mirror of
https://github.com/LadybirdBrowser/ladybird.git
synced 2024-11-11 01:06:01 +03:00
1a28fc3cb5
This also does some east-const changes in TreeNode.
543 lines
16 KiB
C++
543 lines
16 KiB
C++
/*
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* Copyright (c) 2018-2020, Andreas Kling <kling@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/Assertions.h>
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#include <AK/NonnullRefPtr.h>
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#include <AK/TypeCasts.h>
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#include <AK/Weakable.h>
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#include <LibWeb/Forward.h>
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namespace Web {
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template<typename T>
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class TreeNode : public Weakable<T> {
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public:
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void ref()
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{
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VERIFY(!m_in_removed_last_ref);
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VERIFY(m_ref_count);
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++m_ref_count;
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}
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void unref()
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{
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VERIFY(!m_in_removed_last_ref);
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VERIFY(m_ref_count);
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if (!--m_ref_count) {
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if constexpr (IsBaseOf<DOM::Node, T>) {
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m_in_removed_last_ref = true;
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static_cast<T*>(this)->removed_last_ref();
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} else {
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delete static_cast<T*>(this);
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}
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return;
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}
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}
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int ref_count() const { return m_ref_count; }
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T* parent() { return m_parent; }
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const T* parent() const { return m_parent; }
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bool has_children() const { return m_first_child; }
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T* next_sibling() { return m_next_sibling; }
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T* previous_sibling() { return m_previous_sibling; }
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T* first_child() { return m_first_child; }
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T* last_child() { return m_last_child; }
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const T* next_sibling() const { return m_next_sibling; }
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const T* previous_sibling() const { return m_previous_sibling; }
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const T* first_child() const { return m_first_child; }
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const T* last_child() const { return m_last_child; }
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int child_count() const
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{
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int count = 0;
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for (auto* child = first_child(); child; child = child->next_sibling())
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++count;
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return count;
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}
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T* child_at_index(int index)
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{
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int count = 0;
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for (auto* child = first_child(); child; child = child->next_sibling()) {
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if (count == index)
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return child;
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++count;
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}
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return nullptr;
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}
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const T* child_at_index(int index) const
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{
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return const_cast<TreeNode*>(this)->child_at_index(index);
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}
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Optional<size_t> index_of_child(const T& search_child)
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{
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VERIFY(search_child.parent() == this);
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size_t index = 0;
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auto* child = first_child();
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VERIFY(child);
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do {
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if (child == &search_child)
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return index;
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index++;
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} while (child && (child = child->next_sibling()));
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return {};
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}
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template<typename ChildType>
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Optional<size_t> index_of_child(const T& search_child)
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{
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VERIFY(search_child.parent() == this);
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size_t index = 0;
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auto* child = first_child();
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VERIFY(child);
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do {
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if (!is<ChildType>(child))
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continue;
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if (child == &search_child)
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return index;
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index++;
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} while (child && (child = child->next_sibling()));
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return {};
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}
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bool is_ancestor_of(const TreeNode&) const;
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bool is_inclusive_ancestor_of(const TreeNode&) const;
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bool is_descendant_of(const TreeNode&) const;
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bool is_inclusive_descendant_of(const TreeNode&) const;
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void append_child(NonnullRefPtr<T> node);
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void prepend_child(NonnullRefPtr<T> node);
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void insert_before(NonnullRefPtr<T> node, RefPtr<T> child);
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void remove_child(NonnullRefPtr<T> node);
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bool is_child_allowed(const T&) const { return true; }
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T* next_in_pre_order()
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{
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if (first_child())
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return first_child();
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T* node;
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if (!(node = next_sibling())) {
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node = parent();
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while (node && !node->next_sibling())
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node = node->parent();
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if (node)
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node = node->next_sibling();
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}
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return node;
