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e575ee4462
There was a small mishmash of argument order, as seen on the table: | Traits<T>::equals(U, T) | Traits<T>::equals(T, U) ============= | ======================= | ======================= uses equals() | HashMap | Vector, HashTable defines equals() | *String[^1] | ByteBuffer [^1]: String, DeprecatedString, their Fly-type equivalents and KString. This mostly meant that you couldn't use a StringView for finding a value in Vector<String>. I'm changing the order of arguments to make the trait type itself first (`Traits<T>::equals(T, U)`), as I think it's more expected and makes us more consistent with the rest of the functions that put the stored type first (like StringUtils functions and binary_serach). I've also renamed the variable name "other" in find functions to "entry" to give more importance to the value. With this change, each of the following lines will now compile successfully: Vector<String>().contains_slow("WHF!"sv); HashTable<String>().contains("WHF!"sv); HashMap<ByteBuffer, int>().contains("WHF!"sv.bytes());
307 lines
9.4 KiB
C++
307 lines
9.4 KiB
C++
/*
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* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
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* Copyright (c) 2023, Kenneth Myhra <kennethmyhra@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/HashTable.h>
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#include <AK/Optional.h>
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#include <AK/Vector.h>
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#include <initializer_list>
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namespace AK {
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template<typename K, typename V, typename KeyTraits, typename ValueTraits, bool IsOrdered>
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class HashMap {
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private:
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struct Entry {
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K key;
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V value;
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};
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struct EntryTraits {
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static unsigned hash(Entry const& entry) { return KeyTraits::hash(entry.key); }
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static bool equals(Entry const& a, Entry const& b) { return KeyTraits::equals(a.key, b.key); }
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};
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public:
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using KeyType = K;
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using ValueType = V;
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HashMap() = default;
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HashMap(std::initializer_list<Entry> list)
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{
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MUST(try_ensure_capacity(list.size()));
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for (auto& item : list)
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set(item.key, item.value);
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}
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HashMap(HashMap const&) = default; // FIXME: Not OOM-safe! Use clone() instead.
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HashMap(HashMap&& other) noexcept = default;
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HashMap& operator=(HashMap const& other) = default; // FIXME: Not OOM-safe! Use clone() instead.
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HashMap& operator=(HashMap&& other) noexcept = default;
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[[nodiscard]] bool is_empty() const
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{
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return m_table.is_empty();
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}
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[[nodiscard]] size_t size() const { return m_table.size(); }
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[[nodiscard]] size_t capacity() const { return m_table.capacity(); }
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void clear() { m_table.clear(); }
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void clear_with_capacity() { m_table.clear_with_capacity(); }
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HashSetResult set(K const& key, V const& value) { return m_table.set({ key, value }); }
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HashSetResult set(K const& key, V&& value) { return m_table.set({ key, move(value) }); }
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HashSetResult set(K&& key, V&& value) { return m_table.set({ move(key), move(value) }); }
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ErrorOr<HashSetResult> try_set(K const& key, V const& value) { return m_table.try_set({ key, value }); }
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ErrorOr<HashSetResult> try_set(K const& key, V&& value) { return m_table.try_set({ key, move(value) }); }
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ErrorOr<HashSetResult> try_set(K&& key, V&& value) { return m_table.try_set({ move(key), move(value) }); }
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bool remove(K const& key)
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{
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auto it = find(key);
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if (it != end()) {
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m_table.remove(it);
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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<Concepts::HashCompatible<K> Key>
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requires(IsSame<KeyTraits, Traits<K>>) bool remove(Key const& key)
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{
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auto it = find(key);
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if (it != end()) {
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m_table.remove(it);
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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 TUnaryPredicate>
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bool remove_all_matching(TUnaryPredicate const& predicate)
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{
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return m_table.template remove_all_matching([&](auto& entry) {
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return predicate(entry.key, entry.value);
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});
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}
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using HashTableType = HashTable<Entry, EntryTraits, IsOrdered>;
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using IteratorType = typename HashTableType::Iterator;
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using ConstIteratorType = typename HashTableType::ConstIterator;
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[[nodiscard]] IteratorType begin() { return m_table.begin(); }
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[[nodiscard]] IteratorType end() { return m_table.end(); }
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[[nodiscard]] IteratorType find(K const& key)
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{
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return m_table.find(KeyTraits::hash(key), [&](auto& entry) { return KeyTraits::equals(entry.key, key); });
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}
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template<typename TUnaryPredicate>
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[[nodiscard]] IteratorType find(unsigned hash, TUnaryPredicate predicate)
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{
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return m_table.find(hash, predicate);
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}
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[[nodiscard]] ConstIteratorType begin() const { return m_table.begin(); }
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[[nodiscard]] ConstIteratorType end() const { return m_table.end(); }
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[[nodiscard]] ConstIteratorType find(K const& key) const
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{
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return m_table.find(KeyTraits::hash(key), [&](auto& entry) { return KeyTraits::equals(entry.key, key); });
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}
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template<typename TUnaryPredicate>
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[[nodiscard]] ConstIteratorType find(unsigned hash, TUnaryPredicate predicate) const
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{
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return m_table.find(hash, predicate);
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}
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template<Concepts::HashCompatible<K> Key>
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requires(IsSame<KeyTraits, Traits<K>>) [[nodiscard]] IteratorType find(Key const& key)
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{
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return m_table.find(Traits<Key>::hash(key), [&](auto& entry) { return Traits<K>::equals(entry.key, key); });
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}
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template<Concepts::HashCompatible<K> Key>
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requires(IsSame<KeyTraits, Traits<K>>) [[nodiscard]] ConstIteratorType find(Key const& key) const
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{
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return m_table.find(Traits<Key>::hash(key), [&](auto& entry) { return Traits<K>::equals(entry.key, key); });
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}
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ErrorOr<void> try_ensure_capacity(size_t capacity) { return m_table.try_ensure_capacity(capacity); }
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Optional<typename ValueTraits::ConstPeekType> get(K const& key) const
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requires(!IsPointer<typename ValueTraits::PeekType>)
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{
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auto it = find(key);
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if (it == end())
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return {};
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return (*it).value;
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}
