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Ruta de la carpeta: \\game3dprogramming\materials\GameFactory\GameFactoryDemo\references\boost_1_35_0\boost\multi_array\multi_array_ref.hpp
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// Copyright 2002 The Trustees of Indiana University. // Use, modification and distribution is subject to the Boost Software // License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt) // Boost.MultiArray Library // Authors: Ronald Garcia // Jeremy Siek // Andrew Lumsdaine // See http://www.boost.org/libs/multi_array for documentation. #ifndef BOOST_MULTI_ARRAY_REF_RG071801_HPP #define BOOST_MULTI_ARRAY_REF_RG071801_HPP // // multi_array_ref.hpp - code for creating "views" of array data. // #include "boost/multi_array/base.hpp" #include "boost/multi_array/collection_concept.hpp" #include "boost/multi_array/concept_checks.hpp" #include "boost/multi_array/iterator.hpp" #include "boost/multi_array/storage_order.hpp" #include "boost/multi_array/subarray.hpp" #include "boost/multi_array/view.hpp" #include "boost/multi_array/algorithm.hpp" #include "boost/type_traits/is_integral.hpp" #include "boost/array.hpp" #include "boost/concept_check.hpp" #include "boost/functional.hpp" #include "boost/limits.hpp" #include
#include
#include
#include
namespace boost { template
class const_multi_array_ref : public detail::multi_array::multi_array_impl_base
{ typedef detail::multi_array::multi_array_impl_base
super_type; public: typedef typename super_type::value_type value_type; typedef typename super_type::const_reference const_reference; typedef typename super_type::const_iterator const_iterator; typedef typename super_type::const_reverse_iterator const_reverse_iterator; typedef typename super_type::element element; typedef typename super_type::size_type size_type; typedef typename super_type::difference_type difference_type; typedef typename super_type::index index; typedef typename super_type::extent_range extent_range; typedef general_storage_order
storage_order_type; // template typedefs template
struct const_array_view { typedef boost::detail::multi_array::const_multi_array_view
type; }; template
struct array_view { typedef boost::detail::multi_array::multi_array_view
type; }; #ifndef BOOST_NO_MEMBER_TEMPLATE_FRIENDS // make const_multi_array_ref a friend of itself template
friend class const_multi_array_ref; #endif // This ensures that const_multi_array_ref types with different TPtr // types can convert to each other template
const_multi_array_ref(const const_multi_array_ref
& other) : base_(other.base_), storage_(other.storage_), extent_list_(other.extent_list_), stride_list_(other.stride_list_), index_base_list_(other.index_base_list_), origin_offset_(other.origin_offset_), directional_offset_(other.directional_offset_), num_elements_(other.num_elements_) { } template
explicit const_multi_array_ref(TPtr base, const ExtentList& extents) : base_(base), storage_(c_storage_order()) { boost::function_requires< detail::multi_array::CollectionConcept
>(); index_base_list_.assign(0); init_multi_array_ref(extents.begin()); } template
explicit const_multi_array_ref(TPtr base, const ExtentList& extents, const general_storage_order
& so) : base_(base), storage_(so) { boost::function_requires< detail::multi_array::CollectionConcept
>(); index_base_list_.assign(0); init_multi_array_ref(extents.begin()); } explicit const_multi_array_ref(TPtr base, const detail::multi_array:: extent_gen
& ranges) : base_(base), storage_(c_storage_order()) { init_from_extent_gen(ranges); } explicit const_multi_array_ref(TPtr base, const detail::multi_array:: extent_gen
& ranges, const general_storage_order
& so) : base_(base), storage_(so) { init_from_extent_gen(ranges); } template
void assign(InputIterator begin, InputIterator end) { boost::function_requires
>(); InputIterator in_iter = begin; T* out_iter = base_; std::size_t copy_count=0; while (in_iter != end && copy_count < num_elements_) { *out_iter++ = *in_iter++; copy_count++; } } template
#ifdef BOOST_NO_SFINAE void #else typename disable_if
::type,void >::type #endif // BOOST_NO_SFINAE reindex(const BaseList& values) { boost::function_requires< detail::multi_array::CollectionConcept
>(); boost::detail::multi_array:: copy_n(values.begin(),num_dimensions(),index_base_list_.begin()); origin_offset_ = this->calculate_origin_offset(stride_list_,extent_list_, storage_,index_base_list_); } void reindex(index value) { index_base_list_.assign(value); origin_offset_ = this->calculate_origin_offset(stride_list_,extent_list_, storage_,index_base_list_); } template
void reshape(const SizeList& extents) { boost::function_requires< detail::multi_array::CollectionConcept
>(); BOOST_ASSERT(num_elements_ == std::accumulate(extents.begin(),extents.end(), size_type(1),std::multiplies