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}
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T const* next_in_pre_order() const
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{
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return const_cast<TreeNode*>(this)->next_in_pre_order();
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}
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T* previous_in_pre_order()
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{
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if (auto* node = previous_sibling()) {
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while (node->last_child())
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node = node->last_child();
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return node;
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}
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return parent();
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}
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T const* previous_in_pre_order() const
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{
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return const_cast<TreeNode*>(this)->previous_in_pre_order();
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}
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bool is_before(T const& other) const
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{
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if (this == &other)
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return false;
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for (auto* node = this; node; node = node->next_in_pre_order()) {
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if (node == &other)
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return true;
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}
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return false;
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}
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// https://dom.spec.whatwg.org/#concept-tree-preceding (Object A is 'typename U' and Object B is 'this')
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template<typename U>
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bool has_preceding_node_of_type_in_tree_order() const
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{
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for (auto* node = previous_in_pre_order(); node; node = node->previous_in_pre_order()) {
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if (is<U>(node))
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return true;
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}
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return false;
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}
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// https://dom.spec.whatwg.org/#concept-tree-following (Object A is 'typename U' and Object B is 'this')
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template<typename U>
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bool has_following_node_of_type_in_tree_order() const
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{
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for (auto* node = next_in_pre_order(); node; node = node->next_in_pre_order()) {
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if (is<U>(node))
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return true;
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}
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return false;
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}
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template<typename Callback>
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IterationDecision for_each_in_inclusive_subtree(Callback callback) const
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{
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if (callback(static_cast<const T&>(*this)) == IterationDecision::Break)
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return IterationDecision::Break;
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for (auto* child = first_child(); child; child = child->next_sibling()) {
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if (child->for_each_in_inclusive_subtree(callback) == IterationDecision::Break)
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return IterationDecision::Break;
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}
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return IterationDecision::Continue;
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}
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template<typename Callback>
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IterationDecision for_each_in_inclusive_subtree(Callback callback)
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{
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if (callback(static_cast<T&>(*this)) == IterationDecision::Break)
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return IterationDecision::Break;
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for (auto* child = first_child(); child; child = child->next_sibling()) {
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if (child->for_each_in_inclusive_subtree(callback) == IterationDecision::Break)
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return IterationDecision::Break;
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}
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return IterationDecision::Continue;
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}
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template<typename U, typename Callback>
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IterationDecision for_each_in_inclusive_subtree_of_type(Callback callback)
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{
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if (is<U>(static_cast<const T&>(*this))) {
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if (callback(static_cast<U&>(*this)) == IterationDecision::Break)
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return IterationDecision::Break;
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}
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for (auto* child = first_child(); child; child = child->next_sibling()) {
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if (child->template for_each_in_inclusive_subtree_of_type<U>(callback) == IterationDecision::Break)
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return IterationDecision::Break;
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}
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return IterationDecision::Continue;
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}
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template<typename U, typename Callback>
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IterationDecision for_each_in_inclusive_subtree_of_type(Callback callback) const
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{
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if (is<U>(static_cast<const T&>(*this))) {
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if (callback(static_cast<const U&>(*this)) == IterationDecision::Break)
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return IterationDecision::Break;
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}
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for (auto* child = first_child(); child; child = child->next_sibling()) {
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if (child->template for_each_in_inclusive_subtree_of_type<U>(callback) == IterationDecision::Break)
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return IterationDecision::Break;
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}
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return IterationDecision::Continue;
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}
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template<typename Callback>
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IterationDecision for_each_in_subtree(Callback callback) const
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{
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for (auto* child = first_child(); child; child = child->next_sibling()) {
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if (child->for_each_in_inclusive_subtree(callback) == IterationDecision::Break)
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return IterationDecision::Break;
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}
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return IterationDecision::Continue;
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}
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template<typename Callback>
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IterationDecision for_each_in_subtree(Callback callback)
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{
