// Boost.Container static_vector // // Copyright (c) 2012-2013 Adam Wulkiewicz, Lodz, Poland. // Copyright (c) 2011-2013 Andrew Hundt. // Copyright (c) 2013-2014 Ion Gaztanaga // // 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) #ifndef BOOST_CONTAINER_STATIC_VECTOR_HPP #define BOOST_CONTAINER_STATIC_VECTOR_HPP #ifndef BOOST_CONFIG_HPP # include #endif #if defined(BOOST_HAS_PRAGMA_ONCE) # pragma once #endif #include #include #include #include #include #if !defined(BOOST_NO_CXX11_HDR_INITIALIZER_LIST) #include #endif namespace boost { namespace container { #ifndef BOOST_CONTAINER_DOXYGEN_INVOKED namespace container_detail { template class static_storage_allocator { public: typedef T value_type; static_storage_allocator() BOOST_NOEXCEPT_OR_NOTHROW {} static_storage_allocator(const static_storage_allocator &) BOOST_NOEXCEPT_OR_NOTHROW {} static_storage_allocator & operator=(const static_storage_allocator &) BOOST_NOEXCEPT_OR_NOTHROW {} T* internal_storage() const BOOST_NOEXCEPT_OR_NOTHROW { return const_cast(static_cast(static_cast(&storage))); } T* internal_storage() BOOST_NOEXCEPT_OR_NOTHROW { return static_cast(static_cast(&storage)); } static const std::size_t internal_capacity = N; typedef boost::container::container_detail::version_type version; friend bool operator==(const static_storage_allocator &, const static_storage_allocator &) BOOST_NOEXCEPT_OR_NOTHROW { return false; } friend bool operator!=(const static_storage_allocator &, const static_storage_allocator &) BOOST_NOEXCEPT_OR_NOTHROW { return true; } private: typename aligned_storage::value>::type storage; }; } //namespace container_detail { #endif //#ifndef BOOST_CONTAINER_DOXYGEN_INVOKED //! //!@brief A variable-size array container with fixed capacity. //! //!static_vector is a sequence container like boost::container::vector with contiguous storage that can //!change in size, along with the static allocation, low overhead, and fixed capacity of boost::array. //! //!A static_vector is a sequence that supports random access to elements, constant time insertion and //!removal of elements at the end, and linear time insertion and removal of elements at the beginning or //!in the middle. The number of elements in a static_vector may vary dynamically up to a fixed capacity //!because elements are stored within the object itself similarly to an array. However, objects are //!initialized as they are inserted into static_vector unlike C arrays or std::array which must construct //!all elements on instantiation. The behavior of static_vector enables the use of statically allocated //!elements in cases with complex object lifetime requirements that would otherwise not be trivially //!possible. //! //!@par Error Handling //! Insertion beyond the capacity result in throwing std::bad_alloc() if exceptions are enabled or //! calling throw_bad_alloc() if not enabled. //! //! std::out_of_range is thrown if out of bound access is performed in at() if exceptions are //! enabled, throw_out_of_range() if not enabled. //! //!@tparam Value The type of element that will be stored. //!@tparam Capacity The maximum number of elements static_vector can store, fixed at compile time. template class static_vector : public vector > { #ifndef BOOST_CONTAINER_DOXYGEN_INVOKED typedef vector > base_t; BOOST_COPYABLE_AND_MOVABLE(static_vector) template friend class static_vector; #endif //#ifndef BOOST_CONTAINER_DOXYGEN_INVOKED public: //! @brief The type of elements stored in the container. typedef typename base_t::value_type value_type; //! @brief The unsigned integral type used by the container. typedef typename base_t::size_type size_type; //! @brief The pointers difference type. typedef typename base_t::difference_type difference_type; //! @brief The pointer type. typedef typename base_t::pointer pointer; //! @brief The const pointer type. typedef typename base_t::const_pointer const_pointer; //! @brief The value reference type. typedef typename base_t::reference reference; //! @brief The value const reference type. typedef typename base_t::const_reference const_reference; //! @brief The iterator type. typedef typename base_t::iterator iterator; //! @brief The const iterator type. typedef typename base_t::const_iterator const_iterator; //! @brief The reverse iterator type. typedef typename base_t::reverse_iterator reverse_iterator; //! @brief The const reverse iterator. typedef typename base_t::const_reverse_iterator const_reverse_iterator; //! @brief Constructs an empty static_vector. //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). static_vector() BOOST_NOEXCEPT_OR_NOTHROW : base_t() {} //! @pre count <= capacity() //! //! @brief Constructs a static_vector