mirror of
https://sourceware.org/git/binutils-gdb.git
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50b032ebc0
Tromey noticed that intrusive_list_node leaves its data members public, which seems sub-optimal. This commit makes intrusive_list_node's data fields private. intrusive_list_iterator, intrusive_list_reverse_iterator, and intrusive_list do need to access the fields, so they are made friends. Change-Id: Ia8b306b40344cc218d423c8dfb8355207a612ac5
598 lines
14 KiB
C++
598 lines
14 KiB
C++
/* Intrusive double linked list for GDB, the GNU debugger.
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Copyright (C) 2021-2022 Free Software Foundation, Inc.
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This file is part of GDB.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>. */
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#ifndef GDBSUPPORT_INTRUSIVE_LIST_H
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#define GDBSUPPORT_INTRUSIVE_LIST_H
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#define INTRUSIVE_LIST_UNLINKED_VALUE ((T *) -1)
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/* A list node. The elements put in an intrusive_list either inherit
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from this, or have a field of this type. */
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template<typename T>
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class intrusive_list_node
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{
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public:
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bool is_linked () const
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{
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return next != INTRUSIVE_LIST_UNLINKED_VALUE;
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}
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private:
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T *next = INTRUSIVE_LIST_UNLINKED_VALUE;
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T *prev = INTRUSIVE_LIST_UNLINKED_VALUE;
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template<typename T2, typename AsNode>
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friend struct intrusive_list_iterator;
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template<typename T2, typename AsNode>
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friend struct intrusive_list_reverse_iterator;
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template<typename T2, typename AsNode>
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friend struct intrusive_list;
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};
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/* Follows a couple types used by intrusive_list as template parameter to find
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the intrusive_list_node for a given element. One for lists where the
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elements inherit intrusive_list_node, and another for elements that keep the
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node as member field. */
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/* For element types that inherit from intrusive_list_node. */
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template<typename T>
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struct intrusive_base_node
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{
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static intrusive_list_node<T> *as_node (T *elem)
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{ return elem; }
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};
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/* For element types that keep the node as member field. */
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template<typename T, intrusive_list_node<T> T::*MemberNode>
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struct intrusive_member_node
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{
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static intrusive_list_node<T> *as_node (T *elem)
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{ return &(elem->*MemberNode); }
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};
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/* Common code for forward and reverse iterators. */
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template<typename T, typename AsNode, typename SelfType>
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struct intrusive_list_base_iterator
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{
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using self_type = SelfType;
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using iterator_category = std::bidirectional_iterator_tag;
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using value_type = T;
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using pointer = T *;
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using const_pointer = const T *;
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using reference = T &;
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using const_reference = const T &;
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using difference_type = ptrdiff_t;
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using size_type = size_t;
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using node_type = intrusive_list_node<T>;
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/* Create an iterator pointing to ELEM. */
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explicit intrusive_list_base_iterator (T *elem)
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: m_elem (elem)
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{}
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/* Create a past-the-end iterator. */
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intrusive_list_base_iterator ()
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: m_elem (nullptr)
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{}
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reference operator* () const
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{ return *m_elem; }
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pointer operator-> () const
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{ return m_elem; }
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bool operator== (const self_type &other) const
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{ return m_elem == other.m_elem; }
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bool operator!= (const self_type &other) const
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{ return m_elem != other.m_elem; }
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protected:
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static node_type *as_node (T *elem)
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{ return AsNode::as_node (elem); }
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/* A past-end-the iterator points to the list's head. */
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pointer m_elem;
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};
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/* Forward iterator for an intrusive_list. */
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template<typename T, typename AsNode = intrusive_base_node<T>>
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struct intrusive_list_iterator
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: public intrusive_list_base_iterator
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<T, AsNode, intrusive_list_iterator<T, AsNode>>
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{
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using base = intrusive_list_base_iterator
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<T, AsNode, intrusive_list_iterator<T, AsNode>>;
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using self_type = typename base::self_type;
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using node_type = typename base::node_type;
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/* Inherit constructor and M_NODE visibility from base. */
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using base::base;
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using base::m_elem;
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self_type &operator++ ()
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{
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node_type *node = this->as_node (m_elem);
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m_elem = node->next;
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return *this;
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}
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self_type operator++ (int)