())); std::copy(extents.begin(),extents.end(),extent_list_.begin()); this->compute_strides(stride_list_,extent_list_,storage_); origin_offset_ = this->calculate_origin_offset(stride_list_,extent_list_, storage_,index_base_list_); } size_type num_dimensions() const { return NumDims; } size_type size() const { return extent_list_.front(); } // given reshaping functionality, this is the max possible size. size_type max_size() const { return num_elements(); } bool empty() const { return size() == 0; } const size_type* shape() const { return extent_list_.data(); } const index* strides() const { return stride_list_.data(); } const element* origin() const { return base_+origin_offset_; } const element* data() const { return base_; } size_type num_elements() const { return num_elements_; } const index* index_bases() const { return index_base_list_.data(); } const storage_order_type& storage_order() const { return storage_; } template
const element& operator()(IndexList indices) const { boost::function_requires< detail::multi_array::CollectionConcept
>(); return super_type::access_element(boost::type
(), indices,origin(), shape(),strides(),index_bases()); } // Only allow const element access const_reference operator[](index idx) const { return super_type::access(boost::type
(), idx,origin(), shape(),strides(),index_bases()); } // see generate_array_view in base.hpp #if !defined(BOOST_MSVC) || BOOST_MSVC > 1300 template
#else template
// else ICE #endif // BOOST_MSVC typename const_array_view
::type operator[](const detail::multi_array:: index_gen
& indices) const { typedef typename const_array_view
::type return_type; return super_type::generate_array_view(boost::type
(), indices, shape(), strides(), index_bases(), origin()); } const_iterator begin() const { return const_iterator(*index_bases(),origin(), shape(),strides(),index_bases()); } const_iterator end() const { return const_iterator(*index_bases()+(index)*shape(),origin(), shape(),strides(),index_bases()); } const_reverse_iterator rbegin() const { return const_reverse_iterator(end()); } const_reverse_iterator rend() const { return const_reverse_iterator(begin()); } template
bool operator==(const const_multi_array_ref
& rhs) const { if(std::equal(extent_list_.begin(), extent_list_.end(), rhs.extent_list_.begin())) return std::equal(begin(),end(),rhs.begin()); else return false; } template
bool operator<(const const_multi_array_ref
& rhs) const { return std::lexicographical_compare(begin(),end(),rhs.begin(),rhs.end()); } template
bool operator!=(const const_multi_array_ref
& rhs) const { return !(*this == rhs); } template
bool operator>(const const_multi_array_ref
& rhs) const { return rhs < *this; } template
bool operator<=(const const_multi_array_ref
& rhs) const { return !(*this > rhs); } template
bool operator>=(const const_multi_array_ref
& rhs) const { return !(*this < rhs); } #ifndef BOOST_NO_MEMBER_TEMPLATE_FRIENDS protected: #else public: #endif typedef boost::array
size_list; typedef boost::array
index_list; // This is used by multi_array, which is a subclass of this void set_base_ptr(TPtr new_base) { base_ = new_base; } // This constructor supports multi_array's default constructor // and constructors from multi_array_ref, subarray, and array_view explicit const_multi_array_ref(TPtr base, const storage_order_type& so, const index * index_bases, const size_type* extents) : base_(base), storage_(so), origin_offset_(0), directional_offset_(0) { // If index_bases or extents is null, then initialize the corresponding // private data to zeroed lists. if(index_bases) { boost::detail::multi_array:: copy_n(index_bases,NumDims,index_base_list_.begin()); } else { std::fill_n(index_base_list_.begin(),NumDims,0); } if(extents) { init_multi_array_ref(extents); } else { boost::array
extent_list; extent_list.assign(0); init_multi_array_ref(extent_list.begin()); } } TPtr base_; storage_order_type storage_; size_list extent_list_; index_list stride_list_; index_list index_base_list_; index origin_offset_; index directional_offset_; size_type num_elements_; private: // const_multi_array_ref cannot be assigned to (no deep copies!) const_multi_array_ref& operator=(const const_multi_array_ref& other); void init_from_extent_gen(const detail::multi_array:: extent_gen
& ranges) { typedef boost::array
extent_list; // get the index_base values std::transform(ranges.ranges_.begin(),ranges.ranges_.end(), index_base_list_.begin(), boost::mem_fun_ref(&extent_range::start)); // calculate the extents extent_list extents; std::transform(ranges.ranges_.begin(),ranges.ranges_.end(), extents.begin(), boost::mem_fun_ref(&extent_range::size)); init_multi_array_ref(extents.begin()); } #ifndef BOOST_NO_MEMBER_TEMPLATE_FRIENDS protected: #else public: #endif // RG - move me! template
void init_multi_array_ref(InputIterator extents_iter) { boost::function_requires
>(); boost::detail::multi_array:: copy_n(extents_iter,num_dimensions(),extent_list_.begin()); // Calculate the array size num_elements_ = std::accumulate(extent_list_.begin(),extent_list_.end(), size_type(1),std::multiplies
()); this->compute_strides(stride_list_,extent_list_,storage_); origin_offset_ = this->calculate_origin_offset(stride_list_,extent_list_, storage_,index_base_list_); directional_offset_ = this->calculate_descending_dimension_offset(stride_list_,extent_list_, storage_); } }; template
class multi_array_ref : public const_multi_array_ref
{ typedef const_multi_array_ref