containing count value initialized values. //! //! @param count The number of values which will be contained in the container. //! //! @par Throws //! If Value's value initialization throws. //! //! @par Complexity //! Linear O(N). explicit static_vector(size_type count) : base_t(count) {} //! @pre count <= capacity() //! //! @brief Constructs a static_vector containing count default initialized values. //! //! @param count The number of values which will be contained in the container. //! //! @par Throws //! If Value's default initialization throws. //! //! @par Complexity //! Linear O(N). //! //! @par Note //! Non-standard extension static_vector(size_type count, default_init_t) : base_t(count, default_init_t()) {} //! @pre count <= capacity() //! //! @brief Constructs a static_vector containing count copies of value. //! //! @param count The number of copies of a values that will be contained in the container. //! @param value The value which will be used to copy construct values. //! //! @par Throws //! If Value's copy constructor throws. //! //! @par Complexity //! Linear O(N). static_vector(size_type count, value_type const& value) : base_t(count, value) {} //! @pre //! @li distance(first, last) <= capacity() //! @li Iterator must meet the \c ForwardTraversalIterator concept. //! //! @brief Constructs a static_vector containing copy of a range [first, last). //! //! @param first The iterator to the first element in range. //! @param last The iterator to the one after the last element in range. //! //! @par Throws //! If Value's constructor taking a dereferenced Iterator throws. //! //! @par Complexity //! Linear O(N). template static_vector(Iterator first, Iterator last) : base_t(first, last) {} #if !defined(BOOST_NO_CXX11_HDR_INITIALIZER_LIST) //! @pre //! @li distance(il.begin(), il.end()) <= capacity() //! //! @brief Constructs a static_vector containing copy of a range [il.begin(), il.end()). //! //! @param il std::initializer_list with values to initialize vector. //! //! @par Throws //! If Value's constructor taking a dereferenced std::initializer_list throws. //! //! @par Complexity //! Linear O(N). static_vector(std::initializer_list il) : base_t(il) {} #endif //! @brief Constructs a copy of other static_vector. //! //! @param other The static_vector which content will be copied to this one. //! //! @par Throws //! If Value's copy constructor throws. //! //! @par Complexity //! Linear O(N). static_vector(static_vector const& other) : base_t(other) {} //! @pre other.size() <= capacity(). //! //! @brief Constructs a copy of other static_vector. //! //! @param other The static_vector which content will be copied to this one. //! //! @par Throws //! If Value's copy constructor throws. //! //! @par Complexity //! Linear O(N). template static_vector(static_vector const& other) : base_t(other) {} //! @brief Move constructor. Moves Values stored in the other static_vector to this one. //! //! @param other The static_vector which content will be moved to this one. //! //! @par Throws //! @li If \c has_nothrow_move::value is \c true and Value's move constructor throws. //! @li If \c has_nothrow_move::value is \c false and Value's copy constructor throws. //! //! @par Complexity //! Linear O(N). static_vector(BOOST_RV_REF(static_vector) other) : base_t(BOOST_MOVE_BASE(base_t, other)) {} //! @pre other.size() <= capacity() //! //! @brief Move constructor. Moves Values stored in the other static_vector to this one. //! //! @param other The static_vector which content will be moved to this one. //! //! @par Throws //! @li If \c has_nothrow_move::value is \c true and Value's move constructor throws. //! @li If \c has_nothrow_move::value is \c false and Value's copy constructor throws. //! //! @par Complexity //! Linear O(N). template static_vector(BOOST_RV_REF_BEG static_vector BOOST_RV_REF_END other) : base_t(BOOST_MOVE_BASE(typename static_vector::base_t, other)) {} //! @brief Copy assigns Values stored in the other static_vector to this one. //! //! @param other The static_vector which content will be copied to this one. //! //! @par Throws //! If Value's copy constructor or copy assignment throws. //! //! @par Complexity //! Linear O(N). static_vector & operator=(BOOST_COPY_ASSIGN_REF(static_vector) other) { return static_cast(base_t::operator=(static_cast(other))); } #if !defined(BOOST_NO_CXX11_HDR_INITIALIZER_LIST) //! @brief Copy assigns Values stored in std::initializer_list to *this. //! //! @param il The std::initializer_list which content will be copied to this one. //! //! @par Throws //! If Value's copy constructor or copy assignment throws. //! //! @par Complexity //! Linear O(N). static_vector & operator=(std::initializer_list il) { return static_cast(base_t::operator=(il)); } #endif //! @pre other.size() <= capacity() //! //! @brief Copy assigns Values stored in the other static_vector to this one. //! //! @param other The static_vector which content will be copied to this one. //! //! @par Throws //! If Value's copy constructor or copy assignment throws. //! //! @par Complexity //! Linear O(N). template static_vector & operator=(static_vector const& other) { return static_cast(base_t::operator= (static_cast::base_t const&>(other))); } //! @brief Move assignment. Moves Values stored in the other static_vector to this one. //! //! @param other The static_vector which content will be moved to this one. //! //! @par Throws //! @li If \c has_nothrow_move::value is \c true and Value's move constructor or move assignment throws. //! @li If \c has_nothrow_move::value is \c false and Value's copy constructor or copy assignment throws. //! //! @par Complexity //! Linear O(N). static_vector & operator=(BOOST_RV_REF(static_vector) other) { return static_cast(base_t::operator=(BOOST_MOVE_BASE(base_t, other))); } //! @pre other.size() <= capacity() //! //! @brief Move assignment. Moves Values stored in the other static_vector to this one. //! //! @param other The static_vector which content will be moved to this one. //! //! @par Throws //! @li If \c has_nothrow_move::value is \c true and Value's move constructor or move assignment throws. //! @li If \c has_nothrow_move::value is \c false and Value's copy constructor or copy assignment throws. //! //! @par Complexity //! Linear O(N). template static_vector & operator=(BOOST_RV_REF_BEG static_vector BOOST_RV_REF_END other) { return static_cast(base_t::operator= (BOOST_MOVE_BASE(typename static_vector::base_t, other))); } #ifdef BOOST_CONTAINER_DOXYGEN_INVOKED //! @brief Destructor. Destroys Values stored in this container. //! //! @par Throws //! Nothing //! //! @par Complexity //! Linear O(N). ~static_vector(); //! @brief Swaps contents of the other static_vector and this one. //! //! @param other The static_vector which content will be swapped with this one's content. //! //! @par Throws //! @li If \c has_nothrow_move::value is \c true and Value's move constructor or move assignment throws, //! @li If \c has_nothrow_move::value is \c false and Value's copy constructor or copy assignment throws, //! //! @par Complexity //! Linear O(N). void swap(static_vector & other); //! @pre other.size() <= capacity() && size() <= other.capacity() //! //! @brief Swaps contents of the other static_vector and this one. //! //! @param other The static_vector which content will be swapped with this one's content. //! //! @par Throws //! @li If \c has_nothrow_move::value is \c true and Value's move constructor or move assignment throws, //! @li If \c has_nothrow_move::value is \c false and Value's copy constructor or copy assignment throws, //! //! @par Complexity //! Linear O(N). template void swap(static_vector & other); //! @pre count <= capacity() //! //! @brief Inserts or erases elements at the end such that //! the size becomes count. New elements are value initialized. //! //! @param count The number of elements which will be stored in the container. //! //! @par Throws //! If Value's value initialization throws. //! //! @par Complexity //! Linear O(N). void resize(size_type count); //! @pre count <= capacity() //! //! @brief Inserts or erases elements at the end such that //! the size becomes count. New elements are default initialized. //! //! @param count The number of elements which will be stored in the container. //! //! @par Throws //! If Value's default initialization throws. //! //! @par Complexity //! Linear O(N). //! //! @par Note //! Non-standard extension void resize(size_type count, default_init_t); //! @pre count <= capacity() //! //! @brief Inserts or erases elements at the end such that //! the size becomes count. New elements are copy constructed from value. //! //! @param count The number of elements which will be stored in the container. //! @param value The value used to copy construct the new element. //! //! @par Throws //! If Value's copy constructor throws. //! //! @par Complexity //! Linear O(N). void resize(size_type count, value_type const& value); //! @pre count <= capacity() //! //! @brief This call has no effect because the Capacity of this container is constant. //! //! @param count The number of elements which the container should be able to contain. //! //! @par Throws //! Nothing. //! //! @par Complexity //! Linear O(N). void reserve(size_type count) BOOST_NOEXCEPT_OR_NOTHROW; //! @pre size() < capacity() //! //! @brief Adds a copy of value at the