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{
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self_type temp = *this;
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node_type *node = this->as_node (m_elem);
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m_elem = node->next;
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return temp;
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}
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self_type &operator-- ()
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{
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node_type *node = this->as_node (m_elem);
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m_elem = node->prev;
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return *this;
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}
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self_type operator-- (int)
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{
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self_type temp = *this;
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node_type *node = this->as_node (m_elem);
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m_elem = node->prev;
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return temp;
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}
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};
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/* Reverse iterator for an intrusive_list. */
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template<typename T, typename AsNode = intrusive_base_node<T>>
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struct intrusive_list_reverse_iterator
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: public intrusive_list_base_iterator
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<T, AsNode, intrusive_list_reverse_iterator<T, AsNode>>
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{
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using base = intrusive_list_base_iterator
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<T, AsNode, intrusive_list_reverse_iterator<T, AsNode>>;
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using self_type = typename base::self_type;
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/* Inherit constructor and M_NODE visibility from base. */
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using base::base;
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using base::m_elem;
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using node_type = typename base::node_type;
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self_type &operator++ ()
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{
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node_type *node = this->as_node (m_elem);
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m_elem = node->prev;
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return *this;
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}
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self_type operator++ (int)
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{
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self_type temp = *this;
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node_type *node = this->as_node (m_elem);
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m_elem = node->prev;
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return temp;
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}
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self_type &operator-- ()
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{
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node_type *node = this->as_node (m_elem);
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m_elem = node->next;
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return *this;
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}
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self_type operator-- (int)
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{
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self_type temp = *this;
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node_type *node = this->as_node (m_elem);
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m_elem = node->next;
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return temp;
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}
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};
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/* An intrusive double-linked list.
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T is the type of the elements to link. The type T must either:
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- inherit from intrusive_list_node<T>
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- have an intrusive_list_node<T> member
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AsNode is a type with an as_node static method used to get a node from an
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element. If elements inherit from intrusive_list_node<T>, use the default
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intrusive_base_node<T>. If elements have an intrusive_list_node<T> member,
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use:
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intrusive_member_node<T, &T::member>
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where `member` is the name of the member. */
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template <typename T, typename AsNode = intrusive_base_node<T>>
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class intrusive_list
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{
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public:
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using value_type = T;
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using pointer = T *;
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using const_pointer = const T *;
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using reference = T &;
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using const_reference = const T &;
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using difference_type = ptrdiff_t;
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using size_type = size_t;
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using iterator = intrusive_list_iterator<T, AsNode>;
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using reverse_iterator = intrusive_list_reverse_iterator<T, AsNode>;
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using const_iterator = const intrusive_list_iterator<T, AsNode>;
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using const_reverse_iterator
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= const intrusive_list_reverse_iterator<T, AsNode>;
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using node_type = intrusive_list_node<T>;
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intrusive_list () = default;
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~intrusive_list ()
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{
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clear ();
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}
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intrusive_list (intrusive_list &&other)
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: m_front (other.m_front),
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m_back (other.m_back)
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{
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other.m_front = nullptr;
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other.m_back = nullptr;
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}
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intrusive_list &operator= (intrusive_list &&other)
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{
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m_front = other.m_front;
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m_back = other.m_back;
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other.m_front = nullptr;
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other.m_back = nullptr;
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return *this;
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}
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void swap (intrusive_list &other)
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{
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std::swap (m_front, other.m_front);
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std::swap (m_back, other.m_back);
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}
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iterator iterator_to (reference value)
