boost/move/move.hpp
////////////////////////////////////////////////////////////////////////////// // // (C) Copyright David Abrahams, Vicente Botet 2009. // (C) Copyright Ion Gaztanaga 2009-2010. // 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/move for documentation. // ////////////////////////////////////////////////////////////////////////////// //! \file #ifndef BOOST_MOVE_MOVE_HPP #define BOOST_MOVE_MOVE_HPP #if !defined(BOOST_MOVE_DOXYGEN_INVOKED) /// @cond #include <boost/config.hpp> #ifdef BOOST_MSVC #ifndef _CRT_SECURE_NO_DEPRECATE #define BOOST_INTERPROCESS_CRT_SECURE_NO_DEPRECATE #define _CRT_SECURE_NO_DEPRECATE #endif #ifndef _SCL_SECURE_NO_WARNINGS #define BOOST_INTERPROCESS_SCL_SECURE_NO_WARNINGS #define _SCL_SECURE_NO_WARNINGS #endif #pragma warning (push) #pragma warning(disable:4996) #endif #include <algorithm> //copy, copy_backward #include <memory> //uninitialized_copy #include <iterator> //std::iterator #define BOOST_MOVE_AVOID_BOOST_DEPENDENCIES //If boost dependencies are avoided include all machinery #if !defined(BOOST_MOVE_AVOID_BOOST_DEPENDENCIES) #include <boost/utility/enable_if.hpp> #include <boost/utility/addressof.hpp> #include <boost/mpl/if.hpp> #include <boost/mpl/bool.hpp> #include <boost/mpl/and.hpp> #include <boost/mpl/not.hpp> #include <boost/mpl/identity.hpp> #include <boost/type_traits/is_class.hpp> #include <boost/type_traits/is_convertible.hpp> #include <boost/type_traits/has_trivial_destructor.hpp> #include <boost/type_traits/integral_constant.hpp> #define BOOST_MOVE_MPL_NS ::boost::mpl #define BOOST_MOVE_BOOST_NS ::boost #else #define BOOST_MOVE_MPL_NS ::boost::move_detail #define BOOST_MOVE_BOOST_NS ::boost::move_detail #endif //#ifdef BOOST_MOVE_AVOID_BOOST_DEPENDENCIES //Small meta-typetraits to support move #ifdef BOOST_MOVE_AVOID_BOOST_DEPENDENCIES namespace boost { namespace move_detail { //if_ template<bool C, typename T1, typename T2> struct if_c { typedef T1 type; }; template<typename T1, typename T2> struct if_c<false,T1,T2> { typedef T2 type; }; template<typename T1, typename T2, typename T3> struct if_ { typedef typename if_c<0 != T1::value, T2, T3>::type type; }; //enable_if_ template <bool B, class T = void> struct enable_if_c { typedef T type; }; template <class T> struct enable_if_c<false, T> {}; template <class Cond, class T = void> struct enable_if : public enable_if_c<Cond::value, T> {}; template <class Cond, class T = void> struct disable_if : public enable_if_c<!Cond::value, T> {}; //integral_constant template<class T, T v> struct integral_constant { static const T value = v; typedef T value_type; typedef integral_constant<T, v> type; }; //identity template <class T> struct identity { typedef T type; }; //is_convertible template <class T, class U> class is_convertible { typedef char true_t; class false_t { char dummy[2]; }; static true_t dispatch(U); static false_t dispatch(...); static T &trigger(); public: enum { value = sizeof(dispatch(trigger())) == sizeof(true_t) }; }; //and_ not_ template <typename Condition1, typename Condition2, typename Condition3 = integral_constant<bool, true> > struct and_ : public integral_constant<bool, Condition1::value && Condition2::value && Condition3::value> {}; template <typename Boolean> struct not_ : public integral_constant<bool, !Boolean::value> {}; //is_lvalue_reference template<class T> struct is_lvalue_reference : public integral_constant<bool, false> {}; template<class T> struct is_lvalue_reference<T&> : public integral_constant<bool, true> {}; //has_trivial_destructor template<class T> struct has_trivial_destructor : public integral_constant<bool, false> {}; //addressof template<class T> struct addr_impl_ref { T & v_; inline addr_impl_ref( T & v ): v_( v ) {} inline operator T& () const { return v_; } private: addr_impl_ref & operator=(const addr_impl_ref &); }; template<class T> struct addressof_impl { static inline T * f( T & v, long ) { return reinterpret_cast<T*>( &const_cast<char&>(reinterpret_cast<const volatile char &>(v))); } static inline T * f( T * v, int ) { return v; } }; template<class T> inline T * addressof( T & v ) { return ::boost::move_detail::addressof_impl<T>::f ( ::boost::move_detail::addr_impl_ref<T>( v ), 0 ); } } //namespace move_detail { } //namespace boost { #endif //BOOST_MOVE_AVOID_BOOST_DEPENDENCIES //Compiler workaround