boost/container/container_fwd.hpp
////////////////////////////////////////////////////////////////////////////// // // (C) Copyright Ion Gaztanaga 2005-2014. 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_CONTAINER_FWD_HPP #define BOOST_CONTAINER_CONTAINER_FWD_HPP #ifndef BOOST_CONFIG_HPP # include <boost/config.hpp> #endif #if defined(BOOST_HAS_PRAGMA_ONCE) # pragma once #endif //! \file //! This header file forward declares the following containers: //! - boost::container::vector //! - boost::container::stable_vector //! - boost::container::static_vector //! - boost::container::small_vector_base //! - boost::container::small_vector //! - boost::container::devector //! - boost::container::slist //! - boost::container::list //! - boost::container::set //! - boost::container::multiset //! - boost::container::map //! - boost::container::multimap //! - boost::container::flat_set //! - boost::container::flat_multiset //! - boost::container::flat_map //! - boost::container::flat_multimap //! - boost::container::basic_string //! - boost::container::string //! - boost::container::wstring //! //! Forward declares the following allocators: //! - boost::container::allocator //! - boost::container::node_allocator //! - boost::container::adaptive_pool //! //! Forward declares the following polymorphic resource classes: //! - boost::container::pmr::memory_resource //! - boost::container::pmr::polymorphic_allocator //! - boost::container::pmr::monotonic_buffer_resource //! - boost::container::pmr::pool_options //! - boost::container::pmr::unsynchronized_pool_resource //! - boost::container::pmr::synchronized_pool_resource //! //! And finally it defines the following types #ifndef BOOST_CONTAINER_DOXYGEN_INVOKED //Std forward declarations #ifndef BOOST_CONTAINER_DETAIL_STD_FWD_HPP #include <boost/container/detail/std_fwd.hpp> #endif namespace boost{ namespace intrusive{ namespace detail{ //Create namespace to avoid compilation errors }}} namespace boost{ namespace container{ namespace dtl{ namespace bi = boost::intrusive; namespace bid = boost::intrusive::detail; }}} namespace boost{ namespace container{ namespace pmr{ namespace bi = boost::intrusive; namespace bid = boost::intrusive::detail; }}} #include <cstddef> #endif //#ifndef BOOST_CONTAINER_DOXYGEN_INVOKED ////////////////////////////////////////////////////////////////////////////// // Containers ////////////////////////////////////////////////////////////////////////////// namespace boost { namespace container { #ifndef BOOST_CONTAINER_DOXYGEN_INVOKED template<class T> class new_allocator; template <class T ,class Allocator = void ,class Options = void> class vector; template <class T ,class Allocator = void > class stable_vector; template < class T , std::size_t Capacity , class Options = void> class static_vector; template < class T , class Allocator = void , class Options = void > class small_vector_base; template < class T , std::size_t N , class Allocator = void , class Options = void > class small_vector; template <class T ,class Allocator = void ,class Options = void> class devector; template <class T ,class Allocator = void ,class Options = void> class deque; template <class T ,class Allocator = void > class list; template <class T ,class Allocator = void > class slist; template <class Key ,class Compare = std::less<Key> ,class Allocator = void ,class Options = void> class set; template <class Key ,class Compare = std::less<Key> ,class Allocator = void ,class Options = void > class multiset; template <class Key ,class T ,class Compare = std::less<Key> ,class Allocator = void ,class Options = void > class map; template <class Key ,class T ,class Compare = std::less<Key> ,class Allocator = void ,class Options = void > class multimap; template <class Key ,class Compare = std::less<Key> ,class Allocator = void > class flat_set; template <class Key ,class Compare = std::less<Key> ,class Allocator = void > class flat_multiset; template <class Key ,class T ,class Compare = std::less<Key> ,class Allocator = void > class flat_map; template <class Key ,class T ,class Compare = std::less<Key> ,class Allocator = void > class flat_multimap; #ifndef BOOST_NO_CXX11_TEMPLATE_ALIASES //! Alias templates for small_flat_[multi]{set|map} using small_vector as container template < class Key , std::size_t N , class Compare = std::less<Key> , class SmallVectorAllocator = void , class SmallVectorOptions = void > using small_flat_set = flat_set<Key, Compare, small_vector<Key, N, SmallVectorAllocator, SmallVectorOptions>>; template < class Key , std::size_t N , class Compare = std::less<Key> , class SmallVectorAllocator = void , class SmallVectorOptions = void > using small_flat_multiset = flat_multiset<Key, Compare, small_vector<Key, N, SmallVectorAllocator, SmallVectorOptions>>; template < class Key , class T , std::size_t N , class Compare = std::less<Key> , class SmallVectorAllocator = void , class SmallVectorOptions = void > using small_flat_map = flat_map<Key, T, Compare, small_vector<std::pair<Key, T>, N, SmallVectorAllocator, SmallVectorOptions>>; template < class Key , class T , std::size_t N , class Compare = std::less<Key> , class SmallVectorAllocator = void , class SmallVectorOptions = void > using small_flat_multimap = flat_multimap<Key, T, Compare, small_vector<std::pair<Key, T>, N, SmallVectorAllocator, SmallVectorOptions>>; #endif // #ifndef BOOST_NO_CXX11_TEMPLATE_ALIASES //! A portable metafunction to obtain a small_flat_set template < class Key , std::size_t N , class Compare = std::less<Key> , class SmallVectorAllocator = void , class SmallVectorOptions = void > struct small_flat_set_of { typedef flat_set<Key, Compare, small_vector<Key, N, SmallVectorAllocator, SmallVectorOptions> > type; }; //! A portable metafunction to obtain a small_flat_multiset template < class Key , std::size_t N , class Compare = std::less<Key> , class SmallVectorAllocator = void , class SmallVectorOptions = void > struct small_flat_multiset_of { typedef flat_multiset<Key, Compare, small_vector<Key, N, SmallVectorAllocator, SmallVectorOptions> > type; }; //! A portable metafunction to obtain a small_flat_map template < class Key , class T , std::size_t N , class Compare = std::less<Key> , class SmallVectorAllocator = void , class SmallVectorOptions = void > struct small_flat_map_of { typedef flat_map<Key, T, Compare, small_vector<std::pair<Key, T>, N, SmallVectorAllocator, SmallVectorOptions> > type; }; //! A portable metafunction to obtain a small_flat_multimap template < class Key , class T , std::size_t N , class Compare = std::less<Key> , class SmallVectorAllocator = void , class SmallVectorOptions = void > struct small_flat_multimap_of { typedef flat_multimap<Key, T, Compare, small_vector<std::pair<Key, T>, N, SmallVectorAllocator, SmallVectorOptions> > type; }; template <class CharT ,class Traits = std::char_traits<CharT> ,class Allocator = void > class basic_string; typedef basic_string <char> string; typedef basic_string<wchar_t> wstring; static const std::size_t ADP_nodes_per_block = 256u; static const std::size_t ADP_max_free_blocks = 2u; static const std::size_t ADP_overhead_percent = 1u; static const std::size_t ADP_only_alignment = 0u; template < class T , std::size_t NodesPerBlock = ADP_nodes_per_block , std::size_t MaxFreeBlocks = ADP_max_free_blocks , std::size_t OverheadPercent = ADP_overhead_percent , unsigned Version = 2 > class adaptive_pool; template < class T , unsigned Version = 2 , unsigned int AllocationDisableMask = 0> class allocator; static const std::size_t NodeAlloc_nodes_per_block = 256u; template < class T , std::size_t NodesPerBlock = NodeAlloc_nodes_per_block , std::size_t Version = 2> class node_allocator; namespace pmr { class memory_resource; template<class T> class polymorphic_allocator; class monotonic_buffer_resource; struct pool_options; template <class Allocator> class resource_adaptor_imp; class unsynchronized_pool_resource; class synchronized_pool_resource; } //namespace pmr { #endif //#ifndef BOOST_CONTAINER_DOXYGEN_INVOKED //! Type used to tag that the input range is //! guaranteed to be ordered struct ordered_range_t {}; //! Value used to tag that the input range is //! guaranteed to be ordered static const ordered_range_t ordered_range = ordered_range_t(); //! Type used to tag that the input range is //! guaranteed to be ordered and unique struct ordered_unique_range_t : public ordered_range_t {}; //! Value used to tag that the input range is //! guaranteed to be ordered and unique static const ordered_unique_range_t ordered_unique_range = ordered_unique_range_t(); //! Type used to tag that the inserted values //! should be default initialized struct default_init_t {}; //! Value used to tag that the inserted values //! should be default initialized static const default_init_t default_init = default_init_t(); #ifndef BOOST_CONTAINER_DOXYGEN_INVOKED //! Type used to tag that the inserted values //! should be value initialized struct value_init_t {}; //! Value used to tag that the inserted values //! should be value initialized static const value_init_t value_init = value_init_t(); namespace container_detail_really_deep_namespace { //Otherwise, gcc issues a warning of previously defined //anonymous_instance and unique_instance struct dummy { dummy() { (void)ordered_range; (void)ordered_unique_range; (void)default_init; } }; } //detail_really_deep_namespace { typedef const std::piecewise_construct_t & piecewise_construct_t; #endif //#ifndef BOOST_CONTAINER_DOXYGEN_INVOKED }} //namespace boost { namespace container { #endif //#ifndef BOOST_CONTAINER_CONTAINER_FWD_HPP