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f07fc1f61f
This new approach to weak references is roughly modeled after the approach used
by Rust's Arc<T>, and uses an atomic compare-and-swap loop to perform weak to
strong reference upgrades. This approach ends up moving the strong reference
count out of the tracked object and into the weak reference object, as the
strong reference count atomic needs to outlife the object itself.
Rust's Arc Weak::upgrade implementation:
d98d2f57d9/library/alloc/src/sync.rs (L1806-L1837)
Differential Revision: https://phabricator.services.mozilla.com/D102245
320 lines
11 KiB
C++
320 lines
11 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim: set ts=8 sts=2 et sw=2 tw=80: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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/* A thread-safe weak pointer */
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/**
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* Derive from SupportsThreadSafeWeakPtr to allow thread-safe weak pointers to
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* an atomically refcounted derived class. These thread-safe weak pointers may
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* be safely accessed and converted to strong pointers on multiple threads.
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*
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* Note that SupportsThreadSafeWeakPtr defines the same member functions as
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* AtomicRefCounted, so you should not separately inherit from it.
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*
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* ThreadSafeWeakPtr and its implementation is distinct from the normal WeakPtr
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* which is not thread-safe. The interface discipline and implementation details
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* are different enough that these two implementations are separated for now for
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* efficiency reasons. If you don't actually need to use weak pointers on
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* multiple threads, you can just use WeakPtr instead.
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*
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* When deriving from SupportsThreadSafeWeakPtr, you should add
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* MOZ_DECLARE_THREADSAFEWEAKREFERENCE_TYPENAME(ClassName) and
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* MOZ_DECLARE_REFCOUNTED_TYPENAME(ClassName) to the public section of your
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* class, where ClassName is the name of your class.
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*
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* Example usage:
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*
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* class C : public SupportsThreadSafeWeakPtr<C>
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* {
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* public:
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* MOZ_DECLARE_THREADSAFEWEAKREFERENCE_TYPENAME(C)
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* MOZ_DECLARE_REFCOUNTED_TYPENAME(C)
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* void doStuff();
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* };
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*
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* ThreadSafeWeakPtr<C> weak;
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* {
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* RefPtr<C> strong = new C;
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* if (strong) {
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* strong->doStuff();
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* }
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* // Make a new weak reference to the object from the strong reference.
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* weak = strong;
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* }
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* MOZ_ASSERT(!bool(weak), "Weak pointers are cleared after all "
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* "strong references are released.");
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*
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* // Convert the weak reference to a strong reference for usage.
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* RefPtr<C> other(weak);
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* if (other) {
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* other->doStuff();
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* }
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*/
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#ifndef mozilla_ThreadSafeWeakPtr_h
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#define mozilla_ThreadSafeWeakPtr_h
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#include "mozilla/Assertions.h"
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#include "mozilla/RefCounted.h"
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#include "mozilla/RefPtr.h"
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namespace mozilla {
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template <typename T>
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class ThreadSafeWeakPtr;
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template <typename T>
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class SupportsThreadSafeWeakPtr;
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#ifdef MOZ_REFCOUNTED_LEAK_CHECKING
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# define MOZ_DECLARE_THREADSAFEWEAKREFERENCE_TYPENAME(T) \
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static const char* threadSafeWeakReferenceTypeName() { \
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return "ThreadSafeWeakReference<" #T ">"; \
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}
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#else
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# define MOZ_DECLARE_THREADSAFEWEAKREFERENCE_TYPENAME(T)
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#endif
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namespace detail {
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// A shared weak reference that is used to track a SupportsThreadSafeWeakPtr
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// object. This object owns the reference count for the tracked object, and can
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// perform atomic refcount upgrades.
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template <typename T>
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class ThreadSafeWeakReference
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: public external::AtomicRefCounted<ThreadSafeWeakReference<T>> {
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public:
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typedef T ElementType;
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explicit ThreadSafeWeakReference(T* aPtr) : mPtr(aPtr) {}
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#ifdef MOZ_REFCOUNTED_LEAK_CHECKING
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const char* typeName() const {
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// The first time this is called mPtr is null, so don't
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// invoke any methods on mPtr.