detection #if !defined(BOOST_NO_RVALUE_REFERENCES) #if defined(__GNUC__) && (__GNUC__ == 4) && (__GNUC_MINOR__ < 5) && !defined(__clang__) //Pre-standard rvalue binding rules #define BOOST_MOVE_OLD_RVALUE_REF_BINDING_RULES #elif defined(_MSC_VER) && (_MSC_VER == 1600) //Standard rvalue binding rules but with some bugs #define BOOST_MOVE_MSVC_10_MEMBER_RVALUE_REF_BUG //Use standard library for MSVC to avoid namespace issues as //some move calls in the STL are not fully qualified. //#define BOOST_MOVE_USE_STANDARD_LIBRARY_MOVE #endif #endif /// @endcond #endif //#if !defined(BOOST_MOVE_DOXYGEN_INVOKED) #if defined(BOOST_NO_RVALUE_REFERENCES) && !defined(BOOST_MOVE_DOXYGEN_INVOKED) //Move emulation rv breaks standard aliasing rules so add workarounds for some compilers #ifdef __GNUC__ #define BOOST_MOVE_ATTRIBUTE_MAY_ALIAS __attribute__((__may_alias__)) #else #define BOOST_MOVE_ATTRIBUTE_MAY_ALIAS #endif namespace boost { namespace move_detail { template<class T> struct is_class_or_union { struct twochar { char _[2]; }; template <class U> static char is_class_or_union_tester(void(U::*)(void)); template <class U> static twochar is_class_or_union_tester(...); static const bool value = sizeof(is_class_or_union_tester<T>(0)) == sizeof(char); }; struct empty{}; } ////////////////////////////////////////////////////////////////////////////// // // struct rv // ////////////////////////////////////////////////////////////////////////////// template <class T> class rv : public BOOST_MOVE_MPL_NS::if_c < ::boost::move_detail::is_class_or_union<T>::value , T , ::boost::move_detail::empty >::type { rv(); ~rv(); rv(rv const&); void operator=(rv const&); } BOOST_MOVE_ATTRIBUTE_MAY_ALIAS; ////////////////////////////////////////////////////////////////////////////// // // move_detail::is_rv // ////////////////////////////////////////////////////////////////////////////// namespace move_detail { template <class T> struct is_rv : BOOST_MOVE_BOOST_NS::integral_constant<bool, false> {}; template <class T> struct is_rv< rv<T> > : BOOST_MOVE_BOOST_NS::integral_constant<bool, true> {}; template <class T> struct is_rv< const rv<T> > : BOOST_MOVE_BOOST_NS::integral_constant<bool, true> {}; } //namespace move_detail { ////////////////////////////////////////////////////////////////////////////// // // has_move_emulation_enabled // ////////////////////////////////////////////////////////////////////////////// template<class T> struct has_move_emulation_enabled : BOOST_MOVE_BOOST_NS::is_convertible< T, ::boost::rv<T>& > {}; template<class T> struct has_move_emulation_enabled<T&> : BOOST_MOVE_BOOST_NS::integral_constant<bool, false> {}; template<class T> struct has_move_emulation_enabled< ::boost::rv<T> > : BOOST_MOVE_BOOST_NS::integral_constant<bool, false> {}; template <class T> struct has_move_emulation_enabled_aux : has_move_emulation_enabled<T> {}; template <class T> struct has_nothrow_move : public BOOST_MOVE_BOOST_NS::integral_constant<bool, false> {}; ////////////////////////////////////////////////////////////////////////////// // // move() // ////////////////////////////////////////////////////////////////////////////// template <class T> inline typename BOOST_MOVE_BOOST_NS::disable_if<has_move_emulation_enabled_aux<T>, T&>::type move(T& x) { return x; } template <class T> inline typename BOOST_MOVE_BOOST_NS::enable_if<has_move_emulation_enabled<T>, rv<T>&>::type move(T& x) { return *static_cast<rv<T>* >(BOOST_MOVE_BOOST_NS::addressof(x)); } template <class T> inline typename BOOST_MOVE_BOOST_NS::enable_if<has_move_emulation_enabled<T>, rv<T>&>::type move(rv<T>& x) { return x; } #define BOOST_RV_REF(TYPE)\ ::boost::rv< TYPE >& \ // #define BOOST_RV_REF_2_TEMPL_ARGS(TYPE, ARG1, ARG2)\ ::boost::rv< TYPE<ARG1, ARG2> >& \ // #define BOOST_RV_REF_3_TEMPL_ARGS(TYPE, ARG1, ARG2, ARG3)\ ::boost::rv< TYPE<ARG1, ARG2, ARG3> >& \ // #define BOOST_RV_REF_BEG\ ::boost::rv< \ // #define BOOST_RV_REF_END\ >& \ // #define BOOST_FWD_REF(TYPE)\ const TYPE & \ // #define BOOST_CATCH_CONST_RLVALUE(TYPE)\ const ::boost::rv< TYPE >& \ // #define BOOST_COPY_ASSIGN_REF(TYPE)\ const ::boost::rv< TYPE >& \ // #define BOOST_COPY_ASSIGN_REF_BEG \ const ::boost::rv< \ // #define BOOST_COPY_ASSIGN_REF_END \ >& \ // #define BOOST_MOVE_COPY_ASSIGN_REF_2_TEMPL_ARGS(TYPE, ARG1, ARG2)\ const ::boost::rv< TYPE<ARG1, ARG2> >& \ // #define BOOST_MOVE_COPY_ASSIGN_REF_3_TEMPL_ARGS(TYPE, ARG1, ARG2, ARG3)\ const ::boost::rv< TYPE<ARG1, ARG2, ARG3> >& \ // ////////////////////////////////////////////////////////////////////////////// // // forward() // ////////////////////////////////////////////////////////////////////////////// template <class T> inline typename BOOST_MOVE_BOOST_NS::enable_if< ::boost::move_detail::is_rv<T>, T &>::type forward(const typename BOOST_MOVE_MPL_NS::identity<T>::type &x) { return const_cast<T&>(x); } template <class T> inline typename BOOST_MOVE_BOOST_NS::disable_if< ::boost::move_detail::is_rv<T>, const T &>::type forward(const typename BOOST_MOVE_MPL_NS::identity<T>::type &x) { return x; } ////////////////////////////////////////////////////////////////////////////// // // BOOST_MOVABLE_BUT_NOT_COPYABLE // ////////////////////////////////////////////////////////////////////////////// #define BOOST_MOVABLE_BUT_NOT_COPYABLE(TYPE)\ private:\ TYPE(TYPE &);\ TYPE& operator=(TYPE &);\ public:\ operator ::boost::rv<TYPE>&() \ { return *static_cast< ::boost::rv<TYPE>* >(this); }\ operator const ::boost::rv<TYPE>&() const \ { return *static_cast<const ::boost::rv<TYPE>* >(this); }\ private:\ // ////////////////////////////////////////////////////////////////////////////// // // BOOST_COPYABLE_AND_MOVABLE // ////////////////////////////////////////////////////////////////////////////// #define BOOST_COPYABLE_AND_MOVABLE(TYPE)\ public:\ TYPE& operator=(TYPE &t)\ { this->operator=(static_cast<const ::boost::rv<TYPE> &>(const_cast<const TYPE &>(t))); return *this;}\ public:\ operator ::boost::rv<TYPE>&() \ { return *static_cast< ::boost::rv<TYPE>* >(this); }\ operator const ::boost::rv<TYPE>&() const \ { return *static_cast<const ::boost::rv<TYPE>* >(this); }\ private:\ // #define BOOST_COPYABLE_AND_MOVABLE_ALT(TYPE)\ public:\ operator ::boost::rv<TYPE>&() \ { return *static_cast< ::boost::rv<TYPE>* >(this); }\ operator const ::boost::rv<TYPE>&() const \ { return *static_cast<const ::boost::rv<TYPE>* >(this); }\ private:\ // } //namespace boost #else //BOOST_NO_RVALUE_REFERENCES namespace boost{ //! By default this traits returns false. Classes with non-throwing move constructor //! and assignment should specialize this trait to obtain some performance improvements. template <class T> struct has_nothrow_move : public BOOST_MOVE_MPL_NS::integral_constant<bool, false> {}; } // namespace boost{ #if defined(BOOST_MOVE_USE_STANDARD_LIBRARY_MOVE) #include <utility> namespace boost{ using ::std::move; using ::std::forward; using ::std::move_backward; } //namespace boost #else //!BOOST_MOVE_USE_STANDARD_LIBRARY_MOVE #include <boost/type_traits/remove_reference.hpp> namespace boost { ////////////////////////////////////////////////////////////////////////////// // // move // ////////////////////////////////////////////////////////////////////////////// #if defined(BOOST_MOVE_DOXYGEN_INVOKED) //! This function provides a way to convert a reference into a rvalue reference //! in compilers with rvalue references. For other compilers converts T & into //! <i>::boost::rv<T> &</i> so that move emulation is activated. template <class T> rvalue_reference move (input_reference); #elif defined(BOOST_MOVE_OLD_RVALUE_REF_BINDING_RULES) //Old move approach, lvalues could bind to rvalue references template <class T> inline typename remove_reference<T>::type && move(T&& t) { return t; } #else //Old move template <class T> inline typename remove_reference<T>::type && move(T&& t) { return static_cast<typename remove_reference<T>::type &&>(t); } #endif //Old move ////////////////////////////////////////////////////////////////////////////// // // forward // ////////////////////////////////////////////////////////////////////////////// #if defined(BOOST_MOVE_DOXYGEN_INVOKED) //! This function provides limited form of forwarding that is usually enough for //! in-place construction and avoids the exponential overloading necessary for //! perfect forwarding in C++03. //! //! For compilers with rvalue references this function provides perfect forwarding. //! //! Otherwise: //! * If input_reference binds to const ::boost::rv<T> & then it output_reference is //! ::boost::rev<T> & //! //! * Else, input_reference is equal to output_reference is equal to input_reference. template <class T> output_reference