////////////////////////////////////////////////////////////////////////////// // // (C) Copyright Ion Gaztanaga 2005-2013. // (C) Copyright Gennaro Prota 2003 - 2004. // // Distributed under 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) // // See http://www.boost.org/libs/container for documentation. // ////////////////////////////////////////////////////////////////////////////// #ifndef BOOST_CONTAINER_DETAIL_ITERATORS_HPP #define BOOST_CONTAINER_DETAIL_ITERATORS_HPP #if defined(_MSC_VER) # pragma once #endif #include #include #include #include #include #include #include #ifdef BOOST_CONTAINER_PERFECT_FORWARDING #include #else #include #endif #include namespace boost { namespace container { template class constant_iterator : public std::iterator { typedef constant_iterator this_type; public: explicit constant_iterator(const T &ref, Difference range_size) : m_ptr(&ref), m_num(range_size){} //Constructors constant_iterator() : m_ptr(0), m_num(0){} constant_iterator& operator++() { increment(); return *this; } constant_iterator operator++(int) { constant_iterator result (*this); increment(); return result; } constant_iterator& operator--() { decrement(); return *this; } constant_iterator operator--(int) { constant_iterator result (*this); decrement(); return result; } friend bool operator== (const constant_iterator& i, const constant_iterator& i2) { return i.equal(i2); } friend bool operator!= (const constant_iterator& i, const constant_iterator& i2) { return !(i == i2); } friend bool operator< (const constant_iterator& i, const constant_iterator& i2) { return i.less(i2); } friend bool operator> (const constant_iterator& i, const constant_iterator& i2) { return i2 < i; } friend bool operator<= (const constant_iterator& i, const constant_iterator& i2) { return !(i > i2); } friend bool operator>= (const constant_iterator& i, const constant_iterator& i2) { return !(i < i2); } friend Difference operator- (const constant_iterator& i, const constant_iterator& i2) { return i2.distance_to(i); } //Arithmetic constant_iterator& operator+=(Difference off) { this->advance(off); return *this; } constant_iterator operator+(Difference off) const { constant_iterator other(*this); other.advance(off); return other; } friend constant_iterator operator+(Difference off, const constant_iterator& right) { return right + off; } constant_iterator& operator-=(Difference off) { this->advance(-off); return *this; } constant_iterator operator-(Difference off) const { return *this + (-off); } const T& operator*() const { return dereference(); } const T& operator[] (Difference ) const { return dereference(); } const T* operator->() const { return &(dereference()); } private: const T * m_ptr; Difference m_num; void increment() { --m_num; } void decrement() { ++m_num; } bool equal(const this_type &other) const { return m_num == other.m_num; } bool less(const this_type &other) const { return other.m_num < m_num; } const T & dereference() const { return *m_ptr; } void advance(Difference n) { m_num -= n; } Difference distance_to(const this_type &other)const { return m_num - other.m_num; } }; template class value_init_construct_iterator : public std::iterator { typedef value_init_construct_iterator this_type; public: explicit value_init_construct_iterator(Difference range_size) : m_num(range_size){} //Constructors value_init_construct_iterator() : m_num(0){} value_init_construct_iterator& operator++() { increment(); return *this; } value_init_construct_iterator operator++(int) { value_init_construct_iterator result (*this); increment(); return result; } value_init_construct_iterator& operator--() { decrement(); return *this; } value_init_construct_iterator operator--(int) { value_init_construct_iterator result (*this); decrement(); return result; } friend bool operator== (const value_init_construct_iterator& i, const value_init_construct_iterator& i2) { return i.equal(i2); } friend bool operator!= (const value_init_construct_iterator& i, const value_init_construct_iterator& i2) { return !(i == i2); } friend bool operator< (const value_init_construct_iterator& i, const value_init_construct_iterator& i2) { return i.less(i2); } friend bool operator> (const value_init_construct_iterator& i, const value_init_construct_iterator& i2) { return i2 < i; } friend bool operator<= (const value_init_construct_iterator& i, const value_init_construct_iterator& i2) { return !(i > i2); } friend bool operator>= (const value_init_construct_iterator& i, const value_init_construct_iterator& i2) { return !