зеркало из https://github.com/mozilla/gecko-dev.git
308 строки
10 KiB
C++
308 строки
10 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_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_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/RefCountType.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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namespace detail {
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class SupportsThreadSafeWeakPtrBase {};
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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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class ThreadSafeWeakReference
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: public external::AtomicRefCounted<ThreadSafeWeakReference> {
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public:
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explicit ThreadSafeWeakReference(SupportsThreadSafeWeakPtrBase* aPtr)
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: mPtr(aPtr) {}
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#ifdef MOZ_REFCOUNTED_LEAK_CHECKING
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const char* typeName() const { return "ThreadSafeWeakReference"; }
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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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template <typename U>
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friend class mozilla::SupportsThreadSafeWeakPtr;
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template <typename U>
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friend class mozilla::ThreadSafeWeakPtr;
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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 `ThreadSafeWeakPtr::getRefPtr()`.
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SupportsThreadSafeWeakPtrBase* 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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// | SupportsThreadSafeWeakPtrBase* mPtr o====+
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// +-------------------------------------+
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//
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// The mRefCount inherited from AtomicRefCounted<ThreadSafeWeakReference> is the
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// weak count. This means MyType implicitly holds a weak reference, so if the
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// weak count ever hits 0, we know all strong *and* weak references are gone,
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// 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 : public detail::SupportsThreadSafeWeakPtrBase {
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protected:
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using ThreadSafeWeakReference = detail::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() : mWeakRef(new ThreadSafeWeakReference(this)) {
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static_assert(std::is_base_of_v<SupportsThreadSafeWeakPtr, T>,
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"T must derive from SupportsThreadSafeWeakPtr");
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}
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public:
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// Compatibility with RefPtr
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MozExternalRefCountType 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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return cnt;
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}
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MozExternalRefCountType 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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return cnt;
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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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bool hasOneRef() const { return refCount() == 1; }
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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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using ThreadSafeWeakReference = detail::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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friend bool operator==(const RefPtr<T>& aStrong,
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const ThreadSafeWeakPtr& aWeak) {
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return aWeak == aStrong.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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if (!mRef) {
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return nullptr;
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}
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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 = mRef->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> ptr = already_AddRefed<T>(static_cast<T*>(mRef->mPtr));
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detail::RefCountLogger::logAddRef(ptr.get(), cnt);
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return ptr.forget();
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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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