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f2336d0144
`OwnPtrWithCustomDeleter` was a decorator which provided the ability to add a custom deleter to `OwnPtr` by wrapping and taking the deleter as a run-time argument to the constructor. This solution means that no additional space is needed for the `OwnPtr` because it doesn't need to store a pointer to the deleter, but comes at the cost of having an extra type that stores a pointer for every instance. This logic is moved directly into `OwnPtr` by adding a template argument that is defaulted to the default deleter for the type. This means that the type itself stores the pointer to the deleter instead of every instance and adds some type safety by encoding the deleter in the type itself instead of taking a run-time argument.
233 lines
5 KiB
C++
233 lines
5 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/Error.h>
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#include <AK/Forward.h>
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#include <AK/NonnullOwnPtr.h>
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#include <AK/RefCounted.h>
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#define OWNPTR_SCRUB_BYTE 0xf0
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namespace AK {
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template<typename T, typename TDeleter>
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class [[nodiscard]] OwnPtr {
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public:
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OwnPtr() = default;
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OwnPtr(decltype(nullptr))
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: m_ptr(nullptr)
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{
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}
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OwnPtr(OwnPtr&& other)
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: m_ptr(other.leak_ptr())
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{
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}
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template<typename U>
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OwnPtr(NonnullOwnPtr<U>&& other)
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: m_ptr(other.leak_ptr())
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{
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}
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template<typename U>
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OwnPtr(OwnPtr<U>&& other)
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: m_ptr(other.leak_ptr())
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{
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}
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~OwnPtr()
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{
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clear();
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#ifdef SANITIZE_PTRS
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m_ptr = (T*)(explode_byte(OWNPTR_SCRUB_BYTE));
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#endif
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}
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OwnPtr(OwnPtr const&) = delete;
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template<typename U>
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OwnPtr(OwnPtr<U> const&) = delete;
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OwnPtr& operator=(OwnPtr const&) = delete;
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template<typename U>
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OwnPtr& operator=(OwnPtr<U> const&) = delete;
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template<typename U>
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OwnPtr(NonnullOwnPtr<U> const&) = delete;
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template<typename U>
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OwnPtr& operator=(NonnullOwnPtr<U> const&) = delete;
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template<typename U>
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OwnPtr(RefPtr<U> const&) = delete;
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template<typename U>
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OwnPtr(NonnullRefPtr<U> const&) = delete;
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template<typename U>
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OwnPtr(WeakPtr<U> const&) = delete;
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template<typename U>
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OwnPtr& operator=(RefPtr<U> const&) = delete;
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template<typename U>
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OwnPtr& operator=(NonnullRefPtr<U> const&) = delete;
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template<typename U>
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OwnPtr& operator=(WeakPtr<U> const&) = delete;
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OwnPtr& operator=(OwnPtr&& other)
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{
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OwnPtr ptr(move(other));
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swap(ptr);
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return *this;
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}
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template<typename U>
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OwnPtr& operator=(OwnPtr<U>&& other)
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{
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OwnPtr ptr(move(other));
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swap(ptr);
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return *this;
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}
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template<typename U>
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OwnPtr& operator=(NonnullOwnPtr<U>&& other)
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{
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OwnPtr ptr(move(other));
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swap(ptr);
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VERIFY(m_ptr);
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return *this;
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}
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OwnPtr& operator=(T* ptr) = delete;
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OwnPtr& operator=(nullptr_t)
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{
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clear();
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return *this;
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}
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void clear()
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{
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TDeleter {}(m_ptr);
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m_ptr = nullptr;
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}
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bool operator!() const { return !m_ptr; }
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[[nodiscard]] T* leak_ptr()
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{
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T* leaked_ptr = m_ptr;
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m_ptr = nullptr;
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return leaked_ptr;
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}
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NonnullOwnPtr<T> release_nonnull()
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{
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VERIFY(m_ptr);
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return NonnullOwnPtr<T>(NonnullOwnPtr<T>::Adopt, *leak_ptr());
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}
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template<typename U>
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NonnullOwnPtr<U> release_nonnull()
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{
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VERIFY(m_ptr);
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return NonnullOwnPtr<U>(NonnullOwnPtr<U>::Adopt, static_cast<U&>(*leak_ptr()));
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}
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T* ptr() const { return m_ptr; }
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T* operator->() const
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{
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VERIFY(m_ptr);
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return m_ptr;
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}
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T& operator*() const
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{
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VERIFY(m_ptr);
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return *m_ptr;
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}
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operator T*() const { return m_ptr; }
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operator bool() { return !!m_ptr; }
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void swap(OwnPtr& other)
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{
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::swap(m_ptr, other.m_ptr);
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}
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template<typename U>
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void swap(OwnPtr<U>& other)
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{
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::swap(m_ptr, other.m_ptr);
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}
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static OwnPtr lift(T* ptr)
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{
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return OwnPtr { ptr };
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}
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protected:
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explicit OwnPtr(T* ptr)
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: m_ptr(ptr)
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{
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static_assert(
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requires { requires typename T::AllowOwnPtr()(); } || !requires { requires !typename T::AllowOwnPtr()(); declval<T>().ref(); declval<T>().unref(); }, "Use RefPtr<> for RefCounted types");
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}
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private:
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T* m_ptr = nullptr;
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};
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template<typename T, typename U>
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inline void swap(OwnPtr<T>& a, OwnPtr<U>& b)
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{
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a.swap(b);
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}
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template<typename T>
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inline OwnPtr<T> adopt_own_if_nonnull(T* object)
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{
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if (object)
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return OwnPtr<T>::lift(object);
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return {};
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}
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template<typename T>
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inline ErrorOr<NonnullOwnPtr<T>> adopt_nonnull_own_or_enomem(T* object)
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{
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auto result = adopt_own_if_nonnull(object);
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if (!result)
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return Error::from_errno(ENOMEM);
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return result.release_nonnull();
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}
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template<typename T, class... Args>
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requires(IsConstructible<T, Args...>) inline ErrorOr<NonnullOwnPtr<T>> try_make(Args&&... args)
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{
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return adopt_nonnull_own_or_enomem(new (nothrow) T(forward<Args>(args)...));
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}
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// FIXME: Remove once P0960R3 is available in Clang.
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template<typename T, class... Args>
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inline ErrorOr<NonnullOwnPtr<T>> try_make(Args&&... args)
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{
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return adopt_nonnull_own_or_enomem(new (nothrow) T { forward<Args>(args)... });
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}
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template<typename T>
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struct Traits<OwnPtr<T>> : public GenericTraits<OwnPtr<T>> {
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using PeekType = T*;
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using ConstPeekType = T const*;
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static unsigned hash(OwnPtr<T> const& p) { return ptr_hash(p.ptr()); }
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static bool equals(OwnPtr<T> const& a, OwnPtr<T> const& b) { return a.ptr() == b.ptr(); }
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};
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}
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#if USING_AK_GLOBALLY
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using AK::adopt_nonnull_own_or_enomem;
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using AK::adopt_own_if_nonnull;
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using AK::OwnPtr;
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using AK::try_make;
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#endif
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