(i < i2); } friend Difference operator- (const value_init_construct_iterator& i, const value_init_construct_iterator& i2) { return i2.distance_to(i); } //Arithmetic value_init_construct_iterator& operator+=(Difference off) { this->advance(off); return *this; } value_init_construct_iterator operator+(Difference off) const { value_init_construct_iterator other(*this); other.advance(off); return other; } friend value_init_construct_iterator operator+(Difference off, const value_init_construct_iterator& right) { return right + off; } value_init_construct_iterator& operator-=(Difference off) { this->advance(-off); return *this; } value_init_construct_iterator operator-(Difference off) const { return *this + (-off); } //This pseudo-iterator's dereference operations have no sense since value is not //constructed until ::boost::container::construct_in_place is called. //So comment them to catch bad uses //const T& operator*() const; //const T& operator[](difference_type) const; //const T* operator->() const; private: Difference m_num; void increment() { --m_num; } void decrement() { ++m_num; } bool equal(const this_type &other) const { return m_num == other.m_num; } bool less(const this_type &other) const { return other.m_num < m_num; } const T & dereference() const { static T dummy; return dummy; } void advance(Difference n) { m_num -= n; } Difference distance_to(const this_type &other)const { return m_num - other.m_num; } }; template class default_init_construct_iterator : public std::iterator { typedef default_init_construct_iterator this_type; public: explicit default_init_construct_iterator(Difference range_size) : m_num(range_size){} //Constructors default_init_construct_iterator() : m_num(0){} default_init_construct_iterator& operator++() { increment(); return *this; } default_init_construct_iterator operator++(int) { default_init_construct_iterator result (*this); increment(); return result; } default_init_construct_iterator& operator--() { decrement(); return *this; } default_init_construct_iterator operator--(int) { default_init_construct_iterator result (*this); decrement(); return result; } friend bool operator== (const default_init_construct_iterator& i, const default_init_construct_iterator& i2) { return i.equal(i2); } friend bool operator!= (const default_init_construct_iterator& i, const default_init_construct_iterator& i2) { return !(i == i2); } friend bool operator< (const default_init_construct_iterator& i, const default_init_construct_iterator& i2) { return i.less(i2); } friend bool operator> (const default_init_construct_iterator& i, const default_init_construct_iterator& i2) { return i2 < i; } friend bool operator<= (const default_init_construct_iterator& i, const default_init_construct_iterator& i2) { return !(i > i2); } friend bool operator>= (const default_init_construct_iterator& i, const default_init_construct_iterator& i2) { return !(i < i2); } friend Difference operator- (const default_init_construct_iterator& i, const default_init_construct_iterator& i2) { return i2.distance_to(i); } //Arithmetic default_init_construct_iterator& operator+=(Difference off) { this->advance(off); return *this; } default_init_construct_iterator operator+(Difference off) const { default_init_construct_iterator other(*this); other.advance(off); return other; } friend default_init_construct_iterator operator+(Difference off, const default_init_construct_iterator& right) { return right + off; } default_init_construct_iterator& operator-=(Difference off) { this->advance(-off); return *this; } default_init_construct_iterator operator-(Difference off) const { return *this + (-off); } //This pseudo-iterator's dereference operations have no sense since value is not //constructed until ::boost::container::construct_in_place is called. //So comment them to catch bad uses //const T& operator*() const; //const T& operator[](difference_type) const; //const T* operator->() const; private: Difference m_num; void increment() { --m_num; } void decrement() { ++m_num; } bool equal(const this_type &other) const { return m_num == other.m_num; } bool less(const this_type &other) const { return other.m_num < m_num; } const T & dereference() const { static T dummy; return dummy; } void advance(Difference n) { m_num -= n; } Difference distance_to(const this_type &other)const { return m_num - other.m_num; } }; template class repeat_iterator : public std::iterator { typedef repeat_iterator this_type; public: explicit repeat_iterator(T &ref, Difference range_size) : m_ptr(&ref), m_num(range_size){} //Constructors repeat_iterator() : m_ptr(0), m_num(0){} this_type& operator++() { increment(); return *this; } this_type operator++(int) { this_type result (*this); increment(); return result; } this_type& operator--() { increment(); return *this; } this_type operator--(int) { this_type result (*this); increment(); return result; } friend bool operator== (const this_type& i, const this_type& i2) { return i.equal(i2); } friend bool operator!