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[/] [altor32/] [trunk/] [gcc-x64/] [or1knd-elf/] [or1knd-elf/] [include/] [c++/] [4.8.0/] [ext/] [pb_ds/] [tag_and_trait.hpp] - Rev 35
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// -*- C++ -*- // Copyright (C) 2005, 2006, 2008, 2009, 2010, 2011 // Free Software Foundation, Inc. // // This file is part of the GNU ISO C++ Library. This library is free // software; you can redistribute it and/or modify it under the terms // of the GNU General Public License as published by the Free Software // Foundation; either version 3, or (at your option) any later // version. // This library is distributed in the hope that it will be useful, but // WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // General Public License for more details. // Under Section 7 of GPL version 3, you are granted additional // permissions described in the GCC Runtime Library Exception, version // 3.1, as published by the Free Software Foundation. // You should have received a copy of the GNU General Public License and // a copy of the GCC Runtime Library Exception along with this program; // see the files COPYING3 and COPYING.RUNTIME respectively. If not, see // <http://www.gnu.org/licenses/>. // Copyright (C) 2004 Ami Tavory and Vladimir Dreizin, IBM-HRL. // Permission to use, copy, modify, sell, and distribute this software // is hereby granted without fee, provided that the above copyright // notice appears in all copies, and that both that copyright notice // and this permission notice appear in supporting documentation. None // of the above authors, nor IBM Haifa Research Laboratories, make any // representation about the suitability of this software for any // purpose. It is provided "as is" without express or implied // warranty. /** * @file tag_and_trait.hpp * Contains tags and traits, e.g., ones describing underlying * data structures. */ #ifndef PB_DS_TAG_AND_TRAIT_HPP #define PB_DS_TAG_AND_TRAIT_HPP #include <bits/c++config.h> #include <ext/pb_ds/detail/type_utils.hpp> /** * @namespace __gnu_pbds * @brief GNU extensions for policy-based data structures for public use. */ namespace __gnu_pbds { /** @defgroup pbds Policy-Based Data Structures * @ingroup extensions * * This is a library of policy-based elementary data structures: * associative containers and priority queues. It is designed for * high-performance, flexibility, semantic safety, and conformance * to the corresponding containers in std (except for some points * where it differs by design). * * For details, see: * http://gcc.gnu.org/onlinedocs/libstdc++/ext/pb_ds/index.html * * @{ */ /** * @defgroup tags Tags * @{ */ /// A trivial iterator tag. Signifies that the iterators has none of /// std::iterators's movement abilities. struct trivial_iterator_tag { }; /// Prohibit moving trivial iterators. typedef void trivial_iterator_difference_type; /** * @defgroup invalidation_tags Invalidation Guarantees * @ingroup tags * @{ */ /** * Signifies a basic invalidation guarantee that any iterator, * pointer, or reference to a container object's mapped value type * is valid as long as the container is not modified. */ struct basic_invalidation_guarantee { }; /** * Signifies an invalidation guarantee that includes all those of * its base, and additionally, that any point-type iterator, * pointer, or reference to a container object's mapped value type * is valid as long as its corresponding entry has not be erased, * regardless of modifications to the container object. */ struct point_invalidation_guarantee : public basic_invalidation_guarantee { }; /** * Signifies an invalidation guarantee that includes all those of * its base, and additionally, that any range-type iterator * (including the returns of begin() and end()) is in the correct * relative positions to other range-type iterators as long as its * corresponding entry has not be erased, regardless of * modifications to the container object. */ struct range_invalidation_guarantee : public point_invalidation_guarantee { }; //@} /** * @defgroup ds_tags Data Structure Type * @ingroup tags * @{ */ /// Base data structure tag. struct container_tag { }; /// Basic sequence. struct sequence_tag : public container_tag { }; /// Basic string container, inclusive of strings, ropes, etc. struct string_tag : public sequence_tag { }; /// Basic associative-container. struct associative_tag : public container_tag { }; /// Basic hash structure. struct basic_hash_tag : public associative_tag { }; /// Collision-chaining hash. struct cc_hash_tag : public basic_hash_tag { }; /// General-probing hash. struct gp_hash_tag : public basic_hash_tag { }; /// Basic branch structure. struct basic_branch_tag : public associative_tag { }; /// Basic tree structure. struct tree_tag : public basic_branch_tag { }; /// Red-black tree. struct rb_tree_tag : public tree_tag { }; /// Splay tree. struct splay_tree_tag : public tree_tag { }; /// Ordered-vector tree. struct ov_tree_tag : public tree_tag { }; /// Basic trie structure. struct trie_tag : public basic_branch_tag { }; /// PATRICIA trie. struct pat_trie_tag : public trie_tag { }; /// List-update. struct list_update_tag : public associative_tag { }; /// Basic priority-queue. struct priority_queue_tag : public container_tag { }; /// Pairing-heap. struct pairing_heap_tag : public priority_queue_tag { }; /// Binomial-heap. struct binomial_heap_tag : public priority_queue_tag { }; /// Redundant-counter binomial-heap. struct rc_binomial_heap_tag : public priority_queue_tag { }; /// Binary-heap (array-based). struct binary_heap_tag : public priority_queue_tag { }; /// Thin heap. struct thin_heap_tag : public priority_queue_tag { }; //@} //@} /** * @defgroup traits Traits * @{ */ /** * @brief Represents no type, or absence of type, for template tricks. * * In a mapped-policy, indicates that an associative container is a set. * * In a list-update policy, indicates that each link does not need * metadata. * * In a hash policy, indicates that the combining hash function * is actually a ranged hash function. * * In a probe policy, indicates that the combining probe function * is actually a ranged probe function. */ struct null_type { }; /// A null node updator, indicating that no node updates are required. template<typename _Tp1, typename _Tp2, typename _Tp3, typename _Tp4> struct null_node_update : public null_type { }; /// Primary template, container traits base. template<typename _Tag> struct container_traits_base; /// Specialization, cc hash. template<> struct container_traits_base<cc_hash_tag> { typedef cc_hash_tag container_category; typedef point_invalidation_guarantee invalidation_guarantee; enum { order_preserving = false, erase_can_throw = false, split_join_can_throw = false, reverse_iteration = false }; }; /// Specialization, gp hash. template<> struct container_traits_base<gp_hash_tag> { typedef gp_hash_tag container_category; typedef basic_invalidation_guarantee invalidation_guarantee; enum { order_preserving = false, erase_can_throw = false, split_join_can_throw = false, reverse_iteration = false }; }; /// Specialization, rb tree. template<> struct container_traits_base<rb_tree_tag> { typedef rb_tree_tag container_category; typedef range_invalidation_guarantee invalidation_guarantee; enum { order_preserving = true, erase_can_throw = false, split_join_can_throw = false, reverse_iteration = true }; }; /// Specialization, splay tree. template<> struct container_traits_base<splay_tree_tag> { typedef splay_tree_tag container_category; typedef range_invalidation_guarantee invalidation_guarantee; enum { order_preserving = true, erase_can_throw = false, split_join_can_throw = false, reverse_iteration = true }; }; /// Specialization, ov tree. template<> struct container_traits_base<ov_tree_tag> { typedef ov_tree_tag container_category; typedef basic_invalidation_guarantee invalidation_guarantee; enum { order_preserving = true, erase_can_throw = true, split_join_can_throw = true, reverse_iteration = false }; }; /// Specialization, pat trie. template<> struct container_traits_base<pat_trie_tag> { typedef pat_trie_tag container_category; typedef range_invalidation_guarantee invalidation_guarantee; enum { order_preserving = true, erase_can_throw = false, split_join_can_throw = true, reverse_iteration = true }; }; /// Specialization, list update. template<> struct container_traits_base<list_update_tag> { typedef list_update_tag container_category; typedef point_invalidation_guarantee invalidation_guarantee; enum { order_preserving = false, erase_can_throw = false, split_join_can_throw = false, reverse_iteration = false }; }; /// Specialization, pairing heap. template<> struct container_traits_base<pairing_heap_tag> { typedef pairing_heap_tag container_category; typedef point_invalidation_guarantee invalidation_guarantee; enum { order_preserving = false, erase_can_throw = false, split_join_can_throw = false, reverse_iteration = false }; }; /// Specialization, thin heap. template<> struct container_traits_base<thin_heap_tag> { typedef thin_heap_tag container_category; typedef point_invalidation_guarantee invalidation_guarantee; enum { order_preserving = false, erase_can_throw = false, split_join_can_throw = false, reverse_iteration = false }; }; /// Specialization, binomial heap. template<> struct container_traits_base<binomial_heap_tag> { typedef binomial_heap_tag container_category; typedef point_invalidation_guarantee invalidation_guarantee; enum { order_preserving = false, erase_can_throw = false, split_join_can_throw = false, reverse_iteration = false }; }; /// Specialization, rc binomial heap. template<> struct container_traits_base<rc_binomial_heap_tag> { typedef rc_binomial_heap_tag container_category; typedef point_invalidation_guarantee invalidation_guarantee; enum { order_preserving = false, erase_can_throw = false, split_join_can_throw = false, reverse_iteration = false }; }; /// Specialization, binary heap. template<> struct container_traits_base<binary_heap_tag> { typedef binary_heap_tag container_category; typedef basic_invalidation_guarantee invalidation_guarantee; enum { order_preserving = false, erase_can_throw = false, split_join_can_throw = true, reverse_iteration = false }; }; /// Container traits. // See Matt Austern for the name, S. Meyers MEFC++ #2, others. template<typename Cntnr> struct container_traits : public container_traits_base<typename Cntnr::container_category> { typedef Cntnr container_type; typedef typename Cntnr::container_category container_category; typedef container_traits_base<container_category> base_type; typedef typename base_type::invalidation_guarantee invalidation_guarantee; enum { /// True only if Cntnr objects guarantee storing keys by order. order_preserving = base_type::order_preserving, /// True only if erasing a key can throw. erase_can_throw = base_type::erase_can_throw, /// True only if split or join operations can throw. split_join_can_throw = base_type::split_join_can_throw, /// True only reverse iterators are supported. reverse_iteration = base_type::reverse_iteration }; }; //@} namespace detail { /// Dispatch mechanism, primary template for associative types. template<typename Key, typename Mapped, typename _Alloc, typename Tag, typename Policy_Tl = null_type> struct container_base_dispatch; } // namespace __detail //@} } // namespace __gnu_pbds #endif