mirror of
https://github.com/LadybirdBrowser/ladybird.git
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a2f60911fe
This feels like a more fitting name for something that provides the default values for Traits.
340 lines
8.8 KiB
C++
340 lines
8.8 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/Atomic.h>
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#include <AK/Format.h>
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#include <AK/NonnullRefPtr.h>
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#include <AK/Traits.h>
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#include <AK/Types.h>
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#ifdef KERNEL
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# include <Kernel/Arch/Processor.h>
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# include <Kernel/Library/ScopedCritical.h>
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#endif
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#define NONNULLLOCKREFPTR_SCRUB_BYTE 0xa1
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namespace AK {
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template<typename T, typename PtrTraits>
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class LockRefPtr;
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template<typename T>
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class [[nodiscard]] NonnullLockRefPtr {
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template<typename U, typename P>
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friend class LockRefPtr;
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template<typename U>
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friend class NonnullLockRefPtr;
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template<typename U>
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friend class LockWeakPtr;
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public:
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using ElementType = T;
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enum AdoptTag { Adopt };
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ALWAYS_INLINE NonnullLockRefPtr(T const& object)
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: m_bits((FlatPtr)&object)
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{
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VERIFY(!(m_bits & 1));
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const_cast<T&>(object).ref();
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}
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template<typename U>
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ALWAYS_INLINE NonnullLockRefPtr(U const& object)
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requires(IsConvertible<U*, T*>)
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: m_bits((FlatPtr) static_cast<T const*>(&object))
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{
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VERIFY(!(m_bits & 1));
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const_cast<T&>(static_cast<T const&>(object)).ref();
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}
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ALWAYS_INLINE NonnullLockRefPtr(AdoptTag, T& object)
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: m_bits((FlatPtr)&object)
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{
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VERIFY(!(m_bits & 1));
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}
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ALWAYS_INLINE NonnullLockRefPtr(NonnullLockRefPtr&& other)
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: m_bits((FlatPtr)&other.leak_ref())
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{
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VERIFY(!(m_bits & 1));
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}
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template<typename U>
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ALWAYS_INLINE NonnullLockRefPtr(NonnullLockRefPtr<U>&& other)
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requires(IsConvertible<U*, T*>)
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: m_bits((FlatPtr)&other.leak_ref())
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{
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VERIFY(!(m_bits & 1));
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}
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ALWAYS_INLINE NonnullLockRefPtr(NonnullLockRefPtr const& other)
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: m_bits((FlatPtr)other.add_ref())
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{
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VERIFY(!(m_bits & 1));
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}
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template<typename U>
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ALWAYS_INLINE NonnullLockRefPtr(NonnullLockRefPtr<U> const& other)
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requires(IsConvertible<U*, T*>)
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: m_bits((FlatPtr)other.add_ref())
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{
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VERIFY(!(m_bits & 1));
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}
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ALWAYS_INLINE ~NonnullLockRefPtr()
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{
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assign(nullptr);
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#ifdef SANITIZE_PTRS
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m_bits.store(explode_byte(NONNULLLOCKREFPTR_SCRUB_BYTE), AK::MemoryOrder::memory_order_relaxed);
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#endif
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}
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template<typename U>
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NonnullLockRefPtr(OwnPtr<U> const&) = delete;
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template<typename U>
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NonnullLockRefPtr& operator=(OwnPtr<U> const&) = delete;
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template<typename U>
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NonnullLockRefPtr(LockRefPtr<U> const&) = delete;
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template<typename U>
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NonnullLockRefPtr& operator=(LockRefPtr<U> const&) = delete;
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NonnullLockRefPtr(LockRefPtr<T> const&) = delete;
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NonnullLockRefPtr& operator=(LockRefPtr<T> const&) = delete;
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NonnullLockRefPtr& operator=(NonnullLockRefPtr const& other)
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{
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if (this != &other)
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assign(other.add_ref());
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return *this;
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}
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template<typename U>
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NonnullLockRefPtr& operator=(NonnullLockRefPtr<U> const& other)
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requires(IsConvertible<U*, T*>)
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{
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assign(other.add_ref());
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return *this;
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}
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ALWAYS_INLINE NonnullLockRefPtr& operator=(NonnullLockRefPtr&& other)
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{
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if (this != &other)
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assign(&other.leak_ref());
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return *this;
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}
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template<typename U>
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NonnullLockRefPtr& operator=(NonnullLockRefPtr<U>&& other)
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requires(IsConvertible<U*, T*>)
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{
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assign(&other.leak_ref());
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return *this;
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}
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NonnullLockRefPtr& operator=(T const& object)
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{
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const_cast<T&>(object).ref();
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assign(const_cast<T*>(&object));
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return *this;
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}
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[[nodiscard]] ALWAYS_INLINE T& leak_ref()
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{
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T* ptr = exchange(nullptr);
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VERIFY(ptr);
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return *ptr;
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}
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ALWAYS_INLINE RETURNS_NONNULL T* ptr()
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{
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return as_nonnull_ptr();
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}
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ALWAYS_INLINE RETURNS_NONNULL T const* ptr() const
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{
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return as_nonnull_ptr();
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}
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ALWAYS_INLINE RETURNS_NONNULL T* operator->()
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{
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return as_nonnull_ptr();
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}
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ALWAYS_INLINE RETURNS_NONNULL T const* operator->() const
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{
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return as_nonnull_ptr();
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}
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ALWAYS_INLINE T& operator*()
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{
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return *as_nonnull_ptr();
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}
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ALWAYS_INLINE T const& operator*() const
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{
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return *as_nonnull_ptr();
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}
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ALWAYS_INLINE RETURNS_NONNULL operator T*()
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{
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return as_nonnull_ptr();
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}
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ALWAYS_INLINE RETURNS_NONNULL operator T const*() const
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{
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return as_nonnull_ptr();
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}
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ALWAYS_INLINE operator T&()
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{
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return *as_nonnull_ptr();
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}
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ALWAYS_INLINE operator T const&() const
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{
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return *as_nonnull_ptr();
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}
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operator bool() const = delete;
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bool operator!() const = delete;
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void swap(NonnullLockRefPtr& other)
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{
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if (this == &other)
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return;
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// NOTE: swap is not atomic!