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for (auto* child = first_child(); child; child = child->next_sibling()) {
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if (child->for_each_in_inclusive_subtree(callback) == IterationDecision::Break)
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return IterationDecision::Break;
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}
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return IterationDecision::Continue;
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}
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template<typename U, typename Callback>
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IterationDecision for_each_in_subtree_of_type(Callback callback)
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{
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for (auto* child = first_child(); child; child = child->next_sibling()) {
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if (child->template for_each_in_inclusive_subtree_of_type<U>(callback) == IterationDecision::Break)
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return IterationDecision::Break;
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}
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return IterationDecision::Continue;
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}
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template<typename U, typename Callback>
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IterationDecision for_each_in_subtree_of_type(Callback callback) const
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{
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for (auto* child = first_child(); child; child = child->next_sibling()) {
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if (child->template for_each_in_inclusive_subtree_of_type<U>(callback) == IterationDecision::Break)
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return IterationDecision::Break;
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}
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return IterationDecision::Continue;
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}
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template<typename Callback>
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void for_each_child(Callback callback) const
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{
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return const_cast<TreeNode*>(this)->template for_each_child(move(callback));
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}
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template<typename Callback>
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void for_each_child(Callback callback)
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{
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for (auto* node = first_child(); node; node = node->next_sibling())
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callback(*node);
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}
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template<typename U, typename Callback>
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void for_each_child_of_type(Callback callback)
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{
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for (auto* node = first_child(); node; node = node->next_sibling()) {
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if (is<U>(node))
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callback(verify_cast<U>(*node));
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}
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}
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template<typename U, typename Callback>
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void for_each_child_of_type(Callback callback) const
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{
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return const_cast<TreeNode*>(this)->template for_each_child_of_type<U>(move(callback));
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}
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template<typename U>
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const U* next_sibling_of_type() const
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{
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return const_cast<TreeNode*>(this)->template next_sibling_of_type<U>();
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}
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template<typename U>
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inline U* next_sibling_of_type()
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{
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for (auto* sibling = next_sibling(); sibling; sibling = sibling->next_sibling()) {
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if (is<U>(*sibling))
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return &verify_cast<U>(*sibling);
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}
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return nullptr;
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}
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template<typename U>
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const U* previous_sibling_of_type() const
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{
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return const_cast<TreeNode*>(this)->template previous_sibling_of_type<U>();
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}
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template<typename U>
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U* previous_sibling_of_type()
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{
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for (auto* sibling = previous_sibling(); sibling; sibling = sibling->previous_sibling()) {
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if (is<U>(*sibling))
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return &verify_cast<U>(*sibling);
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}
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return nullptr;
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}
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template<typename U>
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const U* first_child_of_type() const
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{
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return const_cast<TreeNode*>(this)->template first_child_of_type<U>();
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}
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template<typename U>
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const U* last_child_of_type() const
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{
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return const_cast<TreeNode*>(this)->template last_child_of_type<U>();
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}
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template<typename U>
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U* first_child_of_type()
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{
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for (auto* child = first_child(); child; child = child->next_sibling()) {
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if (is<U>(*child))
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return &verify_cast<U>(*child);
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}
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return nullptr;
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}
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template<typename U>
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U* last_child_of_type()
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{
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for (auto* child = last_child(); child; child = child->previous_sibling()) {
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if (is<U>(*child))
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return &verify_cast<U>(*child);
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}
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return nullptr;
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}
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template<typename U>
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bool has_child_of_type() const
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{
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return first_child_of_type<U>() != nullptr;
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}
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template<typename U>
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const U* first_ancestor_of_type() const
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{
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return const_cast<TreeNode*>(this)->template first_ancestor_of_type<U>();