end. //! //! @param value The value used to copy construct the new element. //! //! @par Throws //! If Value's copy constructor throws. //! //! @par Complexity //! Constant O(1). void push_back(value_type const& value); //! @pre size() < capacity() //! //! @brief Moves value to the end. //! //! @param value The value to move construct the new element. //! //! @par Throws //! If Value's move constructor throws. //! //! @par Complexity //! Constant O(1). void push_back(BOOST_RV_REF(value_type) value); //! @pre !empty() //! //! @brief Destroys last value and decreases the size. //! //! @par Throws //! Nothing by default. //! //! @par Complexity //! Constant O(1). void pop_back(); //! @pre //! @li \c p must be a valid iterator of \c *this in range [begin(), end()]. //! @li size() < capacity() //! //! @brief Inserts a copy of element at p. //! //! @param p The position at which the new value will be inserted. //! @param value The value used to copy construct the new element. //! //! @par Throws //! @li If Value's copy constructor or copy assignment throws //! @li If Value's move constructor or move assignment throws. //! //! @par Complexity //! Constant or linear. iterator insert(const_iterator p, value_type const& value); //! @pre //! @li \c p must be a valid iterator of \c *this in range [begin(), end()]. //! @li size() < capacity() //! //! @brief Inserts a move-constructed element at p. //! //! @param p The position at which the new value will be inserted. //! @param value The value used to move construct the new element. //! //! @par Throws //! If Value's move constructor or move assignment throws. //! //! @par Complexity //! Constant or linear. iterator insert(const_iterator p, BOOST_RV_REF(value_type) value); //! @pre //! @li \c p must be a valid iterator of \c *this in range [begin(), end()]. //! @li size() + count <= capacity() //! //! @brief Inserts a count copies of value at p. //! //! @param p The position at which new elements will be inserted. //! @param count The number of new elements which will be inserted. //! @param value The value used to copy construct new elements. //! //! @par Throws //! @li If Value's copy constructor or copy assignment throws. //! @li If Value's move constructor or move assignment throws. //! //! @par Complexity //! Linear O(N). iterator insert(const_iterator p, size_type count, value_type const& value); //! @pre //! @li \c p must be a valid iterator of \c *this in range [begin(), end()]. //! @li distance(first, last) <= capacity() //! @li \c Iterator must meet the \c ForwardTraversalIterator concept. //! //! @brief Inserts a copy of a range [first, last) at p. //! //! @param p The position at which new elements will be inserted. //! @param first The iterator to the first element of a range used to construct new elements. //! @param last The iterator to the one after the last element of a range used to construct new elements. //! //! @par Throws //! @li If Value's constructor and assignment taking a dereferenced \c Iterator. //! @li If Value's move constructor or move assignment throws. //! //! @par Complexity //! Linear O(N). template iterator insert(const_iterator p, Iterator first, Iterator last); #if !defined(BOOST_NO_CXX11_HDR_INITIALIZER_LIST) //! @pre //! @li \c p must be a valid iterator of \c *this in range [begin(), end()]. //! @li distance(il.begin(), il.end()) <= capacity() //! //! @brief Inserts a copy of a range [il.begin(), il.end()) at p. //! //! @param p The position at which new elements will be inserted. //! @param il The std::initializer_list which contains elements that will be inserted. //! //! @par Throws //! @li If Value's constructor and assignment taking a dereferenced std::initializer_list iterator. //! //! @par Complexity //! Linear O(N). iterator insert(const_iterator p, std::initializer_list il); #endif //! @pre \c p must be a valid iterator of \c *this in range [begin(), end()) //! //! @brief Erases Value from p. //! //! @param p The position of the element which will be erased from the container. //! //! @par Throws //! If Value's move assignment throws. //! //! @par Complexity //! Linear O(N). iterator erase(const_iterator p); //! @pre //! @li \c first and \c last must define a valid range //! @li iterators must be in range [begin(), end()] //! //! @brief Erases Values from a range [first, last). //! //! @param first The position of the first element of a range which will be erased from the container. //! @param last The position of the one after the last element of a range which will be erased from the container. //! //! @par Throws //! If Value's move assignment throws. //! //! @par Complexity //! Linear O(N). iterator erase(const_iterator first, const_iterator