boost/bimap/list_of.hpp
// Boost.Bimap // // Copyright (c) 2006-2007 Matias Capeletto // // 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) /// \file list_of.hpp /// \brief Include support for list constrains for the bimap container #ifndef BOOST_BIMAP_LIST_OF_HPP #define BOOST_BIMAP_LIST_OF_HPP #if defined(_MSC_VER) #pragma once #endif #include <boost/config.hpp> #include <boost/bimap/detail/user_interface_config.hpp> #include <boost/mpl/bool.hpp> #include <boost/concept_check.hpp> #include <boost/bimap/detail/concept_tags.hpp> #include <boost/bimap/tags/support/value_type_of.hpp> #include <boost/bimap/detail/generate_index_binder.hpp> #include <boost/bimap/detail/generate_view_binder.hpp> #include <boost/bimap/detail/generate_relation_binder.hpp> #include <boost/multi_index/sequenced_index.hpp> #include <boost/bimap/views/list_map_view.hpp> #include <boost/bimap/views/list_set_view.hpp> namespace boost { namespace bimaps { /// \brief Set Type Specification /** This struct is used to specify a set specification. It is not a container, it is just a metaprogramming facility to express the type of a set. Generally, this specification will be used in other place to create a container. It has the same syntax that an std::list instantiation, except that the allocator cannot be specified. The rationale behind this difference is that the allocator is not part of the set type specification, rather it is a container configuration parameter. \code using namespace support; BOOST_STATIC_ASSERT( is_set_type_of< list_of<Type> >::value ) BOOST_STATIC_ASSERT ( is_same < list_of<Type>::index_bind < KeyExtractor, Tag >::type, sequenced< tag<Tag>, KeyExtractor > >::value ) typedef bimap < list_of<Type>, RightKeyType > bimap_with_left_type_as_list; BOOST_STATIC_ASSERT ( is_same < list_of<Type>::map_view_bind < member_at::left, bimap_with_left_type_as_list >::type, list_map_view< member_at::left, bimap_with_left_type_as_list > >::value ) \endcode See also list_of_relation. **/ template< class Type > struct list_of : public ::boost::bimaps::detail::set_type_of_tag { /// User type, can be tagged typedef Type user_type; /// Type of the object that will be stored in the list typedef BOOST_DEDUCED_TYPENAME ::boost::bimaps::tags::support:: value_type_of<user_type>::type value_type; struct lazy_concept_checked { BOOST_CLASS_REQUIRE ( value_type, boost, AssignableConcept ); typedef list_of type; }; BOOST_BIMAP_GENERATE_INDEX_BINDER_0CP_NO_EXTRACTOR( // binds to multi_index::sequenced ) BOOST_BIMAP_GENERATE_MAP_VIEW_BINDER( // binds to views::list_map_view ) BOOST_BIMAP_GENERATE_SET_VIEW_BINDER( // binds to views::list_set_view ) typedef mpl::bool_<true> mutable_key; }; /// \brief List Of Relation Specification /** This struct is similar to list_of but it is bind logically to a relation. It is used in the bimap instantiation to specify the desired type of the main view. This struct implements internally a metafunction named bind_to that manages the quite complicated task of finding the right type of the set for the relation. \code template<class Relation> struct bind_to { typedef -unspecified- type; }; \endcode See also list_of, is_set_type_of_relation. **/ struct list_of_relation : public ::boost::bimaps::detail::set_type_of_relation_tag { BOOST_BIMAP_GENERATE_RELATION_BINDER_0CP( // binds to list_of ) typedef mpl::bool_<true> left_mutable_key; typedef mpl::bool_<true> right_mutable_key; }; } // namespace bimaps } // namespace boost #endif // BOOST_BIMAP_LIST_OF_HPP