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Optional<typename ValueTraits::ConstPeekType> get(K const& key) const
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requires(IsPointer<typename ValueTraits::PeekType>)
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{
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auto it = find(key);
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if (it == end())
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return {};
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return (*it).value;
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}
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Optional<typename ValueTraits::PeekType> get(K const& key)
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requires(!IsConst<typename ValueTraits::PeekType>)
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{
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auto it = find(key);
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if (it == end())
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return {};
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return (*it).value;
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}
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template<Concepts::HashCompatible<K> Key>
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requires(IsSame<KeyTraits, Traits<K>>) Optional<typename ValueTraits::ConstPeekType> get(Key const& key) const
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requires(!IsPointer<typename ValueTraits::PeekType>)
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{
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auto it = find(key);
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if (it == end())
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return {};
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return (*it).value;
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}
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template<Concepts::HashCompatible<K> Key>
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requires(IsSame<KeyTraits, Traits<K>>) Optional<typename ValueTraits::ConstPeekType> get(Key const& key) const
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requires(IsPointer<typename ValueTraits::PeekType>)
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{
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auto it = find(key);
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if (it == end())
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return {};
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return (*it).value;
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}
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template<Concepts::HashCompatible<K> Key>
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requires(IsSame<KeyTraits, Traits<K>>) Optional<typename ValueTraits::PeekType> get(Key const& key)
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requires(!IsConst<typename ValueTraits::PeekType>)
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{
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auto it = find(key);
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if (it == end())
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return {};
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return (*it).value;
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}
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[[nodiscard]] bool contains(K const& key) const
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{
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return find(key) != end();
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}
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template<Concepts::HashCompatible<K> Key>
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requires(IsSame<KeyTraits, Traits<K>>) [[nodiscard]] bool contains(Key const& value) const
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{
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return find(value) != end();
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}
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void remove(IteratorType it)
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{
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m_table.remove(it);
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}
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Optional<V> take(K const& key)
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{
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if (auto it = find(key); it != end()) {
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auto value = move(it->value);
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m_table.remove(it);
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return value;
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}
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return {};
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}
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template<Concepts::HashCompatible<K> Key>
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requires(IsSame<KeyTraits, Traits<K>>) Optional<V> take(Key const& key)
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{
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if (auto it = find(key); it != end()) {
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auto value = move(it->value);
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m_table.remove(it);
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return value;
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}
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return {};
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}
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V& ensure(K const& key)
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{
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auto it = find(key);
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if (it != end())
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return it->value;
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auto result = set(key, V());
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VERIFY(result == HashSetResult::InsertedNewEntry);
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return find(key)->value;
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}
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template<typename Callback>
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V& ensure(K const& key, Callback initialization_callback)
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{
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auto it = find(key);
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if (it != end())
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return it->value;
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auto result = set(key, initialization_callback());
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VERIFY(result == HashSetResult::InsertedNewEntry);
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return find(key)->value;
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}
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template<typename Callback>
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ErrorOr<V> try_ensure(K const& key, Callback initialization_callback)
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{
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auto it = find(key);
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if (it != end())
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return it->value;
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if constexpr (FallibleFunction<Callback>) {
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auto result = TRY(try_set(key, TRY(initialization_callback())));
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VERIFY(result == HashSetResult::InsertedNewEntry);
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} else {
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auto result = TRY(try_set(key, initialization_callback()));
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VERIFY(result == HashSetResult::InsertedNewEntry);
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}
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return find(key)->value;
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}
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[[nodiscard]] Vector<K> keys() const
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{
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Vector<K> list;
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list.ensure_capacity(size());
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for (auto& it : *this)
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list.unchecked_append(it.key);
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return list;
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}
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[[nodiscard]] u32 hash() const
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{
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u32 hash = 0;
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for (auto& it : *this) {
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auto entry_hash = pair_int_hash(it.key.hash(), it.value.hash());
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hash = pair_int_hash(hash, entry_hash);
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}
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return hash;
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}
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template<typename NewKeyTraits = KeyTraits, typename NewValueTraits = ValueTraits, bool NewIsOrdered = IsOrdered>
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ErrorOr<HashMap<K, V, NewKeyTraits, NewValueTraits, NewIsOrdered>> clone() const
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{
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HashMap<K, V, NewKeyTraits, NewValueTraits, NewIsOrdered> hash_map_clone;
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for (auto& it : *this)
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TRY(hash_map_clone.try_set(it.key, it.value));
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return hash_map_clone;
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}
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private:
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HashTableType m_table;
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};
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}
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#if USING_AK_GLOBALLY
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using AK::HashMap;
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using AK::OrderedHashMap;
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#endif
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