forward(input_reference); #elif defined(BOOST_MOVE_OLD_RVALUE_REF_BINDING_RULES) //Old move approach, lvalues could bind to rvalue references template <class T> inline T&& forward (typename BOOST_MOVE_MPL_NS::identity<T>::type&& t) { return t; } #else //Old move //Implementation #5 from N2951, thanks to Howard Hinnant template <class T, class U> inline T&& forward(U&& t , typename BOOST_MOVE_BOOST_NS::enable_if_c< move_detail::is_lvalue_reference<T>::value ? move_detail::is_lvalue_reference<U>::value : true>::type * = 0/* , typename BOOST_MOVE_BOOST_NS::enable_if_c< move_detail::is_convertible <typename remove_reference<U>::type*, typename remove_reference<T>::type*>::value>::type * = 0*/) { return static_cast<T&&>(t); } #endif //BOOST_MOVE_DOXYGEN_INVOKED } //namespace boost { #endif //#if defined(BOOST_MOVE_USE_STANDARD_LIBRARY_MOVE) //! This macro marks a type as movable but not copyable, disabling copy construction //! and assignment. The user will need to write a move constructor/assignment as explained //! in the documentation to fully write a movable but not copyable class. #define BOOST_MOVABLE_BUT_NOT_COPYABLE(TYPE)\ public:\ typedef int boost_move_emulation_t;\ private:\ TYPE(const TYPE &);\ TYPE& operator=(const TYPE &);\ // //! This macro marks a type as copyable and movable. //! The user will need to write a move constructor/assignment and a copy assignment //! as explained in the documentation to fully write a copyable and movable class. #define BOOST_COPYABLE_AND_MOVABLE(TYPE)\ // #define BOOST_COPYABLE_AND_MOVABLE_ALT(TYPE)\ // //!This macro is used to achieve portable syntax in move //!constructors and assignments for classes marked as //!BOOST_COPYABLE_AND_MOVABLE or BOOST_MOVABLE_BUT_NOT_COPYABLE #define BOOST_RV_REF(TYPE)\ TYPE && \ // //!This macro is used to achieve portable syntax in move //!constructors and assignments for template classes marked as //!BOOST_COPYABLE_AND_MOVABLE or BOOST_MOVABLE_BUT_NOT_COPYABLE. //!As macros have problem with comma-separatd template arguments, //!the template argument must be preceded with BOOST_RV_REF_START //!and ended with BOOST_RV_REF_END #define BOOST_RV_REF_BEG\ \ // //!This macro is used to achieve portable syntax in move //!constructors and assignments for template classes marked as //!BOOST_COPYABLE_AND_MOVABLE or BOOST_MOVABLE_BUT_NOT_COPYABLE. //!As macros have problem with comma-separatd template arguments, //!the template argument must be preceded with BOOST_RV_REF_START //!and ended with BOOST_RV_REF_END #define BOOST_RV_REF_END\ && \ //!This macro is used to achieve portable syntax in copy //!assignment for classes marked as BOOST_COPYABLE_AND_MOVABLE. #define BOOST_COPY_ASSIGN_REF(TYPE)\ const TYPE & \ // //! This macro is used to implement portable perfect forwarding //! as explained in the documentation. #define BOOST_FWD_REF(TYPE)\ TYPE && \ // #if !defined(BOOST_MOVE_DOXYGEN_INVOKED) /// @cond #define BOOST_RV_REF_2_TEMPL_ARGS(TYPE, ARG1, ARG2)\ TYPE<ARG1, ARG2> && \ // #define BOOST_RV_REF_3_TEMPL_ARGS(TYPE, ARG1, ARG2, ARG3)\ TYPE<ARG1, ARG2, ARG3> && \ // #define BOOST_COPY_REF_2_TEMPL_ARGS(TYPE, ARG1, ARG2)\ const TYPE<ARG1, ARG2> & \ // #define BOOST_COPY_REF_3_TEMPL_ARGS(TYPE, ARG1, ARG2, ARG3)\ TYPE<ARG1, ARG2, ARG3>& \ // #define BOOST_CATCH_CONST_RLVALUE(TYPE)\ const TYPE & \ // /// @endcond #endif //#if !defined(BOOST_MOVE_DOXYGEN_INVOKED) #endif //BOOST_NO_RVALUE_REFERENCES namespace boost { ////////////////////////////////////////////////////////////////////////////// // // move_iterator // ////////////////////////////////////////////////////////////////////////////// //! Class template move_iterator is an iterator adaptor with the same behavior //! as the underlying iterator except that its dereference operator implicitly //! converts the value returned by the underlying iterator's dereference operator //! to an rvalue reference. Some generic algorithms can be called with move //! iterators to replace copying with moving. template <class It> class move_iterator { public: typedef It iterator_type; typedef typename std::iterator_traits<iterator_type>::value_type value_type; #if !defined(BOOST_NO_RVALUE_REFERENCES) || defined(BOOST_MOVE_DOXYGEN_INVOKED) typedef value_type && reference; #else typedef typename BOOST_MOVE_MPL_NS::if_ < ::boost::has_move_emulation_enabled<value_type> , ::boost::rv<value_type>& , value_type & >::type reference; #endif typedef It pointer; typedef typename std::iterator_traits<iterator_type>::difference_type difference_type; typedef typename std::iterator_traits<iterator_type>::iterator_category iterator_category; move_iterator() {} explicit move_iterator(It i) : m_it(i) {} template <class U> move_iterator(const move_iterator<U>& u) : m_it(u.base()) {} iterator_type base() const { return m_it; } reference operator*() const { #if defined(BOOST_NO_RVALUE_REFERENCES) || defined(BOOST_MOVE_OLD_RVALUE_REF_BINDING_RULES) return *m_it; #else return ::boost::move(*m_it); #endif } pointer operator->() const { return m_it; } move_iterator& operator++() { ++m_it; return *this; } move_iterator<iterator_type> operator++(int) { move_iterator<iterator_type> tmp(*this); ++(*this); return tmp; } move_iterator& operator--() { --m_it; return *this; } move_iterator<iterator_type> operator--(int) { move_iterator<iterator_type> tmp(*this); --(*this); return tmp; } move_iterator<iterator_type> operator+ (difference_type n) const { return move_iterator<iterator_type>(m_it + n); } move_iterator& operator+=(difference_type n) { m_it += n; return *this; } move_iterator<iterator_type> operator- (difference_type n) const { return move_iterator<iterator_type>(m_it - n); } move_iterator& operator-=(difference_type n) { m_it -= n; return *this; } reference operator[](difference_type n) const { #if defined(BOOST_NO_RVALUE_REFERENCES) || defined(BOOST_MOVE_OLD_RVALUE_REF_BINDING_RULES) return m_it[n]; #else return ::boost::move(m_it[n]); #endif } friend bool operator==(const move_iterator& x, const move_iterator& y) { return x.base() == y.base(); } friend bool operator!=(const move_iterator& x, const move_iterator& y) { return x.base() != y.base(); } friend bool operator< (const move_iterator& x, const move_iterator& y) { return x.base() < y.base(); } friend bool operator<=(const move_iterator& x, const move_iterator& y) { return x.base() <= y.base(); } friend bool operator> (const move_iterator& x, const move_iterator& y) { return x.base() > y.base(); } friend bool operator>=(const move_iterator& x, const move_iterator& y) { return x.base() >= y.base(); } friend difference_type operator-(const move_iterator& x, const move_iterator& y) { return x.base() - y.base(); } friend move_iterator operator+(difference_type n, const move_iterator& x) { return move_iterator(x.base() + n); } private: It m_it; }; //is_move_iterator namespace move_detail { template <class I> struct is_move_iterator : public BOOST_MOVE_BOOST_NS::integral_constant<bool, false> { }; template <class I> struct is_move_iterator< ::boost::move_iterator<I> > : public BOOST_MOVE_BOOST_NS::integral_constant<bool, true> { }; } //namespace move_detail { ////////////////////////////////////////////////////////////////////////////// // // move_iterator // ////////////////////////////////////////////////////////////////////////////// //! //! <b>Returns</b>: move_iterator<It>(i). template<class It> inline move_iterator<It> make_move_iterator(const It &it) { return move_iterator<It>(it); } ////////////////////////////////////////////////////////////////////////////// // // back_move_insert_iterator // ////////////////////////////////////////////////////////////////////////////// //! A move insert iterator that move constructs elements at the //! back of a container template <typename C> // C models Container class back_move_insert_iterator : public std::iterator<std::output_iterator_tag, void, void, void, void> { C* container_m; public: typedef C container_type; explicit back_move_insert_iterator(C& x) : container_m(&x) { } back_move_insert_iterator& operator=(typename C::reference x) { container_m->push_back(boost::move(x)); return *this; } back_move_insert_iterator& operator*() { return *this; } back_move_insert_iterator& operator++() { return *this; } back_move_insert_iterator& operator++(int) { return *this; } }; //! //! <b>Returns</b>: back_move_insert_iterator<C>(x). template <typename C> // C models Container inline back_move_insert_iterator<C> back_move_inserter(C& x) { return back_move_insert_iterator<C>(x); } ////////////////////////////////////////////////////////////////////////////// // // front_move_insert_iterator // ////////////////////////////////////////////////////////////////////////////// //! A