mirror of
https://github.com/SerenityOS/serenity
synced 2024-11-05 17:46:52 +00:00
f90c224fc5
This reverts commit 4378d36f67
.
175 lines
4.7 KiB
C++
175 lines
4.7 KiB
C++
/*
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* Copyright (c) 2021, Idan Horowitz <idan.horowitz@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#pragma once
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#include <AK/RedBlackTree.h>
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namespace AK {
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template<Integral K>
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class IntrusiveRedBlackTreeNode;
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template<Integral K, typename V, IntrusiveRedBlackTreeNode<K> V::*member>
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class IntrusiveRedBlackTree : public BaseRedBlackTree<K> {
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public:
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IntrusiveRedBlackTree() = default;
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virtual ~IntrusiveRedBlackTree() override
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{
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clear();
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}
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using BaseTree = BaseRedBlackTree<K>;
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using TreeNode = IntrusiveRedBlackTreeNode<K>;
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V* find(K key)
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{
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auto* node = static_cast<TreeNode*>(BaseTree::find(this->m_root, key));
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if (!node)
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return nullptr;
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return node_to_value(*node);
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}
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V* find_largest_not_above(K key)
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{
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auto* node = static_cast<TreeNode*>(BaseTree::find_largest_not_above(this->m_root, key));
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if (!node)
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return nullptr;
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return node_to_value(*node);
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}
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void insert(V& value)
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{
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auto& node = value.*member;
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BaseTree::insert(&node);
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node.m_in_tree = true;
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}
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template<typename ElementType>
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class BaseIterator {
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public:
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BaseIterator() = default;
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bool operator!=(const BaseIterator& other) const { return m_node != other.m_node; }
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BaseIterator& operator++()
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{
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if (!m_node)
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return *this;
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m_prev = m_node;
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// the complexity is O(logn) for each successor call, but the total complexity for all elements comes out to O(n), meaning the amortized cost for a single call is O(1)
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m_node = static_cast<TreeNode*>(BaseTree::successor(m_node));
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return *this;
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}
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BaseIterator& operator--()
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{
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if (!m_prev)
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return *this;
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m_node = m_prev;
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m_prev = static_cast<TreeNode*>(BaseTree::predecessor(m_prev));
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return *this;
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}
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ElementType& operator*()
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{
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VERIFY(m_node);
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return *node_to_value(*m_node);
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}
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ElementType* operator->()
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{
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VERIFY(m_node);
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return node_to_value(*m_node);
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}
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[[nodiscard]] bool is_end() const { return !m_node; }
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[[nodiscard]] bool is_begin() const { return !m_prev; }
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private:
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friend class IntrusiveRedBlackTree;
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explicit BaseIterator(TreeNode* node, TreeNode* prev = nullptr)
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: m_node(node)
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, m_prev(prev)
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{
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}
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TreeNode* m_node { nullptr };
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TreeNode* m_prev { nullptr };
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};
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using Iterator = BaseIterator<V>;
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Iterator begin() { return Iterator(static_cast<TreeNode*>(this->m_minimum)); }
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Iterator end() { return {}; }
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Iterator begin_from(K key) { return Iterator(static_cast<TreeNode*>(BaseTree::find(this->m_root, key))); }
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using ConstIterator = BaseIterator<const V>;
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ConstIterator begin() const { return ConstIterator(static_cast<TreeNode*>(this->m_minimum)); }
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ConstIterator end() const { return {}; }
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ConstIterator begin_from(K key) const { return ConstIterator(static_cast<TreeNode*>(BaseTree::find(this->m_rootF, key))); }
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bool remove(K key)
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{
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auto* node = static_cast<TreeNode*>(BaseTree::find(this->m_root, key));
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if (!node)
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return false;
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BaseTree::remove(node);
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node->right_child = nullptr;
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node->left_child = nullptr;
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node->m_in_tree = false;
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return true;
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}
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void clear()
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{
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clear_nodes(static_cast<TreeNode*>(this->m_root));
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this->m_root = nullptr;
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this->m_minimum = nullptr;
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this->m_size = 0;
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}
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private:
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static void clear_nodes(TreeNode* node)
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{
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if (!node)
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return;
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clear_nodes(static_cast<TreeNode*>(node->right_child));
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node->right_child = nullptr;
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clear_nodes(static_cast<TreeNode*>(node->left_child));
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node->left_child = nullptr;
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node->m_in_tree = false;
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}
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static V* node_to_value(TreeNode& node)
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{
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return (V*)((u8*)&node - ((u8*)&(((V*)nullptr)->*member) - (u8*)nullptr));
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}
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};
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template<Integral K>
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class IntrusiveRedBlackTreeNode : public BaseRedBlackTree<K>::Node {
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public:
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IntrusiveRedBlackTreeNode(K key)
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: BaseRedBlackTree<K>::Node(key)
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{
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}
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~IntrusiveRedBlackTreeNode()
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{
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VERIFY(!is_in_tree());
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}
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bool is_in_tree()
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{
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return m_in_tree;
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}
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private:
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template<Integral TK, typename V, IntrusiveRedBlackTreeNode<TK> V::*member>
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friend class IntrusiveRedBlackTree;
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bool m_in_tree { false };
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};
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}
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using AK::IntrusiveRedBlackTree;
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using AK::IntrusiveRedBlackTreeNode;
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