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}
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template<typename U>
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U* first_ancestor_of_type()
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{
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for (auto* ancestor = parent(); ancestor; ancestor = ancestor->parent()) {
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if (is<U>(*ancestor))
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return &verify_cast<U>(*ancestor);
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}
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return nullptr;
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}
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~TreeNode()
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{
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VERIFY(!m_parent);
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T* next_child = nullptr;
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for (auto* child = m_first_child; child; child = next_child) {
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next_child = child->m_next_sibling;
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child->m_parent = nullptr;
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child->unref();
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}
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}
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protected:
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TreeNode() { }
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bool m_deletion_has_begun { false };
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bool m_in_removed_last_ref { false };
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private:
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int m_ref_count { 1 };
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T* m_parent { nullptr };
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T* m_first_child { nullptr };
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T* m_last_child { nullptr };
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T* m_next_sibling { nullptr };
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T* m_previous_sibling { nullptr };
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};
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template<typename T>
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inline void TreeNode<T>::remove_child(NonnullRefPtr<T> node)
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{
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VERIFY(node->m_parent == this);
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if (m_first_child == node)
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m_first_child = node->m_next_sibling;
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if (m_last_child == node)
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m_last_child = node->m_previous_sibling;
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if (node->m_next_sibling)
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node->m_next_sibling->m_previous_sibling = node->m_previous_sibling;
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if (node->m_previous_sibling)
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node->m_previous_sibling->m_next_sibling = node->m_next_sibling;
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node->m_next_sibling = nullptr;
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node->m_previous_sibling = nullptr;
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node->m_parent = nullptr;
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node->unref();
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}
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template<typename T>
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inline void TreeNode<T>::append_child(NonnullRefPtr<T> node)
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{
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VERIFY(!node->m_parent);
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if (!static_cast<T*>(this)->is_child_allowed(*node))
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return;
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if (m_last_child)
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m_last_child->m_next_sibling = node.ptr();
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node->m_previous_sibling = m_last_child;
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node->m_parent = static_cast<T*>(this);
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m_last_child = node.ptr();
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if (!m_first_child)
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m_first_child = m_last_child;
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[[maybe_unused]] auto& rc = node.leak_ref();
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}
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template<typename T>
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inline void TreeNode<T>::insert_before(NonnullRefPtr<T> node, RefPtr<T> child)
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{
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if (!child)
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return append_child(move(node));
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VERIFY(!node->m_parent);
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VERIFY(child->parent() == this);
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node->m_previous_sibling = child->m_previous_sibling;
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node->m_next_sibling = child;
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if (child->m_previous_sibling)
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child->m_previous_sibling->m_next_sibling = node;
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if (m_first_child == child)
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m_first_child = node;
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child->m_previous_sibling = node;
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node->m_parent = static_cast<T*>(this);
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[[maybe_unused]] auto& rc = node.leak_ref();
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}
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template<typename T>
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inline void TreeNode<T>::prepend_child(NonnullRefPtr<T> node)
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{
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VERIFY(!node->m_parent);
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if (!static_cast<T*>(this)->is_child_allowed(*node))
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return;
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if (m_first_child)
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m_first_child->m_previous_sibling = node.ptr();
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node->m_next_sibling = m_first_child;
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node->m_parent = static_cast<T*>(this);
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m_first_child = node.ptr();
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if (!m_last_child)
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m_last_child = m_first_child;
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node->inserted_into(static_cast<T&>(*this));
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[[maybe_unused]] auto& rc = node.leak_ref();
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static_cast<T*>(this)->children_changed();
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}
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template<typename T>
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inline bool TreeNode<T>::is_ancestor_of(const TreeNode<T>& other) const
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{
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for (auto* ancestor = other.parent(); ancestor; ancestor = ancestor->parent()) {
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if (ancestor == this)
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return true;
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}
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return false;
|
|
}
|
|
|
|
template<typename T>
|
|
inline bool TreeNode<T>::is_inclusive_ancestor_of(const TreeNode<T>& other) const
|
|
{
|
|
return &other == this || is_ancestor_of(other);
|
|
}
|
|
|
|
template<typename T>
|
|
inline bool TreeNode<T>::is_descendant_of(const TreeNode<T>& other) const
|
|
{
|
|
return other.is_ancestor_of(*this);
|
|
}
|
|
|
|
template<typename T>
|
|
inline bool TreeNode<T>::is_inclusive_descendant_of(const TreeNode<T>& other) const
|
|
{
|
|
return other.is_inclusive_ancestor_of(*this);
|
|
}
|
|
|
|
}
|