////////////////////////////////////////////////////////////////////////////// // // (C) Copyright Ion Gaztanaga 2005-2013. // // 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_DESTROYERS_HPP #define BOOST_CONTAINER_DESTROYERS_HPP #ifndef BOOST_CONFIG_HPP # include #endif #if defined(BOOST_HAS_PRAGMA_ONCE) # pragma once #endif #include #include #include #include #include namespace boost { namespace container { namespace container_detail { //!A deleter for scoped_ptr that deallocates the memory //!allocated for an object using a STL allocator. template struct scoped_deallocator { typedef allocator_traits allocator_traits_type; typedef typename allocator_traits_type::pointer pointer; typedef container_detail::integral_constant::value> alloc_version; private: void priv_deallocate(version_1) { m_alloc.deallocate(m_ptr, 1); } void priv_deallocate(version_2) { m_alloc.deallocate_one(m_ptr); } BOOST_MOVABLE_BUT_NOT_COPYABLE(scoped_deallocator) public: pointer m_ptr; Allocator& m_alloc; scoped_deallocator(pointer p, Allocator& a) : m_ptr(p), m_alloc(a) {} ~scoped_deallocator() { if (m_ptr)priv_deallocate(alloc_version()); } scoped_deallocator(BOOST_RV_REF(scoped_deallocator) o) : m_ptr(o.m_ptr), m_alloc(o.m_alloc) { o.release(); } pointer get() const { return m_ptr; } void set(const pointer &p) { m_ptr = p; } void release() { m_ptr = 0; } }; template struct null_scoped_deallocator { typedef boost::container::allocator_traits AllocTraits; typedef typename AllocTraits::pointer pointer; typedef typename AllocTraits::size_type size_type; null_scoped_deallocator(pointer, Allocator&, size_type) {} void release() {} pointer get() const { return pointer(); } void set(const pointer &) {} }; //!A deleter for scoped_ptr that deallocates the memory //!allocated for an array of objects using a STL allocator. template struct scoped_array_deallocator { typedef boost::container::allocator_traits AllocTraits; typedef typename AllocTraits::pointer pointer; typedef typename AllocTraits::size_type size_type; scoped_array_deallocator(pointer p, Allocator& a, size_type length) : m_ptr(p), m_alloc(a), m_length(length) {} ~scoped_array_deallocator() { if (m_ptr) m_alloc.deallocate(m_ptr, m_length); } void release() { m_ptr = 0; } private: pointer m_ptr; Allocator& m_alloc; size_type m_length; }; template struct null_scoped_array_deallocator { typedef boost::container::allocator_traits AllocTraits; typedef typename AllocTraits::pointer pointer; typedef typename AllocTraits::size_type size_type; null_scoped_array_deallocator(pointer, Allocator&, size_type) {} void release() {} }; template struct scoped_destroy_deallocator { typedef boost::container::allocator_traits AllocTraits; typedef typename AllocTraits::pointer pointer; typedef typename AllocTraits::size_type size_type; typedef container_detail::integral_constant::value> alloc_version; scoped_destroy_deallocator(pointer p, Allocator& a) : m_ptr(p), m_alloc(a) {} ~scoped_destroy_deallocator() { if(m_ptr){ AllocTraits::destroy(m_alloc, container_detail::to_raw_pointer(m_ptr)); priv_deallocate(m_ptr, alloc_version()); } } void release() { m_ptr = 0; } private: void priv_deallocate(const pointer &p, version_1) { AllocTraits::deallocate(m_alloc, p, 1); } void priv_deallocate(const pointer &p, version_2) { m_alloc.deallocate_one(p); } pointer m_ptr; Allocator& m_alloc; }; //!A deleter for scoped_ptr that destroys //!an object using a STL allocator. template struct scoped_destructor_n { typedef boost::container::allocator_traits AllocTraits; typedef typename AllocTraits::pointer pointer; typedef typename AllocTraits::value_type value_type; typedef typename AllocTraits::size_type