last); //! @pre distance(first, last) <= capacity() //! //! @brief Assigns a range [first, last) of Values to this container. //! //! @param first The iterator to the first element of a range used to construct new content of this container. //! @param last The iterator to the one after the last element of a range used to construct new content of this container. //! //! @par Throws //! If Value's copy constructor or copy assignment throws, //! //! @par Complexity //! Linear O(N). template void assign(Iterator first, Iterator last); #if !defined(BOOST_NO_CXX11_HDR_INITIALIZER_LIST) //! @pre distance(il.begin(), il.end()) <= capacity() //! //! @brief Assigns a range [il.begin(), il.end()) of Values to this container. //! //! @param first std::initializer_list with values used to construct new content of this container. //! //! @par Throws //! If Value's copy constructor or copy assignment throws, //! //! @par Complexity //! Linear O(N). void assign(std::initializer_list il); #endif //! @pre count <= capacity() //! //! @brief Assigns a count copies of value to this container. //! //! @param count The new number of elements which will be container in the container. //! @param value The value which will be used to copy construct the new content. //! //! @par Throws //! If Value's copy constructor or copy assignment throws. //! //! @par Complexity //! Linear O(N). void assign(size_type count, value_type const& value); //! @pre size() < capacity() //! //! @brief Inserts a Value constructed with //! \c std::forward(args)... in the end of the container. //! //! @param args The arguments of the constructor of the new element which will be created at the end of the container. //! //! @par Throws //! If in-place constructor throws or Value's move constructor throws. //! //! @par Complexity //! Constant O(1). template void emplace_back(Args &&...args); //! @pre //! @li \c p must be a valid iterator of \c *this in range [begin(), end()] //! @li size() < capacity() //! //! @brief Inserts a Value constructed with //! \c std::forward(args)... before p //! //! @param p The position at which new elements will be inserted. //! @param args The arguments of the constructor of the new element. //! //! @par Throws //! If in-place constructor throws or if Value's move constructor or move assignment throws. //! //! @par Complexity //! Constant or linear. template iterator emplace(const_iterator p, Args &&...args); //! @brief Removes all elements from the container. //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). void clear() BOOST_NOEXCEPT_OR_NOTHROW; //! @pre i < size() //! //! @brief Returns reference to the i-th element. //! //! @param i The element's index. //! //! @return reference to the i-th element //! from the beginning of the container. //! //! @par Throws //! \c std::out_of_range exception by default. //! //! @par Complexity //! Constant O(1). reference at(size_type i); //! @pre i < size() //! //! @brief Returns const reference to the i-th element. //! //! @param i The element's index. //! //! @return const reference to the i-th element //! from the beginning of the container. //! //! @par Throws //! \c std::out_of_range exception by default. //! //! @par Complexity //! Constant O(1). const_reference at(size_type i) const; //! @pre i < size() //! //! @brief Returns reference to the i-th element. //! //! @param i The element's index. //! //! @return reference to the i-th element //! from the beginning of the container. //! //! @par Throws //! Nothing by default. //! //! @par Complexity //! Constant O(1). reference operator[](size_type i); //! @pre i < size() //! //! @brief Returns const reference to the i-th element. //! //! @param i The element's index. //! //! @return const reference to the i-th element //! from the beginning of the container. //! //! @par Throws //! Nothing by default. //! //! @par Complexity //! Constant O(1). const_reference operator[](size_type i) const; //! @pre i =< size() //! //! @brief Returns a iterator to the i-th element. //! //! @param i The element's index. //! //! @return a iterator to the i-th element. //! //! @par Throws //! Nothing by default. //! //! @par Complexity //! Constant O(1). iterator nth(size_type i); //! @pre i =< size() //! //! @brief Returns a const_iterator to the i-th element. //! //! @param i The element's index. //! //! @return a const_iterator to the i-th element. //! //! @par Throws //! Nothing by default. //! //! @par Complexity //! Constant O(1). const_iterator nth(size_type i) const; //! @pre begin() <= p <= end() //! //! @brief Returns the index of the element pointed by p. //! //! @param i The element's index. //! //! @return The index of the element