= (const this_type& i, const this_type& i2) { return !(i == i2); } friend bool operator< (const this_type& i, const this_type& i2) { return i.less(i2); } friend bool operator> (const this_type& i, const this_type& i2) { return i2 < i; } friend bool operator<= (const this_type& i, const this_type& i2) { return !(i > i2); } friend bool operator>= (const this_type& i, const this_type& i2) { return !(i < i2); } friend Difference operator- (const this_type& i, const this_type& i2) { return i2.distance_to(i); } //Arithmetic this_type& operator+=(Difference off) { this->advance(off); return *this; } this_type operator+(Difference off) const { this_type other(*this); other.advance(off); return other; } friend this_type operator+(Difference off, const this_type& right) { return right + off; } this_type& operator-=(Difference off) { this->advance(-off); return *this; } this_type operator-(Difference off) const { return *this + (-off); } T& operator*() const { return dereference(); } T& operator[] (Difference ) const { return dereference(); } T *operator->() const { return &(dereference()); } private: T * m_ptr; Difference m_num; void increment() { --m_num; } void decrement() { ++m_num; } bool equal(const this_type &other) const { return m_num == other.m_num; } bool less(const this_type &other) const { return other.m_num < m_num; } T & dereference() const { return *m_ptr; } void advance(Difference n) { m_num -= n; } Difference distance_to(const this_type &other)const { return m_num - other.m_num; } }; template class emplace_iterator : public std::iterator { typedef emplace_iterator this_type; public: typedef Difference difference_type; explicit emplace_iterator(EmplaceFunctor&e) : m_num(1), m_pe(&e){} emplace_iterator() : m_num(0), m_pe(0){} this_type& operator++() { increment(); return *this; } this_type operator++(int) { this_type result (*this); increment(); return result; } this_type& operator--() { decrement(); return *this; } this_type operator--(int) { this_type result (*this); decrement(); return result; } friend bool operator== (const this_type& i, const this_type& i2) { return i.equal(i2); } friend bool operator!= (const this_type& i, const this_type& i2) { return !(i == i2); } friend bool operator< (const this_type& i, const this_type& i2) { return i.less(i2); } friend bool operator> (const this_type& i, const this_type& i2) { return i2 < i; } friend bool operator<= (const this_type& i, const this_type& i2) { return !(i > i2); } friend bool operator>= (const this_type& i, const this_type& i2) { return !(i < i2); } friend difference_type operator- (const this_type& i, const this_type& i2) { return i2.distance_to(i); } //Arithmetic this_type& operator+=(difference_type off) { this->advance(off); return *this; } this_type operator+(difference_type off) const { this_type other(*this); other.advance(off); return other; } friend this_type operator+(difference_type off, const this_type& right) { return right + off; } this_type& operator-=(difference_type off) { this->advance(-off); return *this; } this_type operator-(difference_type off) const { return *this + (-off); } //This pseudo-iterator's dereference operations have no sense since value is not //constructed until ::boost::container::construct_in_place is called. //So comment them to catch bad uses //const T& operator*() const; //const T& operator[](difference_type) const; //const T* operator->() const; template void construct_in_place(A &a, T* ptr) { (*m_pe)(a, ptr); } private: difference_type m_num; EmplaceFunctor * m_pe; void increment() { --m_num; } void decrement() { ++m_num; } bool equal(const this_type &other) const { return m_num == other.m_num; } bool less(const this_type &other) const { return other.m_num < m_num; } const T & dereference() const { static T dummy; return dummy; } void advance(difference_type n) { m_num -= n; } difference_type distance_to(const this_type &other)const { return difference_type(m_num - other.m_num); } }; #ifdef BOOST_CONTAINER_PERFECT_FORWARDING template struct emplace_functor { typedef typename container_detail::build_number_seq::type index_tuple_t; emplace_functor(Args&&... args) : args_(args...) {} template void operator()(A &a, T *ptr) { emplace_functor::inplace_impl(a, ptr, index_tuple_t()); } template void inplace_impl(A &a, T* ptr, const container_detail::index_tuple&) { allocator_traits::construct (a, ptr, ::boost::forward(container_detail::get(args_))...); } container_detail::tuple