super_type; public: typedef typename super_type::value_type value_type; typedef typename super_type::reference reference; typedef typename super_type::iterator iterator; typedef typename super_type::reverse_iterator reverse_iterator; typedef typename super_type::const_reference const_reference; typedef typename super_type::const_iterator const_iterator; typedef typename super_type::const_reverse_iterator const_reverse_iterator; typedef typename super_type::element element; typedef typename super_type::size_type size_type; typedef typename super_type::difference_type difference_type; typedef typename super_type::index index; typedef typename super_type::extent_range extent_range; typedef typename super_type::storage_order_type storage_order_type; typedef typename super_type::index_list index_list; typedef typename super_type::size_list size_list; template
struct const_array_view { typedef boost::detail::multi_array::const_multi_array_view
type; }; template
struct array_view { typedef boost::detail::multi_array::multi_array_view
type; }; template
explicit multi_array_ref(T* base, const ExtentList& extents) : super_type(base,extents) { boost::function_requires< detail::multi_array::CollectionConcept
>(); } template
explicit multi_array_ref(T* base, const ExtentList& extents, const general_storage_order
& so) : super_type(base,extents,so) { boost::function_requires< detail::multi_array::CollectionConcept
>(); } explicit multi_array_ref(T* base, const detail::multi_array:: extent_gen
& ranges) : super_type(base,ranges) { } explicit multi_array_ref(T* base, const detail::multi_array:: extent_gen
& ranges, const general_storage_order
& so) : super_type(base,ranges,so) { } // Assignment from other ConstMultiArray types. template
multi_array_ref& operator=(const ConstMultiArray& other) { function_requires< detail::multi_array:: ConstMultiArrayConcept
>(); // make sure the dimensions agree BOOST_ASSERT(other.num_dimensions() == this->num_dimensions()); BOOST_ASSERT(std::equal(other.shape(),other.shape()+this->num_dimensions(), this->shape())); // iterator-based copy std::copy(other.begin(),other.end(),this->begin()); return *this; } multi_array_ref& operator=(const multi_array_ref& other) { if (&other != this) { // make sure the dimensions agree BOOST_ASSERT(other.num_dimensions() == this->num_dimensions()); BOOST_ASSERT(std::equal(other.shape(), other.shape()+this->num_dimensions(), this->shape())); // iterator-based copy std::copy(other.begin(),other.end(),this->begin()); } return *this; } element* origin() { return super_type::base_+super_type::origin_offset_; } element* data() { return super_type::base_; } template
element& operator()(const IndexList& indices) { boost::function_requires< detail::multi_array::CollectionConcept
>(); return super_type::access_element(boost::type
(), indices,origin(), this->shape(),this->strides(), this->index_bases()); } reference operator[](index idx) { return super_type::access(boost::type
(), idx,origin(), this->shape(),this->strides(), this->index_bases()); } // See note attached to generate_array_view in base.hpp #if !defined(BOOST_MSVC) || BOOST_MSVC > 1300 template
#else template
// else ICE #endif // BOOST_MSVC typename array_view
::type operator[](const detail::multi_array:: index_gen
& indices) { typedef typename array_view
::type return_type; return super_type::generate_array_view(boost::type
(), indices, this->shape(), this->strides(), this->index_bases(), origin()); } iterator begin() { return iterator(*this->index_bases(),origin(),this->shape(), this->strides(),this->index_bases()); } iterator end() { return iterator(*this->index_bases()+(index)*this->shape(),origin(), this->shape(),this->strides(), this->index_bases()); } // rbegin() and rend() written naively to thwart MSVC ICE. reverse_iterator rbegin() { reverse_iterator ri(end()); return ri; } reverse_iterator rend() { reverse_iterator ri(begin()); return ri; } // Using declarations don't seem to work for g++ // These are the proxies to work around this. const element* origin() const { return super_type::origin(); } const element* data() const { return super_type::data(); } template
const element& operator()(const IndexList& indices) const { boost::function_requires< detail::multi_array::CollectionConcept
>(); return super_type::operator()(indices); } const_reference operator[](index idx) const { return super_type::access(boost::type
(), idx,origin(), this->shape(),this->strides(), this->index_bases()); } // See note attached to generate_array_view in base.hpp #if !defined(BOOST_MSVC) || BOOST_MSVC > 1300 template
#else template
// else ICE #endif // BOOST_MSVC typename const_array_view
::type operator[](const detail::multi_array:: index_gen
& indices) const { return super_type::operator[](indices); } const_iterator begin() const { return super_type::begin(); } const_iterator end() const { return super_type::end(); } const_reverse_iterator rbegin() const { return super_type::rbegin(); } const_reverse_iterator rend() const { return super_type::rend(); } protected: // This is only supplied to support multi_array's default constructor explicit multi_array_ref(T* base, const storage_order_type& so, const index* index_bases, const size_type* extents) : super_type(base,so,index_bases,extents) { } }; } // namespace boost #endif // BOOST_MULTI_ARRAY_REF_RG071801_HPP
multi_array_ref.hpp
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