pointed by p. //! //! @par Throws //! Nothing by default. //! //! @par Complexity //! Constant O(1). size_type index_of(iterator p); //! @pre begin() <= p <= end() //! //! @brief Returns the index of the element pointed by p. //! //! @param i The index of the element pointed by p. //! //! @return a const_iterator to the i-th element. //! //! @par Throws //! Nothing by default. //! //! @par Complexity //! Constant O(1). size_type index_of(const_iterator p) const; //! @pre \c !empty() //! //! @brief Returns reference to the first element. //! //! @return reference to the first element //! from the beginning of the container. //! //! @par Throws //! Nothing by default. //! //! @par Complexity //! Constant O(1). reference front(); //! @pre \c !empty() //! //! @brief Returns const reference to the first element. //! //! @return const reference to the first element //! from the beginning of the container. //! //! @par Throws //! Nothing by default. //! //! @par Complexity //! Constant O(1). const_reference front() const; //! @pre \c !empty() //! //! @brief Returns reference to the last element. //! //! @return reference to the last element //! from the beginning of the container. //! //! @par Throws //! Nothing by default. //! //! @par Complexity //! Constant O(1). reference back(); //! @pre \c !empty() //! //! @brief Returns const reference to the first element. //! //! @return const reference to the last element //! from the beginning of the container. //! //! @par Throws //! Nothing by default. //! //! @par Complexity //! Constant O(1). const_reference back() const; //! @brief Pointer such that [data(), data() + size()) is a valid range. //! For a non-empty vector data() == &front(). //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). Value * data() BOOST_NOEXCEPT_OR_NOTHROW; //! @brief Const pointer such that [data(), data() + size()) is a valid range. //! For a non-empty vector data() == &front(). //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). const Value * data() const BOOST_NOEXCEPT_OR_NOTHROW; //! @brief Returns iterator to the first element. //! //! @return iterator to the first element contained in the vector. //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). iterator begin() BOOST_NOEXCEPT_OR_NOTHROW; //! @brief Returns const iterator to the first element. //! //! @return const_iterator to the first element contained in the vector. //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). const_iterator begin() const BOOST_NOEXCEPT_OR_NOTHROW; //! @brief Returns const iterator to the first element. //! //! @return const_iterator to the first element contained in the vector. //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). const_iterator cbegin() const BOOST_NOEXCEPT_OR_NOTHROW; //! @brief Returns iterator to the one after the last element. //! //! @return iterator pointing to the one after the last element contained in the vector. //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). iterator end() BOOST_NOEXCEPT_OR_NOTHROW; //! @brief Returns const iterator to the one after the last element. //! //! @return const_iterator pointing to the one after the last element contained in the vector. //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). const_iterator end() const BOOST_NOEXCEPT_OR_NOTHROW; //! @brief Returns const iterator to the one after the last element. //! //! @return const_iterator pointing to the one after the last element contained in the vector. //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). const_iterator cend() const BOOST_NOEXCEPT_OR_NOTHROW; //! @brief Returns reverse iterator to the first element of the reversed container. //! //! @return reverse_iterator pointing to the beginning //! of the reversed static_vector. //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). reverse_iterator rbegin() BOOST_NOEXCEPT_OR_NOTHROW; //! @brief Returns const reverse iterator to the first element of the reversed container. //! //! @return const_reverse_iterator pointing to the beginning //! of the reversed static_vector. //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). const_reverse_iterator rbegin() const BOOST_NOEXCEPT_OR_NOTHROW; //! @brief Returns const reverse iterator to the first element of the reversed container. //! //! @return const_reverse_iterator pointing to the beginning //! of the reversed static_vector. //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). const_reverse_iterator crbegin() const BOOST_NOEXCEPT_OR_NOTHROW; //! @brief Returns reverse iterator to the one after the last element of the reversed container. //! //! @return reverse_iterator pointing to the one after the last element //! of the reversed