args_; }; #else //#ifdef BOOST_CONTAINER_PERFECT_FORWARDING #define BOOST_PP_LOCAL_MACRO(n) \ BOOST_PP_EXPR_IF(n, template <) \ BOOST_PP_ENUM_PARAMS(n, class P) \ BOOST_PP_EXPR_IF(n, >) \ struct BOOST_PP_CAT(BOOST_PP_CAT(emplace_functor, n), arg) \ { \ BOOST_PP_CAT(BOOST_PP_CAT(emplace_functor, n), arg) \ ( BOOST_PP_ENUM(n, BOOST_CONTAINER_PP_PARAM_LIST, _) ) \ BOOST_PP_EXPR_IF(n, :) BOOST_PP_ENUM(n, BOOST_CONTAINER_PP_PARAM_INIT, _){} \ \ template \ void operator()(A &a, T *ptr) \ { \ allocator_traits::construct \ (a, ptr BOOST_PP_ENUM_TRAILING(n, BOOST_CONTAINER_PP_MEMBER_FORWARD, _) ); \ } \ BOOST_PP_REPEAT(n, BOOST_CONTAINER_PP_PARAM_DEFINE, _) \ }; \ //! #define BOOST_PP_LOCAL_LIMITS (0, BOOST_CONTAINER_MAX_CONSTRUCTOR_PARAMETERS) #include BOOST_PP_LOCAL_ITERATE() #endif namespace container_detail { template struct has_iterator_category { template static char test(int, typename X::iterator_category*); template static int test(int, ...); static const bool value = (1 == sizeof(test(0, 0))); }; template::value > struct is_input_iterator { static const bool value = is_same::value; }; template struct is_input_iterator { static const bool value = false; }; template::value > struct is_forward_iterator { static const bool value = is_same::value; }; template struct is_forward_iterator { static const bool value = false; }; template::value > struct is_bidirectional_iterator { static const bool value = is_same::value; }; template struct is_bidirectional_iterator { static const bool value = false; }; template struct iiterator_node_value_type { typedef typename IINodeType::value_type type; }; template struct iiterator_types { typedef typename IIterator::value_type it_value_type; typedef typename iiterator_node_value_type::type value_type; typedef typename std::iterator_traits::pointer it_pointer; typedef typename std::iterator_traits::difference_type difference_type; typedef typename ::boost::intrusive::pointer_traits:: template rebind_pointer::type pointer; typedef typename ::boost::intrusive::pointer_traits:: template rebind_pointer::type const_pointer; typedef typename ::boost::intrusive:: pointer_traits::reference reference; typedef typename ::boost::intrusive:: pointer_traits::reference const_reference; typedef typename IIterator::iterator_category iterator_category; }; template struct std_iterator { typedef typename std::iterator < typename iiterator_types::iterator_category , typename iiterator_types::value_type , typename iiterator_types::difference_type , typename iiterator_types::const_pointer , typename iiterator_types::const_reference> type; }; template struct std_iterator { typedef typename std::iterator < typename iiterator_types::iterator_category , typename iiterator_types::value_type , typename iiterator_types::difference_type , typename iiterator_types::pointer , typename iiterator_types::reference> type; }; template class iterator { typedef typename std_iterator::type types_t; public: typedef typename types_t::pointer pointer; typedef typename types_t::reference reference; typedef typename types_t::difference_type difference_type; typedef typename types_t::iterator_category iterator_category; typedef typename types_t::value_type value_type; iterator() {} explicit iterator(IIterator iit) BOOST_CONTAINER_NOEXCEPT : m_iit(iit) {} iterator(iterator const& other) BOOST_CONTAINER_NOEXCEPT : m_iit(other.get()) {} iterator& operator++() BOOST_CONTAINER_NOEXCEPT { ++this->m_iit; return *this; } iterator operator++(int) BOOST_CONTAINER_NOEXCEPT { iterator result (*this); ++this->m_iit; return result; } iterator& operator--() BOOST_CONTAINER_NOEXCEPT { //If the iterator is not a bidirectional iterator, operator-- should not exist BOOST_STATIC_ASSERT((is_bidirectional_iterator::value)); --this->m_iit; return *this; } iterator operator--(int) BOOST_CONTAINER_NOEXCEPT { iterator result (*this); --this->m_iit; return result; } friend bool operator== (const iterator& l, const iterator& r) BOOST_CONTAINER_NOEXCEPT { return l.m_iit == r.m_iit; } friend bool operator!= (const iterator& l, const iterator& r) BOOST_CONTAINER_NOEXCEPT { return !(l == r); } reference operator*() const BOOST_CONTAINER_NOEXCEPT { return (*this->m_iit).get_data(); } pointer operator->() const BOOST_CONTAINER_NOEXCEPT { return ::boost::intrusive::pointer_traits::pointer_to(this->operator*()); } const IIterator &get() const BOOST_CONTAINER_NOEXCEPT { return this->m_iit; } private: IIterator m_iit; }; using ::boost::intrusive::detail::reverse_iterator; } //namespace container_detail { } //namespace container { } //namespace boost { #include #endif //#ifndef BOOST_CONTAINER_DETAIL_ITERATORS_HPP