.shape())
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{
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allocate_space();
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// Warning! storage order may change, hence the following copy technique.
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std::copy(rhs.begin(),rhs.end(),this->begin());
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}
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multi_array(const detail::multi_array::
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const_sub_array<T,NumDims>& rhs)
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: super_type(0,c_storage_order(),rhs.index_bases(),rhs.shape())
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{
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allocate_space();
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std::copy(rhs.begin(),rhs.end(),this->begin());
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}
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multi_array(const detail::multi_array::
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const_sub_array<T,NumDims>& rhs,
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const general_storage_order<NumDims>& so)
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: super_type(0,so,rhs.index_bases(),rhs.shape())
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{
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allocate_space();
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std::copy(rhs.begin(),rhs.end(),this->begin());
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}
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multi_array(const detail::multi_array::
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const_multi_array_view<T,NumDims>& rhs)
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: super_type(0,c_storage_order(),rhs.index_bases(),rhs.shape())
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{
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allocate_space();
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std::copy(rhs.begin(),rhs.end(),this->begin());
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}
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multi_array(const detail::multi_array::
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const_multi_array_view<T,NumDims>& rhs,
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const general_storage_order<NumDims>& so)
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: super_type(0,so,rhs.index_bases(),rhs.shape())
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{
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allocate_space();
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std::copy(rhs.begin(),rhs.end(),this->begin());
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}
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#endif // !BOOST_NO_FUNCTION_TEMPLATE_ORDERING
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// Thes constructors are necessary because of more exact template matches.
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multi_array(const multi_array_ref<T,NumDims>& rhs)
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: super_type(0,c_storage_order(),rhs.index_bases(),rhs.shape())
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{
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allocate_space();
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// Warning! storage order may change, hence the following copy technique.
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std::copy(rhs.begin(),rhs.end(),this->begin());
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}
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multi_array(const multi_array_ref<T,NumDims>& rhs,
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const general_storage_order<NumDims>& so)
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: super_type(0,so,rhs.index_bases(),rhs.shape())
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{
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allocate_space();
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// Warning! storage order may change, hence the following copy technique.
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std::copy(rhs.begin(),rhs.end(),this->begin());
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}
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multi_array(const detail::multi_array::
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sub_array<T,NumDims>& rhs)
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: super_type(0,c_storage_order(),rhs.index_bases(),rhs.shape())
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{
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allocate_space();
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std::copy(rhs.begin(),rhs.end(),this->begin());
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}
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multi_array(const detail::multi_array::
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sub_array<T,NumDims>& rhs,
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const general_storage_order<NumDims>& so)
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: super_type(0,so,rhs.index_bases(),rhs.shape())
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{
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allocate_space();
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std::copy(rhs.begin(),rhs.end(),this->begin());
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}
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multi_array(const detail::multi_array::
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multi_array_view<T,NumDims>& rhs)
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: super_type(0,c_storage_order(),rhs.index_bases(),rhs.shape())
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{
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allocate_space();
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std::copy(rhs.begin(),rhs.end(),this->begin());
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}
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multi_array(const detail::multi_array::
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multi_array_view<T,NumDims>& rhs,
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const general_storage_order<NumDims>& so)
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: super_type(0,so,rhs.index_bases(),rhs.shape())
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{
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allocate_space();
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std::copy(rhs.begin(),rhs.end(),this->begin());
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}
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// Since assignment is a deep copy, multi_array_ref
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// contains all the necessary code.
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template <typename ConstMultiArray>
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multi_array& operator=(const ConstMultiArray& other) {
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super_type::operator=(other);
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return *this;
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}
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multi_array& operator=(const multi_array& other) {
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if (&other != this) {
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super_type::operator=(other);
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}
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return *this;
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}
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template <typename ExtentList>
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multi_array& resize(const ExtentList& extents) {
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boost::function_requires<
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detail::multi_array::CollectionConcept<ExtentList> >();
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typedef detail::multi_array::extent_gen<NumDims> gen_type;
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gen_type ranges;
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for (int i=0; i != NumDims; ++i) {
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typedef typename gen_type::range range_type;
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ranges.ranges_[i] = range_type(0,extents[i]);
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}
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return this->resize(ranges);
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}
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multi_array& resize(const detail::multi_array
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::extent_gen<NumDims>& ranges) {
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// build a multi_array with the specs given
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multi_array new_array(ranges,this->storage_order());
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// build a view of tmp with the minimum extents
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// Get the minimum extents of the arrays.
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boost::array<size_type,NumDims> min_extents;
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const size_type& (*min)(const size_type&, const size_type&) =
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std::min;
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std::transform(new_array.extent_list_.begin(),new_array.extent_list_.end(),
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this->extent_list_.begin(),
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min_extents.begin(),
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min);
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// typedef boost::array<index,NumDims> index_list;
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// Build index_gen objects to create views with the same shape
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// these need to be separate to handle non-zero index bases
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typedef detail::multi_array::index_gen<NumDims,NumDims> index_gen;
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index_gen old_idxes;
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index_gen new_idxes;
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std::transform(new_array.index_base_list_.begin(),
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new_array.index_base_list_.end(),
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min_extents.begin(),new_idxes.ranges_.begin(),
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detail::multi_array::populate_index_ranges());
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std::transform(this->index_base_list_.begin(),
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this->index_base_list_.end(),
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min_extents.begin(),old_idxes.ranges_.begin(),
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detail::multi_array::populate_index_ranges());
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// Build same-shape views of the two arrays
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typename
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multi_array::BOOST_NESTED_TEMPLATE array_view<NumDims>::type view_old = (*this)[old_idxes];
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typename
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multi_array::BOOST_NESTED_TEMPLATE array_view<NumDims>::type view_new = new_array[new_idxes];
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// Set the right portion of the new array
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view_new = view_old;
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using std::swap;
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// Swap the internals of these arrays.
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swap(this->super_type::base_,new_array.super_type::base_);
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swap(this->storage_,new_array.storage_);
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swap(this->extent_list_,new_array.extent_list_);
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swap(this->stride_list_,new_array.stride_list_);
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swap(this->index_base_list_,new_array.index_base_list_);
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swap(this->origin_offset_,new_array.origin_offset_);
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swap(this->directional_offset_,new_array.directional_offset_);
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swap(this->num_elements_,new_array.num_elements_);
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swap(this->allocator_,new_array.allocator_);
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swap(this->base_,new_array.base_);
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swap(this->allocated_elements_,new_array.allocated_elements_);
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return *this;
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}
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~multi_array() {
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deallocate_space();
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}
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private:
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void allocate_space() {
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typename Allocator::const_pointer no_hint=0;
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base_ = allocator_.allocate(this->num_elements(),no_hint);
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this->set_base_ptr(base_);
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allocated_elements_ = this->num_elements();
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std::uninitialized_fill_n(base_,allocated_elements_,T());
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}
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void deallocate_space() {
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if(base_) {
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for(T* i = base_; i != base_+allocated_elements_; ++i)
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allocator_.destroy(i);
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allocator_.deallocate(base_,allocated_elements_);
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}
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}
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typedef boost::array<size_type,NumDims> size_list;
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typedef boost::array<index,NumDims> index_list;
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Allocator allocator_;
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T* base_;
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size_type allocated_elements_;
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enum {initial_base_ = 0};
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};
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} // namespace boost
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#endif // BOOST_MULTI_ARRAY_RG071801_HPP
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