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return T::threadSafeWeakReferenceTypeName();
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}
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size_t typeSize() const { return sizeof(*this); }
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#endif
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private:
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friend class mozilla::SupportsThreadSafeWeakPtr<T>;
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template <typename U>
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friend class mozilla::ThreadSafeWeakPtr;
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// Creates a new RefPtr to the tracked object.
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already_AddRefed<T> getRefPtr() {
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// Increment our strong reference count only if it is nonzero, meaning that
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// the object is still alive.
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MozRefCountType cnt = mStrongCnt.IncrementIfNonzero();
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if (cnt == 0) {
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return nullptr;
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}
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RefPtr<T> result{already_AddRefed(mPtr)};
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detail::RefCountLogger::logAddRef(result.get(), cnt);
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return result.forget();
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}
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// Number of strong references to the underlying data structure.
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//
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// Other than the initial strong `AddRef` call incrementing this value to 1,
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// which must occur before any weak references are taken, once this value
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// reaches `0` again it cannot be changed.
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RC<MozRefCountType, AtomicRefCount> mStrongCnt{0};
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// Raw pointer to the tracked object. It is never valid to read this value
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// outside of `getRefPtr()`.
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T* MOZ_NON_OWNING_REF mPtr;
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};
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} // namespace detail
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// For usage documentation for SupportsThreadSafeWeakPtr, see the header-level
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// documentation.
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//
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// To understand the layout of SupportsThreadSafeWeakPtr, consider the following
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// simplified declaration:
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//
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// class MyType: SupportsThreadSafeWeakPtr { uint32_t mMyData; ... }
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//
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// Which will result in the following layout:
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//
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// +--------------------+
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// | MyType | <========================================+
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// +--------------------+ I
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// | RefPtr mWeakRef o===========> +-------------------------+ I
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// | uint32_t mMyData | | ThreadSafeWeakReference | I
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// +--------------------+ +-------------------------+ I
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// | RC mRefCount | I
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// | RC mStrongCount | I
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// | MyType* mPtr o======+
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// +-------------------------+
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//
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// The mRefCount inherited from AtomicRefCounted<ThreadSafeWeakReference<T>> is
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// the weak count. This means MyType implicitly holds a weak reference, so if
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// the weak count ever hits 0, we know all strong *and* weak references are
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// gone, and it's safe to free the ThreadSafeWeakReference. MyType's AddRef and
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// Release implementations otherwise only manipulate mStrongCount.
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//
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// It's necessary to keep the counts in a separate allocation because we need
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// to be able to delete MyType while weak references still exist. This ensures
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// that weak references can still access all the state necessary to check if
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// they can be upgraded (mStrongCount).
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template <typename T>
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class SupportsThreadSafeWeakPtr {
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protected:
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typedef detail::ThreadSafeWeakReference<T> ThreadSafeWeakReference;
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// The `this` pointer will not have subclasses initialized yet, but it will
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// also not be read until a weak pointer is upgraded, which should be after
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// this point.
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SupportsThreadSafeWeakPtr()
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: mWeakRef(new ThreadSafeWeakReference(static_cast<T*>(this))) {
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static_assert(std::is_base_of_v<SupportsThreadSafeWeakPtr<T>, T>,
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"T must derive from SupportsThreadSafeWeakPtr<T>");
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}
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public:
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// Compatibility with RefPtr
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void AddRef() const {
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auto& refCnt = mWeakRef->mStrongCnt;
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MOZ_ASSERT(int32_t(refCnt) >= 0);
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MozRefCountType cnt = ++refCnt;
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detail::RefCountLogger::logAddRef(static_cast<const T*>(this), cnt);
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}
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void Release() const {
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auto& refCnt = mWeakRef->mStrongCnt;
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MOZ_ASSERT(int32_t(refCnt) > 0);
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detail::RefCountLogger::ReleaseLogger logger(static_cast<const T*>(this));
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MozRefCountType cnt = --refCnt;
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logger.logRelease(cnt);
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if (0 == cnt) {
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// Because we have atomically decremented the refcount above, only one
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// thread can get a 0 count here. Thus, it is safe to access and destroy
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// |this| here.
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// No other thread can acquire a strong reference to |this| anymore
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// through our weak pointer, as upgrading a weak pointer always uses
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// |IncrementIfNonzero|, meaning the refcount can't leave a zero reference
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// state.