move insert iterator that move constructs elements int the //! front of a container template <typename C> // C models Container class front_move_insert_iterator : public std::iterator<std::output_iterator_tag, void, void, void, void> { C* container_m; public: typedef C container_type; explicit front_move_insert_iterator(C& x) : container_m(&x) { } front_move_insert_iterator& operator=(typename C::reference x) { container_m->push_front(boost::move(x)); return *this; } front_move_insert_iterator& operator*() { return *this; } front_move_insert_iterator& operator++() { return *this; } front_move_insert_iterator& operator++(int) { return *this; } }; //! //! <b>Returns</b>: front_move_insert_iterator<C>(x). template <typename C> // C models Container inline front_move_insert_iterator<C> front_move_inserter(C& x) { return front_move_insert_iterator<C>(x); } ////////////////////////////////////////////////////////////////////////////// // // insert_move_iterator // ////////////////////////////////////////////////////////////////////////////// template <typename C> // C models Container class move_insert_iterator : public std::iterator<std::output_iterator_tag, void, void, void, void> { C* container_m; typename C::iterator pos_; public: typedef C container_type; explicit move_insert_iterator(C& x, typename C::iterator pos) : container_m(&x), pos_(pos) {} move_insert_iterator& operator=(typename C::reference x) { pos_ = container_m->insert(pos_, ::boost::move(x)); ++pos_; return *this; } move_insert_iterator& operator*() { return *this; } move_insert_iterator& operator++() { return *this; } move_insert_iterator& operator++(int) { return *this; } }; //! //! <b>Returns</b>: move_insert_iterator<C>(x, it). template <typename C> // C models Container inline move_insert_iterator<C> move_inserter(C& x, typename C::iterator it) { return move_insert_iterator<C>(x, it); } ////////////////////////////////////////////////////////////////////////////// // // move // ////////////////////////////////////////////////////////////////////////////// #if !defined(BOOST_MOVE_USE_STANDARD_LIBRARY_MOVE) //! <b>Effects</b>: Moves elements in the range [first,last) into the range [result,result + (last - //! first)) starting from first and proceeding to last. For each non-negative integer n < (last-first), //! performs *(result + n) = ::boost::move (*(first + n)). //! //! <b>Effects</b>: result + (last - first). //! //! <b>Requires</b>: result shall not be in the range [first,last). //! //! <b>Complexity</b>: Exactly last - first move assignments. template <typename I, // I models InputIterator typename O> // O models OutputIterator O move(I f, I l, O result) { while (f != l) { *result = ::boost::move(*f); ++f; ++result; } return result; } ////////////////////////////////////////////////////////////////////////////// // // move_backward // ////////////////////////////////////////////////////////////////////////////// //! <b>Effects</b>: Moves elements in the range [first,last) into the range //! [result - (last-first),result) starting from last - 1 and proceeding to //! first. For each positive integer n <= (last - first), //! performs *(result - n) = ::boost::move(*(last - n)). //! //! <b>Requires</b>: result shall not be in the range [first,last). //! //! <b>Returns</b>: result - (last - first). //! //! <b>Complexity</b>: Exactly last - first assignments. template <typename I, // I models BidirectionalIterator typename O> // O models BidirectionalIterator O move_backward(I f, I l, O result) { while (f != l) { --l; --result; *result = ::boost::move(*l); } return result; } #endif //!defined(BOOST_MOVE_USE_STANDARD_LIBRARY_MOVE) ////////////////////////////////////////////////////////////////////////////// // // uninitialized_move // ////////////////////////////////////////////////////////////////////////////// //! <b>Effects</b>: //! \code //! for (; first != last; ++result, ++first) //! new (static_cast<void*>(&*result)) //! typename iterator_traits<ForwardIterator>::value_type(boost::move(*first)); //! \endcode //! //! <b>Returns</b>: result template <typename I, // I models InputIterator typename F> // F models ForwardIterator F uninitialized_move(I f, I l, F r /// @cond // ,typename BOOST_MOVE_BOOST_NS::enable_if<has_move_emulation_enabled<typename