static_vector. //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). reverse_iterator rend() BOOST_NOEXCEPT_OR_NOTHROW; //! @brief Returns const reverse iterator to the one after the last element of the reversed container. //! //! @return const_reverse_iterator pointing to the one after the last element //! of the reversed static_vector. //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). const_reverse_iterator rend() const BOOST_NOEXCEPT_OR_NOTHROW; //! @brief Returns const reverse iterator to the one after the last element of the reversed container. //! //! @return const_reverse_iterator pointing to the one after the last element //! of the reversed static_vector. //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). const_reverse_iterator crend() const BOOST_NOEXCEPT_OR_NOTHROW; //! @brief Returns container's capacity. //! //! @return container's capacity. //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). static size_type capacity() BOOST_NOEXCEPT_OR_NOTHROW; //! @brief Returns container's capacity. //! //! @return container's capacity. //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). static size_type max_size() BOOST_NOEXCEPT_OR_NOTHROW; //! @brief Returns the number of stored elements. //! //! @return Number of elements contained in the container. //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). size_type size() const BOOST_NOEXCEPT_OR_NOTHROW; //! @brief Queries if the container contains elements. //! //! @return true if the number of elements contained in the //! container is equal to 0. //! //! @par Throws //! Nothing. //! //! @par Complexity //! Constant O(1). bool empty() const BOOST_NOEXCEPT_OR_NOTHROW; #else friend void swap(static_vector &x, static_vector &y) { x.swap(y); } #endif // BOOST_CONTAINER_DOXYGEN_INVOKED }; #ifdef BOOST_CONTAINER_DOXYGEN_INVOKED //! @brief Checks if contents of two static_vectors are equal. //! //! @ingroup static_vector_non_member //! //! @param x The first static_vector. //! @param y The second static_vector. //! //! @return \c true if containers have the same size and elements in both containers are equal. //! //! @par Complexity //! Linear O(N). template bool operator== (static_vector const& x, static_vector const& y); //! @brief Checks if contents of two static_vectors are not equal. //! //! @ingroup static_vector_non_member //! //! @param x The first static_vector. //! @param y The second static_vector. //! //! @return \c true if containers have different size or elements in both containers are not equal. //! //! @par Complexity //! Linear O(N). template bool operator!= (static_vector const& x, static_vector const& y); //! @brief Lexicographically compares static_vectors. //! //! @ingroup static_vector_non_member //! //! @param x The first static_vector. //! @param y The second static_vector. //! //! @return \c true if x compares lexicographically less than y. //! //! @par Complexity //! Linear O(N). template bool operator< (static_vector const& x, static_vector const& y); //! @brief Lexicographically compares static_vectors. //! //! @ingroup static_vector_non_member //! //! @param x The first static_vector. //! @param y The second static_vector. //! //! @return \c true if y compares lexicographically less than x. //! //! @par Complexity //! Linear O(N). template bool operator> (static_vector const& x, static_vector const& y); //! @brief Lexicographically compares static_vectors. //! //! @ingroup static_vector_non_member //! //! @param x The first static_vector. //! @param y The second static_vector. //! //! @return \c true if y don't compare lexicographically less than x. //! //! @par Complexity //! Linear O(N). template bool operator<= (static_vector const& x, static_vector const& y); //! @brief Lexicographically compares static_vectors. //! //! @ingroup static_vector_non_member //! //! @param x The first static_vector. //! @param y The second static_vector. //! //! @return \c true if x don't compare lexicographically less than y. //! //! @par Complexity //! Linear O(N). template bool operator>= (static_vector const& x, static_vector const& y); //! @brief Swaps contents of two static_vectors. //! //! This function calls static_vector::swap(). //! //! @ingroup static_vector_non_member //! //! @param x The first static_vector. //! @param y The second static_vector. //! //! @par Complexity //! Linear O(N). template inline void swap(static_vector & x, static_vector & y); #else template inline void swap(static_vector & x, static_vector & y , typename container_detail::enable_if_c< C1 != C2>::type * = 0) { x.swap(y); } #endif // BOOST_CONTAINER_DOXYGEN_INVOKED }} // namespace boost::container #include #endif // BOOST_CONTAINER_STATIC_VECTOR_HPP