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// NOTE: We can't update our refcount to the marker `DEAD` value here, as
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// it may still be read by mWeakRef.
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delete static_cast<const T*>(this);
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}
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}
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// Compatibility with wtf::RefPtr
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void ref() { AddRef(); }
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void deref() { Release(); }
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MozRefCountType refCount() const { return mWeakRef->mStrongCnt; }
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private:
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template <typename U>
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friend class ThreadSafeWeakPtr;
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ThreadSafeWeakReference* getThreadSafeWeakReference() const {
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return mWeakRef;
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}
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const RefPtr<ThreadSafeWeakReference> mWeakRef;
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};
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// A thread-safe variant of a weak pointer
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template <typename T>
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class ThreadSafeWeakPtr {
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// Be careful to use the weak reference type T in the
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// SupportsThreadSafeWeakPtr<T> definition.
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typedef typename T::ThreadSafeWeakReference ThreadSafeWeakReference;
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public:
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ThreadSafeWeakPtr() = default;
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ThreadSafeWeakPtr& operator=(const ThreadSafeWeakPtr& aOther) = default;
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ThreadSafeWeakPtr(const ThreadSafeWeakPtr& aOther) = default;
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ThreadSafeWeakPtr& operator=(ThreadSafeWeakPtr&& aOther) = default;
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ThreadSafeWeakPtr(ThreadSafeWeakPtr&& aOther) = default;
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ThreadSafeWeakPtr& operator=(const RefPtr<T>& aOther) {
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if (aOther) {
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// Get the underlying shared weak reference to the object.
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mRef = aOther->getThreadSafeWeakReference();
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} else {
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mRef = nullptr;
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}
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return *this;
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}
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explicit ThreadSafeWeakPtr(const RefPtr<T>& aOther) { *this = aOther; }
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ThreadSafeWeakPtr& operator=(decltype(nullptr)) {
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mRef = nullptr;
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return *this;
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}
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explicit ThreadSafeWeakPtr(decltype(nullptr)) {}
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// Use the explicit `IsNull()` or `IsDead()` methods instead.
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explicit operator bool() const = delete;
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// Check if the ThreadSafeWeakPtr was created wrapping a null pointer.
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bool IsNull() const { return !mRef; }
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// Check if the managed object is nullptr or has already been destroyed. Once
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// IsDead returns true, this ThreadSafeWeakPtr can never be upgraded again
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// (until it has been re-assigned), but a false return value does NOT imply
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// that any future upgrade will be successful.
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bool IsDead() const { return IsNull() || size_t(mRef->mStrongCnt) == 0; }
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bool operator==(const ThreadSafeWeakPtr& aOther) const {
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return mRef == aOther.mRef;
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}
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bool operator==(const RefPtr<T>& aOther) const {
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return *this == aOther.get();
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}
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bool operator==(const T* aOther) const {
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if (!mRef) {
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return !aOther;
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}
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return aOther && aOther->getThreadSafeWeakReference() == mRef;
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}
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template <typename U>
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bool operator!=(const U& aOther) const {
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return !(*this == aOther);
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}
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// Convert the weak pointer to a strong RefPtr.
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explicit operator RefPtr<T>() const { return getRefPtr(); }
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private:
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// Gets a new strong reference of the proper type T to the tracked object.
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already_AddRefed<T> getRefPtr() const {
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static_assert(std::is_base_of<typename ThreadSafeWeakReference::ElementType,
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T>::value,
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"T must derive from ThreadSafeWeakReference::ElementType");
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return mRef ? mRef->getRefPtr().template downcast<T>() : nullptr;
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}
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// A shared weak reference to an object. Note that this may be null so as to
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// save memory (at the slight cost of an extra null check) if no object is
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// being tracked.
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RefPtr<ThreadSafeWeakReference> mRef;
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};
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} // namespace mozilla
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template <typename T>
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inline already_AddRefed<T> do_AddRef(
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const mozilla::ThreadSafeWeakPtr<T>& aObj) {
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RefPtr<T> ref(aObj);
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return ref.forget();
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}
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#endif /* mozilla_ThreadSafeWeakPtr_h */
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