///////////////////////////////////////////////////////////////////////////// // // (C) Copyright Olaf Krzikalla 2004-2006. // (C) Copyright Ion Gaztanaga 2006-2013 // // 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/intrusive for documentation. // ///////////////////////////////////////////////////////////////////////////// #ifndef BOOST_INTRUSIVE_UNORDERED_SET_HOOK_HPP #define BOOST_INTRUSIVE_UNORDERED_SET_HOOK_HPP #include #include #include #include #include #include #if defined(BOOST_HAS_PRAGMA_ONCE) # pragma once #endif namespace boost { namespace intrusive { /// @cond template struct unordered_node : public slist_node { typedef typename pointer_traits ::template rebind_pointer < unordered_node >::type node_ptr; node_ptr prev_in_group_; std::size_t hash_; }; template struct unordered_node : public slist_node { typedef typename pointer_traits ::template rebind_pointer < unordered_node >::type node_ptr; node_ptr prev_in_group_; }; template struct unordered_node : public slist_node { typedef typename pointer_traits ::template rebind_pointer < unordered_node >::type node_ptr; std::size_t hash_; }; template struct unordered_node_traits : public slist_node_traits { typedef slist_node_traits reduced_slist_node_traits; typedef unordered_node node; typedef typename pointer_traits ::template rebind_pointer < node >::type node_ptr; typedef typename pointer_traits ::template rebind_pointer < const node >::type const_node_ptr; static const bool store_hash = StoreHash; static const bool optimize_multikey = OptimizeMultiKey; static node_ptr get_next(const const_node_ptr & n) { return pointer_traits::static_cast_from(n->next_); } static void set_next(node_ptr n, node_ptr next) { n->next_ = next; } static node_ptr get_prev_in_group(const const_node_ptr & n) { return n->prev_in_group_; } static void set_prev_in_group(node_ptr n, node_ptr prev) { n->prev_in_group_ = prev; } static std::size_t get_hash(const const_node_ptr & n) { return n->hash_; } static void set_hash(const node_ptr & n, std::size_t h) { n->hash_ = h; } }; template struct unordered_group_adapter { typedef typename NodeTraits::node node; typedef typename NodeTraits::node_ptr node_ptr; typedef typename NodeTraits::const_node_ptr const_node_ptr; static node_ptr get_next(const const_node_ptr & n) { return NodeTraits::get_prev_in_group(n); } static void set_next(node_ptr n, node_ptr next) { NodeTraits::set_prev_in_group(n, next); } }; template struct unordered_algorithms : public circular_slist_algorithms { typedef circular_slist_algorithms base_type; typedef unordered_group_adapter group_traits; typedef circular_slist_algorithms group_algorithms; typedef NodeTraits node_traits; typedef typename NodeTraits::node node; typedef typename NodeTraits::node_ptr node_ptr; typedef typename NodeTraits::const_node_ptr const_node_ptr; static void init(typename base_type::node_ptr n) { base_type::init(n); group_algorithms::init(n); } static void init_header(typename base_type::node_ptr n) { base_type::init_header(n); group_algorithms::init_header(n); } static void unlink(typename base_type::node_ptr n) { base_type::unlink(n); group_algorithms::unlink(n); } }; //Class to avoid defining the same algo as a circular list, as hooks would be ambiguous between them template struct uset_algo_wrapper : public Algo {}; template struct get_uset_node_traits { typedef typename detail::if_c < (StoreHash || OptimizeMultiKey) , unordered_node_traits , slist_node_traits >::type type; }; template struct get_uset_algo_type { static const algo_types value = OptimizeMultiKey ? UnorderedAlgorithms : UnorderedCircularSlistAlgorithms; }; template struct get_algo { typedef unordered_algorithms type; }; template struct get_algo { typedef uset_algo_wrapper< circular_slist_algorithms > type; }; /// @endcond //! Helper metafunction to define a \c unordered_set_base_hook that yields to the same //! type when the same options (either explicitly or implicitly) are used. #if defined(BOOST_INTRUSIVE_DOXYGEN_INVOKED) || defined(BOOST_INTRUSIVE_VARIADIC_TEMPLATES) template #else template #endif struct make_unordered_set_base_hook { /// @cond typedef typename pack_options < hook_defaults, #if !defined(BOOST_INTRUSIVE_VARIADIC_TEMPLATES) O1, O2, O3, O4 #else Options... #endif >::type packed_options; typedef generic_hook < get_uset_algo_type ::value , typename get_uset_node_traits < typename packed_options::void_pointer , packed_options::store_hash , packed_options::optimize_multikey >::type , typename packed_options::tag , packed_options::link_mode , HashBaseHookId > implementation_defined; /// @endcond typedef implementation_defined type; }; //! Derive a class from unordered_set_base_hook in order to store objects in //! in an unordered_set/unordered_multi_set. unordered_set_base_hook holds the data necessary to maintain //! the unordered_set/unordered_multi_set and provides an appropriate value_traits class for unordered_set/unordered_multi_set. //! //! The hook admits the following options: \c tag<>, \c void_pointer<>, //! \c link_mode<>, \c store_hash<> and \c optimize_multikey<>. //! //! \c tag<> defines a tag to identify the node. //! The same tag value can be used in different classes, but if a class is //! derived from more than one \c list_base_hook, then each \c list_base_hook needs its //! unique tag. //! //! \c void_pointer<> is the pointer type that will be used internally in the hook //! and the container configured to use this hook. //! //! \c link_mode<> will specify the linking mode of the hook (\c normal_link, //! \c auto_unlink or \c safe_link). //! //! \c store_hash<> will tell the hook to store the hash of the value //! to speed up rehashings. //! //! \c optimize_multikey<> will tell the hook to store a link to form a group //! with other value with the same value to speed up searches and insertions //! in unordered_multisets with a great number of with equivalent keys. #if defined(BOOST_INTRUSIVE_DOXYGEN_INVOKED) || defined(BOOST_INTRUSIVE_VARIADIC_TEMPLATES) template #else template #endif class unordered_set_base_hook : public make_unordered_set_base_hook< #if !defined(BOOST_INTRUSIVE_VARIADIC_TEMPLATES) O1, O2, O3, O4 #else Options... #endif >::type { #if defined(BOOST_INTRUSIVE_DOXYGEN_INVOKED) public: //! Effects: If link_mode is \c auto_unlink or \c safe_link //! initializes the node to an unlinked state. //! //! Throws: Nothing. unordered_set_base_hook(); //! Effects: If link_mode is \c auto_unlink or \c safe_link //! initializes the node to an unlinked state. The argument is ignored. //! //! Throws: Nothing. //! //! Rationale: Providing a copy-constructor //! makes classes using the hook STL-compliant without forcing the //! user to do some additional work. \c swap can be used to emulate //! move-semantics. unordered_set_base_hook(const unordered_set_base_hook& ); //! Effects: Empty function. The argument is ignored. //! //! Throws: Nothing. //! //! Rationale: Providing an assignment operator //! makes classes using the hook STL-compliant without forcing the //! user to do some additional work. \c swap can be used to emulate //! move-semantics. unordered_set_base_hook& operator=(const unordered_set_base_hook& ); //! Effects: If link_mode is \c normal_link, the destructor does //! nothing (ie. no code is generated). If link_mode is \c safe_link and the //! object is stored in an unordered_set an assertion is raised. If link_mode is //! \c auto_unlink and \c is_linked() is true, the node is unlinked. //! //! Throws: Nothing. ~unordered_set_base_hook(); //! Effects: Swapping two nodes swaps the position of the elements //! related to those nodes in one or two containers. That is, if the node //! this is part of the element e1, the node x is part of the element e2 //! and both elements are included in the containers s1 and s2, then after //! the swap-operation e1 is in s2 at the position of e2 and e2 is in s1 //! at the position of e1. If one element is not in a container, then //! after the swap-operation the other element is not in a container. //! Iterators to e1 and e2 related to those nodes are invalidated. //! //! Complexity: Constant //! //! Throws: Nothing. void swap_nodes(unordered_set_base_hook &other); //! Precondition: link_mode must be \c safe_link or \c auto_unlink. //! //! Returns: true, if the node belongs to a container, false //! otherwise. This function can be used to test whether \c unordered_set::iterator_to //! will return a valid iterator. //! //! Complexity: Constant bool is_linked() const; //! Effects: Removes the node if it's inserted in a container. //! This function is only allowed if link_mode is \c auto_unlink. //! //! Throws: Nothing. void unlink(); #endif }; //! Helper metafunction to define a \c unordered_set_member_hook that yields to the same //! type when the same options (either explicitly or implicitly) are used. #if defined(BOOST_INTRUSIVE_DOXYGEN_INVOKED) || defined(BOOST_INTRUSIVE_VARIADIC_TEMPLATES) template #else template #endif struct make_unordered_set_member_hook { /// @cond typedef typename pack_options < hook_defaults, #if !defined(BOOST_INTRUSIVE_VARIADIC_TEMPLATES) O1, O2, O3, O4 #else Options... #endif >::type packed_options; typedef generic_hook < get_uset_algo_type ::value , typename get_uset_node_traits < typename packed_options::void_pointer , packed_options::store_hash , packed_options::optimize_multikey >::type , member_tag , packed_options::link_mode , NoBaseHookId > implementation_defined; /// @endcond typedef implementation_defined type; }; //! Put a public data member unordered_set_member_hook in order to store objects of this class in //! an unordered_set/unordered_multi_set. unordered_set_member_hook holds the data necessary for maintaining the //! unordered_set/unordered_multi_set and provides an appropriate value_traits class for unordered_set/unordered_multi_set. //! //! The hook admits the following options: \c void_pointer<>, //! \c link_mode<> and \c store_hash<>. //! //! \c void_pointer<> is the pointer type that will be used internally in the hook //! and the container configured to use this hook. //! //! \c link_mode<> will specify the linking mode of the hook (\c normal_link, //! \c auto_unlink or \c safe_link). //! //! \c store_hash<> will tell the hook to store the hash of the value //! to speed up rehashings. #if defined(BOOST_INTRUSIVE_DOXYGEN_INVOKED) || defined(BOOST_INTRUSIVE_VARIADIC_TEMPLATES) template #else template #endif class unordered_set_member_hook : public make_unordered_set_member_hook< #if !defined(BOOST_INTRUSIVE_VARIADIC_TEMPLATES) O1, O2, O3, O4 #else Options... #endif >::type { #if defined(BOOST_INTRUSIVE_DOXYGEN_INVOKED) public: //! Effects: If link_mode is \c auto_unlink or \c safe_link //! initializes the node to an unlinked state. //! //! Throws: Nothing. unordered_set_member_hook(); //! Effects: If link_mode is \c auto_unlink or \c safe_link //! initializes the node to an unlinked state. The argument is ignored. //! //! Throws: Nothing. //! //! Rationale: Providing a copy-constructor //! makes classes using the hook STL-compliant without forcing the //! user to do some additional work. \c swap can be used to emulate //! move-semantics. unordered_set_member_hook(const unordered_set_member_hook& ); //! Effects: Empty function. The argument is ignored. //! //! Throws: Nothing. //! //! Rationale: Providing an assignment operator //! makes classes using the hook STL-compliant without forcing the //! user to do some additional work. \c swap can be used to emulate //! move-semantics. unordered_set_member_hook& operator=(const unordered_set_member_hook& ); //! Effects: If link_mode is \c normal_link, the destructor does //! nothing (ie. no code is generated). If link_mode is \c safe_link and the //! object is stored in an unordered_set an assertion is raised. If link_mode is //! \c auto_unlink and \c is_linked() is true, the node is unlinked. //! //! Throws: Nothing. ~unordered_set_member_hook(); //! Effects: Swapping two nodes swaps the position of the elements //! related to those nodes in one or two containers. That is, if the node //! this is part of the element e1, the node x is part of the element e2 //! and both elements are included in the containers s1 and s2, then after //! the swap-operation e1 is in s2 at the position of e2 and e2 is in s1 //! at the position of e1. If one element is not in a container, then //! after the swap-operation the other element is not in a container. //! Iterators to e1 and e2 related to those nodes are invalidated. //! //! Complexity: Constant //! //! Throws: Nothing. void swap_nodes(unordered_set_member_hook &other); //! Precondition: link_mode must be \c safe_link or \c auto_unlink. //! //! Returns: true, if the node belongs to a container, false //! otherwise. This function can be used to test whether \c unordered_set::iterator_to //! will return a valid iterator. //! //! Complexity: Constant bool is_linked() const; //! Effects: Removes the node if it's inserted in a container. //! This function is only allowed if link_mode is \c auto_unlink. //! //! Throws: Nothing. void unlink(); #endif }; } //namespace intrusive } //namespace boost #include #endif //BOOST_INTRUSIVE_UNORDERED_SET_HOOK_HPP