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// -*- C++ -*- // Copyright (C) 2005, 2006, 2009 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 point_iterators.hpp * Contains an implementation class for bin_search_tree_. */ #ifndef PB_DS_PAT_TRIE_FIND_ITERATORS_HPP #define PB_DS_PAT_TRIE_FIND_ITERATORS_HPP #include <debug/debug.h> namespace __gnu_pbds { namespace detail { #define PB_DS_CONST_IT_C_DEC \ pat_trie_const_it_< \ Type_Traits, \ Node, \ Leaf, \ Head, \ Internal_Node, \ Is_Forward_Iterator, \ Allocator> #define PB_DS_CONST_ODIR_IT_C_DEC \ pat_trie_const_it_< \ Type_Traits, \ Node, \ Leaf, \ Head, \ Internal_Node, \ !Is_Forward_Iterator, \ Allocator> #define PB_DS_IT_C_DEC \ pat_trie_it_< \ Type_Traits, \ Node, \ Leaf, \ Head, \ Internal_Node, \ Is_Forward_Iterator, \ Allocator> #define PB_DS_ODIR_IT_C_DEC \ pat_trie_it_< \ Type_Traits, \ Node, \ Leaf, \ Head, \ Internal_Node, \ !Is_Forward_Iterator, \ Allocator> // Const iterator. template<typename Type_Traits, class Node, class Leaf, class Head, class Internal_Node, bool Is_Forward_Iterator, class Allocator> class pat_trie_const_it_ { private: typedef typename Allocator::template rebind< Node>::other::pointer node_pointer; typedef typename Allocator::template rebind< Leaf>::other::const_pointer const_leaf_pointer; typedef typename Allocator::template rebind< Leaf>::other::pointer leaf_pointer; typedef typename Allocator::template rebind< Head>::other::pointer head_pointer; typedef typename Allocator::template rebind< Internal_Node>::other::pointer internal_node_pointer; public: typedef std::bidirectional_iterator_tag iterator_category; typedef typename Allocator::difference_type difference_type; typedef typename Type_Traits::value_type value_type; typedef typename Type_Traits::pointer pointer; typedef typename Type_Traits::const_pointer const_pointer; typedef typename Type_Traits::reference reference; typedef typename Type_Traits::const_reference const_reference; public: inline pat_trie_const_it_(node_pointer p_nd = NULL) : m_p_nd(p_nd) { } inline pat_trie_const_it_(const PB_DS_CONST_ODIR_IT_C_DEC& other) : m_p_nd(other.m_p_nd) { } inline PB_DS_CONST_IT_C_DEC& operator=(const PB_DS_CONST_IT_C_DEC& other) { m_p_nd = other.m_p_nd; return *this; } inline PB_DS_CONST_IT_C_DEC& operator=(const PB_DS_CONST_ODIR_IT_C_DEC& other) { m_p_nd = other.m_p_nd; return *this; } inline const_pointer operator->() const { _GLIBCXX_DEBUG_ASSERT(m_p_nd->m_type == pat_trie_leaf_node_type); return &static_cast<leaf_pointer>(m_p_nd)->value(); } inline const_reference operator*() const { _GLIBCXX_DEBUG_ASSERT(m_p_nd->m_type == pat_trie_leaf_node_type); return static_cast<leaf_pointer>(m_p_nd)->value(); } inline bool operator==(const PB_DS_CONST_IT_C_DEC& other) const { return (m_p_nd == other.m_p_nd); } inline bool operator==(const PB_DS_CONST_ODIR_IT_C_DEC& other) const { return (m_p_nd == other.m_p_nd); } inline bool operator!=(const PB_DS_CONST_IT_C_DEC& other) const { return (m_p_nd != other.m_p_nd); } inline bool operator!=(const PB_DS_CONST_ODIR_IT_C_DEC& other) const { return (m_p_nd != other.m_p_nd); } inline PB_DS_CONST_IT_C_DEC& operator++() { inc(integral_constant<int,Is_Forward_Iterator>()); return *this; } inline PB_DS_CONST_IT_C_DEC operator++(int) { PB_DS_CONST_IT_C_DEC ret_it(m_p_nd); operator++(); return ret_it; } inline PB_DS_CONST_IT_C_DEC& operator--() { dec(integral_constant<int,Is_Forward_Iterator>()); return *this; } inline PB_DS_CONST_IT_C_DEC operator--(int) { PB_DS_CONST_IT_C_DEC ret_it(m_p_nd); operator--(); return ret_it; } protected: inline void inc(false_type) { dec(true_type()); } void inc(true_type) { if (m_p_nd->m_type == pat_trie_head_node_type) { m_p_nd = static_cast<head_pointer>(m_p_nd)->m_p_min; return; } node_pointer p_y = m_p_nd->m_p_parent; while (p_y->m_type != pat_trie_head_node_type && get_larger_sibling(m_p_nd) == NULL) { m_p_nd = p_y; p_y = p_y->m_p_parent; } if (p_y->m_type == pat_trie_head_node_type) { m_p_nd = p_y; return; } m_p_nd = leftmost_descendant(get_larger_sibling(m_p_nd)); } inline void