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{
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return iterator (&value);
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}
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const_iterator iterator_to (const_reference value)
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{
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return const_iterator (&value);
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}
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reference front ()
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{
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gdb_assert (!this->empty ());
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return *m_front;
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}
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const_reference front () const
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{
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gdb_assert (!this->empty ());
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return *m_front;
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}
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reference back ()
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{
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gdb_assert (!this->empty ());
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return *m_back;
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}
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const_reference back () const
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{
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gdb_assert (!this->empty ());
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return *m_back;
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}
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void push_front (reference elem)
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{
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intrusive_list_node<T> *elem_node = as_node (&elem);
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gdb_assert (elem_node->next == INTRUSIVE_LIST_UNLINKED_VALUE);
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gdb_assert (elem_node->prev == INTRUSIVE_LIST_UNLINKED_VALUE);
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if (this->empty ())
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this->push_empty (elem);
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else
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this->push_front_non_empty (elem);
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}
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void push_back (reference elem)
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{
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intrusive_list_node<T> *elem_node = as_node (&elem);
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gdb_assert (elem_node->next == INTRUSIVE_LIST_UNLINKED_VALUE);
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gdb_assert (elem_node->prev == INTRUSIVE_LIST_UNLINKED_VALUE);
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if (this->empty ())
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this->push_empty (elem);
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else
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this->push_back_non_empty (elem);
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}
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/* Inserts ELEM before POS. */
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void insert (const_iterator pos, reference elem)
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{
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if (this->empty ())
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return this->push_empty (elem);
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if (pos == this->begin ())
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return this->push_front_non_empty (elem);
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if (pos == this->end ())
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return this->push_back_non_empty (elem);
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intrusive_list_node<T> *elem_node = as_node (&elem);
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T *pos_elem = &*pos;
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intrusive_list_node<T> *pos_node = as_node (pos_elem);
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T *prev_elem = pos_node->prev;
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intrusive_list_node<T> *prev_node = as_node (prev_elem);
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gdb_assert (elem_node->next == INTRUSIVE_LIST_UNLINKED_VALUE);
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gdb_assert (elem_node->prev == INTRUSIVE_LIST_UNLINKED_VALUE);
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elem_node->prev = prev_elem;
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prev_node->next = &elem;
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elem_node->next = pos_elem;
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pos_node->prev = &elem;
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}
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/* Move elements from LIST at the end of the current list. */
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void splice (intrusive_list &&other)
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{
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if (other.empty ())
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return;
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if (this->empty ())
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{
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*this = std::move (other);
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return;
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}
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/* [A ... B] + [C ... D] */
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T *b_elem = m_back;
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node_type *b_node = as_node (b_elem);
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T *c_elem = other.m_front;
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node_type *c_node = as_node (c_elem);
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T *d_elem = other.m_back;
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b_node->next = c_elem;
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c_node->prev = b_elem;
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m_back = d_elem;
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other.m_front = nullptr;
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other.m_back = nullptr;
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}
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void pop_front ()
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{
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gdb_assert (!this->empty ());
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erase_element (*m_front);
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}
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void pop_back ()
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{
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gdb_assert (!this->empty ());
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erase_element (*m_back);
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}
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private:
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/* Push ELEM in the list, knowing the list is empty. */
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void push_empty (T &elem)
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{
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gdb_assert (this->empty ());
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intrusive_list_node<T> *elem_node = as_node (&elem);
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gdb_assert (elem_node->next == INTRUSIVE_LIST_UNLINKED_VALUE);
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gdb_assert (elem_node->prev == INTRUSIVE_LIST_UNLINKED_VALUE);
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m_front = &elem;
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m_back = &elem;
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elem_node->prev = nullptr;
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elem_node->next = nullptr;
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}
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/* Push ELEM at the front of the list, knowing the list is not empty. */
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void push_front_non_empty (T &elem)
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{