std::iterator_traits<I>::value_type> >::type* = 0 /// @endcond ) { typedef typename std::iterator_traits<I>::value_type input_value_type; while (f != l) { ::new(static_cast<void*>(&*r)) input_value_type(boost::move(*f)); ++f; ++r; } return r; } /// @cond /* template <typename I, // I models InputIterator typename F> // F models ForwardIterator F uninitialized_move(I f, I l, F r, typename BOOST_MOVE_BOOST_NS::disable_if<has_move_emulation_enabled<typename std::iterator_traits<I>::value_type> >::type* = 0) { return std::uninitialized_copy(f, l, r); } */ ////////////////////////////////////////////////////////////////////////////// // // uninitialized_copy_or_move // ////////////////////////////////////////////////////////////////////////////// namespace move_detail { template <typename I, // I models InputIterator typename F> // F models ForwardIterator inline F uninitialized_move_move_iterator(I f, I l, F r // ,typename BOOST_MOVE_BOOST_NS::enable_if< has_move_emulation_enabled<typename I::value_type> >::type* = 0 ) { return ::boost::uninitialized_move(f, l, r); } /* template <typename I, // I models InputIterator typename F> // F models ForwardIterator F uninitialized_move_move_iterator(I f, I l, F r, typename BOOST_MOVE_BOOST_NS::disable_if< has_move_emulation_enabled<typename I::value_type> >::type* = 0) { return std::uninitialized_copy(f.base(), l.base(), r); } */ } //namespace move_detail { template <typename I, // I models InputIterator typename F> // F models ForwardIterator inline F uninitialized_copy_or_move(I f, I l, F r, typename BOOST_MOVE_BOOST_NS::enable_if< move_detail::is_move_iterator<I> >::type* = 0) { return ::boost::move_detail::uninitialized_move_move_iterator(f, l, r); } ////////////////////////////////////////////////////////////////////////////// // // copy_or_move // ////////////////////////////////////////////////////////////////////////////// namespace move_detail { template <typename I, // I models InputIterator typename F> // F models ForwardIterator inline F move_move_iterator(I f, I l, F r // ,typename BOOST_MOVE_BOOST_NS::enable_if< has_move_emulation_enabled<typename I::value_type> >::type* = 0 ) { return ::boost::move(f, l, r); } /* template <typename I, // I models InputIterator typename F> // F models ForwardIterator F move_move_iterator(I f, I l, F r, typename BOOST_MOVE_BOOST_NS::disable_if< has_move_emulation_enabled<typename I::value_type> >::type* = 0) { return std::copy(f.base(), l.base(), r); } */ } //namespace move_detail { template <typename I, // I models InputIterator typename F> // F models ForwardIterator inline F copy_or_move(I f, I l, F r, typename BOOST_MOVE_BOOST_NS::enable_if< move_detail::is_move_iterator<I> >::type* = 0) { return ::boost::move_detail::move_move_iterator(f, l, r); } /// @endcond //! <b>Effects</b>: //! \code //! for (; first != last; ++result, ++first) //! new (static_cast<void*>(&*result)) //! typename iterator_traits<ForwardIterator>::value_type(*first); //! \endcode //! //! <b>Returns</b>: result //! //! <b>Note</b>: This function is provided because //! <i>std::uninitialized_copy</i> from some STL implementations //! is not compatible with <i>move_iterator</i> template <typename I, // I models InputIterator typename F> // F models ForwardIterator inline F uninitialized_copy_or_move(I f, I l, F r /// @cond ,typename BOOST_MOVE_BOOST_NS::disable_if< move_detail::is_move_iterator<I> >::type* = 0 /// @endcond ) { return std::uninitialized_copy(f, l, r); } //! <b>Effects</b>: //! \code //! for (; first != last; ++result, ++first) //! *result = *first; //! \endcode //! //! <b>Returns</b>: result //! //! <b>Note</b>: This function is provided because //! <i>std::uninitialized_copy</i> from some STL implementations //! is not compatible with <i>move_iterator</i> template <typename I, // I models InputIterator typename F> // F models ForwardIterator inline F copy_or_move(I f, I l, F r /// @cond ,typename BOOST_MOVE_BOOST_NS::disable_if< move_detail::is_move_iterator<I> >::type* = 0 /// @endcond ) { return std::copy(f, l, r); } //! If this trait yields to true //! (<i>has_trivial_destructor_after_move <T>::value == true</i>) //! means that if T is used as argument of a move construction/assignment, //! there is no need to call T's destructor. //! This optimization tipically is used to improve