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T* other_ptr = other.exchange(nullptr);
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T* ptr = exchange(other_ptr);
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other.exchange(ptr);
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}
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template<typename U>
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void swap(NonnullLockRefPtr<U>& other)
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requires(IsConvertible<U*, T*>)
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{
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// NOTE: swap is not atomic!
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U* other_ptr = other.exchange(nullptr);
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T* ptr = exchange(other_ptr);
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other.exchange(ptr);
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}
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private:
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NonnullLockRefPtr() = delete;
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ALWAYS_INLINE T* as_ptr() const
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{
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return (T*)(m_bits.load(AK::MemoryOrder::memory_order_relaxed) & ~(FlatPtr)1);
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}
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ALWAYS_INLINE RETURNS_NONNULL T* as_nonnull_ptr() const
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{
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T* ptr = (T*)(m_bits.load(AK::MemoryOrder::memory_order_relaxed) & ~(FlatPtr)1);
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VERIFY(ptr);
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return ptr;
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}
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template<typename F>
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void do_while_locked(F f) const
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{
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#ifdef KERNEL
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// We don't want to be pre-empted while we have the lock bit set
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Kernel::ScopedCritical critical;
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#endif
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FlatPtr bits;
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for (;;) {
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bits = m_bits.fetch_or(1, AK::MemoryOrder::memory_order_acq_rel);
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if (!(bits & 1))
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break;
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#ifdef KERNEL
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Kernel::Processor::wait_check();
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#endif
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}
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VERIFY(!(bits & 1));
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f((T*)bits);
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m_bits.store(bits, AK::MemoryOrder::memory_order_release);
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}
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ALWAYS_INLINE void assign(T* new_ptr)
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{
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T* prev_ptr = exchange(new_ptr);
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unref_if_not_null(prev_ptr);
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}
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ALWAYS_INLINE T* exchange(T* new_ptr)
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{
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VERIFY(!((FlatPtr)new_ptr & 1));
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#ifdef KERNEL
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// We don't want to be pre-empted while we have the lock bit set
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Kernel::ScopedCritical critical;
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#endif
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// Only exchange while not locked
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FlatPtr expected = m_bits.load(AK::MemoryOrder::memory_order_relaxed);
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for (;;) {
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expected &= ~(FlatPtr)1; // only if lock bit is not set
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if (m_bits.compare_exchange_strong(expected, (FlatPtr)new_ptr, AK::MemoryOrder::memory_order_acq_rel))
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break;
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#ifdef KERNEL
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Kernel::Processor::wait_check();
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#endif
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}
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VERIFY(!(expected & 1));
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return (T*)expected;
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}
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T* add_ref() const
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{
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#ifdef KERNEL
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// We don't want to be pre-empted while we have the lock bit set
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Kernel::ScopedCritical critical;
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#endif
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// Lock the pointer
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FlatPtr expected = m_bits.load(AK::MemoryOrder::memory_order_relaxed);
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for (;;) {
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expected &= ~(FlatPtr)1; // only if lock bit is not set
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if (m_bits.compare_exchange_strong(expected, expected | 1, AK::MemoryOrder::memory_order_acq_rel))
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break;
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#ifdef KERNEL
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Kernel::Processor::wait_check();
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#endif
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}
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// Add a reference now that we locked the pointer
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ref_if_not_null((T*)expected);
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// Unlock the pointer again
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m_bits.store(expected, AK::MemoryOrder::memory_order_release);
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return (T*)expected;
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}
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mutable Atomic<FlatPtr> m_bits { 0 };
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};
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template<typename T>
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inline NonnullLockRefPtr<T> adopt_lock_ref(T& object)
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{
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return NonnullLockRefPtr<T>(NonnullLockRefPtr<T>::Adopt, object);
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}
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template<typename T>
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struct Formatter<NonnullLockRefPtr<T>> : Formatter<T const*> {
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ErrorOr<void> format(FormatBuilder& builder, NonnullLockRefPtr<T> const& value)
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{
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return Formatter<T const*>::format(builder, value.ptr());
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}
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};
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template<typename T, typename U>
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inline void swap(NonnullLockRefPtr<T>& a, NonnullLockRefPtr<U>& b)
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requires(IsConvertible<U*, T*>)
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{
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a.swap(b);
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}
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}
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template<typename T>
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struct Traits<NonnullLockRefPtr<T>> : public DefaultTraits<NonnullLockRefPtr<T>> {
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using PeekType = T*;
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using ConstPeekType = T const*;
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static unsigned hash(NonnullLockRefPtr<T> const& p) { return ptr_hash(p.ptr()); }
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static bool equals(NonnullLockRefPtr<T> const& a, NonnullLockRefPtr<T> const& b) { return a.ptr() == b.ptr(); }
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};
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using AK::adopt_lock_ref;
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using AK::NonnullLockRefPtr;
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