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gdb_assert (!this->empty ());
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intrusive_list_node<T> *elem_node = as_node (&elem);
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intrusive_list_node<T> *front_node = as_node (m_front);
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gdb_assert (elem_node->next == INTRUSIVE_LIST_UNLINKED_VALUE);
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gdb_assert (elem_node->prev == INTRUSIVE_LIST_UNLINKED_VALUE);
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elem_node->next = m_front;
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front_node->prev = &elem;
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elem_node->prev = nullptr;
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m_front = &elem;
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}
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/* Push ELEM at the back of the list, knowing the list is not empty. */
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void push_back_non_empty (T &elem)
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{
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gdb_assert (!this->empty ());
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intrusive_list_node<T> *elem_node = as_node (&elem);
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intrusive_list_node<T> *back_node = as_node (m_back);
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gdb_assert (elem_node->next == INTRUSIVE_LIST_UNLINKED_VALUE);
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gdb_assert (elem_node->prev == INTRUSIVE_LIST_UNLINKED_VALUE);
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elem_node->prev = m_back;
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back_node->next = &elem;
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elem_node->next = nullptr;
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m_back = &elem;
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}
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void erase_element (T &elem)
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{
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intrusive_list_node<T> *elem_node = as_node (&elem);
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gdb_assert (elem_node->prev != INTRUSIVE_LIST_UNLINKED_VALUE);
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gdb_assert (elem_node->next != INTRUSIVE_LIST_UNLINKED_VALUE);
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if (m_front == &elem)
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{
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gdb_assert (elem_node->prev == nullptr);
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m_front = elem_node->next;
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}
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else
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{
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gdb_assert (elem_node->prev != nullptr);
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intrusive_list_node<T> *prev_node = as_node (elem_node->prev);
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prev_node->next = elem_node->next;
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}
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if (m_back == &elem)
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{
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gdb_assert (elem_node->next == nullptr);
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m_back = elem_node->prev;
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}
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else
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{
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gdb_assert (elem_node->next != nullptr);
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intrusive_list_node<T> *next_node = as_node (elem_node->next);
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next_node->prev = elem_node->prev;
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}
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elem_node->next = INTRUSIVE_LIST_UNLINKED_VALUE;
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elem_node->prev = INTRUSIVE_LIST_UNLINKED_VALUE;
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}
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public:
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/* Remove the element pointed by I from the list. The element
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pointed by I is not destroyed. */
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iterator erase (const_iterator i)
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{
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iterator ret = i;
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++ret;
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erase_element (*i);
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return ret;
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}
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/* Erase all the elements. The elements are not destroyed. */
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void clear ()
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{
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while (!this->empty ())
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pop_front ();
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}
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/* Erase all the elements. Disposer::operator()(pointer) is called
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for each of the removed elements. */
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template<typename Disposer>
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void clear_and_dispose (Disposer disposer)
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{
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while (!this->empty ())
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{
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pointer p = &front ();
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pop_front ();
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disposer (p);
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}
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}
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bool empty () const
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{
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return m_front == nullptr;
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}
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iterator begin () noexcept
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{
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return iterator (m_front);
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}
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const_iterator begin () const noexcept
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{
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return const_iterator (m_front);
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}
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const_iterator cbegin () const noexcept
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{
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return const_iterator (m_front);
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}
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iterator end () noexcept
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{
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return {};
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}
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const_iterator end () const noexcept
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{
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return {};
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}
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const_iterator cend () const noexcept
|
|
{
|
|
return {};
|
|
}
|
|
|
|
reverse_iterator rbegin () noexcept
|
|
{
|
|
return reverse_iterator (m_back);
|
|
}
|
|
|
|
const_reverse_iterator rbegin () const noexcept
|
|
{
|
|
return const_reverse_iterator (m_back);
|
|
}
|
|
|
|
const_reverse_iterator crbegin () const noexcept
|
|
{
|
|
return const_reverse_iterator (m_back);
|
|
}
|
|
|
|
reverse_iterator rend () noexcept
|
|
{
|
|
return {};
|
|
}
|
|
|
|
const_reverse_iterator rend () const noexcept
|
|
{
|
|
return {};
|
|
}
|
|
|
|
const_reverse_iterator crend () const noexcept
|
|
{
|
|
return {};
|
|
}
|
|
|
|
private:
|
|
static node_type *as_node (T *elem)
|
|
{
|
|
return AsNode::as_node (elem);
|
|
}
|
|
|
|
T *m_front = nullptr;
|
|
T *m_back = nullptr;
|
|
};
|
|
|
|
#endif /* GDBSUPPORT_INTRUSIVE_LIST_H */
|