containers' performance. //! //! By default this trait is true if the type has trivial destructor, //! every class should specialize this trait if it wants to improve performance //! when inserted in containers. template <class T> struct has_trivial_destructor_after_move : BOOST_MOVE_BOOST_NS::has_trivial_destructor<T> {}; namespace move_detail { // Code from Jeffrey Lee Hellrung, many thanks #ifndef BOOST_NO_RVALUE_REFERENCES template< class T> struct forward_type { typedef T type; }; #else // #ifndef BOOST_NO_RVALUE_REFERENCES template< class T> struct forward_type { typedef const T &type; }; template< class T> struct forward_type< boost::rv<T> > { typedef T type; }; #endif // #ifndef BOOST_NO_RVALUE_REFERENCES // Code from Jeffrey Lee Hellrung, many thanks template< class T > struct is_rvalue_reference : BOOST_MOVE_BOOST_NS::integral_constant<bool, false> { }; #ifndef BOOST_NO_RVALUE_REFERENCES template< class T > struct is_rvalue_reference< T&& > : BOOST_MOVE_BOOST_NS::integral_constant<bool, true> { }; #else // #ifndef BOOST_NO_RVALUE_REFERENCES template< class T > struct is_rvalue_reference< boost::rv<T>& > : BOOST_MOVE_BOOST_NS::integral_constant<bool, true> {}; template< class T > struct is_rvalue_reference< const boost::rv<T>& > : BOOST_MOVE_BOOST_NS::integral_constant<bool, true> {}; #endif // #ifndef BOOST_NO_RVALUE_REFERENCES #ifndef BOOST_NO_RVALUE_REFERENCES template< class T > struct add_rvalue_reference { typedef T&& type; }; #else // #ifndef BOOST_NO_RVALUE_REFERENCES namespace detail_add_rvalue_reference { template< class T , bool emulation = ::boost::has_move_emulation_enabled<T>::value , bool rv = ::boost::move_detail::is_rv<T>::value > struct add_rvalue_reference_impl { typedef T type; }; template< class T, bool emulation> struct add_rvalue_reference_impl< T, emulation, true > { typedef T & type; }; template< class T, bool rv > struct add_rvalue_reference_impl< T, true, rv > { typedef ::boost::rv<T>& type; }; } // namespace detail_add_rvalue_reference template< class T > struct add_rvalue_reference : detail_add_rvalue_reference::add_rvalue_reference_impl<T> { }; template< class T > struct add_rvalue_reference<T &> { typedef T & type; }; #endif // #ifndef BOOST_NO_RVALUE_REFERENCES template< class T > struct remove_rvalue_reference { typedef T type; }; #ifndef BOOST_NO_RVALUE_REFERENCES template< class T > struct remove_rvalue_reference< T&& > { typedef T type; }; #else // #ifndef BOOST_NO_RVALUE_REFERENCES template< class T > struct remove_rvalue_reference< rv<T> > { typedef T type; }; template< class T > struct remove_rvalue_reference< const rv<T> > { typedef T type; }; template< class T > struct remove_rvalue_reference< volatile rv<T> > { typedef T type; }; template< class T > struct remove_rvalue_reference< const volatile rv<T> > { typedef T type; }; template< class T > struct remove_rvalue_reference< rv<T>& > { typedef T type; }; template< class T > struct remove_rvalue_reference< const rv<T>& > { typedef T type; }; template< class T > struct remove_rvalue_reference< volatile rv<T>& > { typedef T type; }; template< class T > struct remove_rvalue_reference< const volatile rv<T>& >{ typedef T type; }; #endif // #ifndef BOOST_NO_RVALUE_REFERENCES template <typename T> typename boost::move_detail::add_rvalue_reference<T>::type declval(); } // Ideas from Boost.Move review, Jeffrey Lee Hellrung: // //- TypeTraits metafunctions is_lvalue_reference, add_lvalue_reference, and remove_lvalue_reference ? // Perhaps add_reference and remove_reference can be modified so that they behave wrt emulated rvalue // references the same as wrt real rvalue references, i.e., add_reference< rv<T>& > -> T& rather than // rv<T>& (since T&& & -> T&). // //- Add'l TypeTraits has_[trivial_]move_{constructor,assign}...? // //- An as_lvalue(T& x) function, which amounts to an identity operation in C++0x, but strips emulated // rvalue references in C++03. This may be necessary to prevent "accidental moves". } //namespace boost { #if defined BOOST_MSVC #pragma warning (pop) #ifdef BOOST_INTERPROCESS_CRT_SECURE_NO_DEPRECATE #undef BOOST_INTERPROCESS_CRT_SECURE_NO_DEPRECATE #undef _CRT_SECURE_NO_DEPRECATE #endif #ifdef BOOST_INTERPROCESS_SCL_SECURE_NO_WARNINGS #undef BOOST_INTERPROCESS_SCL_SECURE_NO_WARNINGS #undef _SCL_SECURE_NO_WARNINGS #endif #endif #endif //#ifndef BOOST_MOVE_MOVE_HPP