dec(false_type) { inc(true_type()); } void dec(true_type) { if (m_p_nd->m_type == pat_trie_head_node_type) { m_p_nd = static_cast<head_pointer>(m_p_nd)->m_p_max; return; } node_pointer p_y = m_p_nd->m_p_parent; while (p_y->m_type != pat_trie_head_node_type && get_smaller_sibling(m_p_nd) == NULL) { m_p_nd = p_y; p_y = p_y->m_p_parent; } if (p_y->m_type == pat_trie_head_node_type) { m_p_nd = p_y; return; } m_p_nd = rightmost_descendant(get_smaller_sibling(m_p_nd)); } inline static node_pointer get_larger_sibling(node_pointer p_nd) { internal_node_pointer p_parent = static_cast<internal_node_pointer>(p_nd->m_p_parent); typename Internal_Node::iterator it = p_parent->begin(); while (*it != p_nd) ++it; typename Internal_Node::iterator next_it = it; ++next_it; return ((next_it == p_parent->end())? NULL :* next_it); } inline static node_pointer get_smaller_sibling(node_pointer p_nd) { internal_node_pointer p_parent = static_cast<internal_node_pointer>(p_nd->m_p_parent); typename Internal_Node::iterator it = p_parent->begin(); if (*it == p_nd) return (NULL); typename Internal_Node::iterator prev_it; do { prev_it = it; ++it; if (*it == p_nd) return (*prev_it); } while (true); _GLIBCXX_DEBUG_ASSERT(false); return (NULL); } inline static leaf_pointer leftmost_descendant(node_pointer p_nd) { if (p_nd->m_type == pat_trie_leaf_node_type) return static_cast<leaf_pointer>(p_nd); return static_cast<internal_node_pointer>(p_nd)->leftmost_descendant(); } inline static leaf_pointer rightmost_descendant(node_pointer p_nd) { if (p_nd->m_type == pat_trie_leaf_node_type) return static_cast<leaf_pointer>(p_nd); return static_cast<internal_node_pointer>(p_nd)->rightmost_descendant(); } public: node_pointer m_p_nd; }; // Iterator. template<typename Type_Traits, class Node, class Leaf, class Head, class Internal_Node, bool Is_Forward_Iterator, class Allocator> class pat_trie_it_ : public PB_DS_CONST_IT_C_DEC { private: typedef typename Allocator::template rebind< Node>::other::pointer node_pointer; typedef typename Allocator::template rebind< Leaf>::other::const_pointer const_leaf_pointer; typedef typename Allocator::template rebind< Leaf>::other::pointer leaf_pointer; typedef typename Allocator::template rebind< Head>::other::pointer head_pointer; typedef typename Allocator::template rebind< Internal_Node>::other::pointer internal_node_pointer; public: typedef typename Type_Traits::value_type value_type; typedef typename Type_Traits::const_pointer const_pointer; typedef typename Type_Traits::pointer pointer; typedef typename Type_Traits::const_reference const_reference; typedef typename Type_Traits::reference reference; inline pat_trie_it_(node_pointer p_nd = NULL) : PB_DS_CONST_IT_C_DEC((node_pointer)p_nd) { } inline pat_trie_it_(const PB_DS_ODIR_IT_C_DEC& other) : PB_DS_CONST_IT_C_DEC(other.m_p_nd) { } inline PB_DS_IT_C_DEC& operator=(const PB_DS_IT_C_DEC& other) { base_it_type::m_p_nd = other.m_p_nd; return *this; } inline PB_DS_IT_C_DEC& operator=(const PB_DS_ODIR_IT_C_DEC& other) { base_it_type::m_p_nd = other.m_p_nd; return *this; } inline pointer operator->() const { _GLIBCXX_DEBUG_ASSERT(base_it_type::m_p_nd->m_type == pat_trie_leaf_node_type); return &static_cast<leaf_pointer>(base_it_type::m_p_nd)->value(); } inline reference operator*() const { _GLIBCXX_DEBUG_ASSERT(base_it_type::m_p_nd->m_type == pat_trie_leaf_node_type); return static_cast<leaf_pointer>(base_it_type::m_p_nd)->value(); } inline PB_DS_IT_C_DEC& operator++() { PB_DS_CONST_IT_C_DEC:: operator++(); return *this; } inline PB_DS_IT_C_DEC operator++(int) { PB_DS_IT_C_DEC ret_it(base_it_type::m_p_nd); operator++(); return ret_it; } inline PB_DS_IT_C_DEC& operator--() { PB_DS_CONST_IT_C_DEC::operator--(); return *this; } inline PB_DS_IT_C_DEC operator--(int) { PB_DS_IT_C_DEC ret_it(base_it_type::m_p_nd); operator--(); return ret_it; } protected: typedef PB_DS_CONST_IT_C_DEC base_it_type; friend class PB_DS_CLASS_C_DEC; }; #undef PB_DS_CONST_IT_C_DEC #undef PB_DS_CONST_ODIR_IT_C_DEC #undef PB_DS_IT_C_DEC #undef PB_DS_ODIR_IT_C_DEC } // namespace detail } // namespace __gnu_pbds #endif