size_type; scoped_destructor_n(pointer p, Allocator& a, size_type n) : m_p(p), m_a(a), m_n(n) {} void release() { m_p = 0; } void increment_size(size_type inc) { m_n += inc; } void increment_size_backwards(size_type inc) { m_n += inc; m_p -= inc; } void shrink_forward(size_type inc) { m_n -= inc; m_p += inc; } ~scoped_destructor_n() { if(!m_p) return; value_type *raw_ptr = container_detail::to_raw_pointer(m_p); while(m_n--){ AllocTraits::destroy(m_a, raw_ptr++); } } private: pointer m_p; Allocator & m_a; size_type m_n; }; //!A deleter for scoped_ptr that destroys //!an object using a STL allocator. template struct null_scoped_destructor_n { typedef boost::container::allocator_traits AllocTraits; typedef typename AllocTraits::pointer pointer; typedef typename AllocTraits::size_type size_type; null_scoped_destructor_n(pointer, Allocator&, size_type) {} void increment_size(size_type) {} void increment_size_backwards(size_type) {} void shrink_forward(size_type) {} void release() {} }; template class scoped_destructor { typedef boost::container::allocator_traits AllocTraits; public: typedef typename Allocator::value_type value_type; scoped_destructor(Allocator &a, value_type *pv) : pv_(pv), a_(a) {} ~scoped_destructor() { if(pv_){ AllocTraits::destroy(a_, pv_); } } void release() { pv_ = 0; } void set(value_type *ptr) { pv_ = ptr; } value_type *get() const { return pv_; } private: value_type *pv_; Allocator &a_; }; template class value_destructor { typedef boost::container::allocator_traits AllocTraits; public: typedef typename Allocator::value_type value_type; value_destructor(Allocator &a, value_type &rv) : rv_(rv), a_(a) {} ~value_destructor() { AllocTraits::destroy(a_, &rv_); } private: value_type &rv_; Allocator &a_; }; template class allocator_destroyer { typedef boost::container::allocator_traits AllocTraits; typedef typename AllocTraits::value_type value_type; typedef typename AllocTraits::pointer pointer; typedef container_detail::integral_constant::value> alloc_version; private: Allocator & a_; private: void priv_deallocate(const pointer &p, version_1) { AllocTraits::deallocate(a_,p, 1); } void priv_deallocate(const pointer &p, version_2) { a_.deallocate_one(p); } public: explicit allocator_destroyer(Allocator &a) : a_(a) {} void operator()(const pointer &p) { AllocTraits::destroy(a_, container_detail::to_raw_pointer(p)); this->priv_deallocate(p, alloc_version()); } }; template class allocator_destroyer_and_chain_builder { typedef allocator_traits allocator_traits_type; typedef typename allocator_traits_type::value_type value_type; typedef typename Allocator::multiallocation_chain multiallocation_chain; Allocator & a_; multiallocation_chain &c_; public: allocator_destroyer_and_chain_builder(Allocator &a, multiallocation_chain &c) : a_(a), c_(c) {} void operator()(const typename Allocator::pointer &p) { allocator_traits::destroy(a_, container_detail::to_raw_pointer(p)); c_.push_back(p); } }; template class allocator_multialloc_chain_node_deallocator { typedef allocator_traits allocator_traits_type; typedef typename allocator_traits_type::value_type value_type; typedef typename Allocator::multiallocation_chain multiallocation_chain; typedef allocator_destroyer_and_chain_builder chain_builder; Allocator & a_; multiallocation_chain c_; public: allocator_multialloc_chain_node_deallocator(Allocator &a) : a_(a), c_() {} chain_builder get_chain_builder() { return chain_builder(a_, c_); } ~allocator_multialloc_chain_node_deallocator() { a_.deallocate_individual(c_); } }; } //namespace container_detail { } //namespace container { } //namespace boost { #include #endif //#ifndef BOOST_CONTAINER_DESTROYERS_HPP