зеркало из https://github.com/mozilla/gecko-dev.git
599 строки
16 KiB
C++
599 строки
16 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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#ifndef mozilla_RefPtr_h
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#define mozilla_RefPtr_h
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#include "mozilla/AlreadyAddRefed.h"
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#include "mozilla/Assertions.h"
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#include "mozilla/Attributes.h"
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#include "mozilla/DbgMacro.h"
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#include <type_traits>
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/*****************************************************************************/
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// template <class T> class RefPtrGetterAddRefs;
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class nsQueryReferent;
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class nsCOMPtr_helper;
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class nsISupports;
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namespace mozilla {
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template <class T>
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class OwningNonNull;
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template <class T>
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class StaticLocalRefPtr;
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template <class T>
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class StaticRefPtr;
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#if defined(XP_WIN)
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namespace mscom {
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class AgileReference;
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} // namespace mscom
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#endif // defined(XP_WIN)
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// Traditionally, RefPtr supports automatic refcounting of any pointer type
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// with AddRef() and Release() methods that follow the traditional semantics.
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//
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// This traits class can be specialized to operate on other pointer types. For
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// example, we specialize this trait for opaque FFI types that represent
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// refcounted objects in Rust.
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//
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// Given the use of ConstRemovingRefPtrTraits below, U should not be a const-
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// qualified type.
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template <class U>
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struct RefPtrTraits {
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static void AddRef(U* aPtr) { aPtr->AddRef(); }
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static void Release(U* aPtr) { aPtr->Release(); }
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};
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} // namespace mozilla
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template <class T>
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class MOZ_IS_REFPTR RefPtr {
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private:
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void assign_with_AddRef(T* aRawPtr) {
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if (aRawPtr) {
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ConstRemovingRefPtrTraits<T>::AddRef(aRawPtr);
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}
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assign_assuming_AddRef(aRawPtr);
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}
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void assign_assuming_AddRef(T* aNewPtr) {
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T* oldPtr = mRawPtr;
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mRawPtr = aNewPtr;
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if (oldPtr) {
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ConstRemovingRefPtrTraits<T>::Release(oldPtr);
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}
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}
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private:
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T* MOZ_OWNING_REF mRawPtr;
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public:
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typedef T element_type;
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~RefPtr() {
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if (mRawPtr) {
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ConstRemovingRefPtrTraits<T>::Release(mRawPtr);
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}
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}
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// Constructors
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RefPtr()
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: mRawPtr(nullptr)
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// default constructor
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{}
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RefPtr(const RefPtr<T>& aSmartPtr)
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: mRawPtr(aSmartPtr.mRawPtr)
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// copy-constructor
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{
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if (mRawPtr) {
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ConstRemovingRefPtrTraits<T>::AddRef(mRawPtr);
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}
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}
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RefPtr(RefPtr<T>&& aRefPtr) : mRawPtr(aRefPtr.mRawPtr) {
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aRefPtr.mRawPtr = nullptr;
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}
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// construct from a raw pointer (of the right type)
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MOZ_IMPLICIT RefPtr(T* aRawPtr) : mRawPtr(aRawPtr) {
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if (mRawPtr) {
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ConstRemovingRefPtrTraits<T>::AddRef(mRawPtr);
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}
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}
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MOZ_IMPLICIT RefPtr(decltype(nullptr)) : mRawPtr(nullptr) {}
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template <typename I,
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typename = std::enable_if_t<std::is_convertible_v<I*, T*>>>
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MOZ_IMPLICIT RefPtr(already_AddRefed<I>& aSmartPtr)
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: mRawPtr(aSmartPtr.take())
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// construct from |already_AddRefed|
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{}
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template <typename I,
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typename = std::enable_if_t<std::is_convertible_v<I*, T*>>>
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MOZ_IMPLICIT RefPtr(already_AddRefed<I>&& aSmartPtr)
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: mRawPtr(aSmartPtr.take())
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// construct from |otherRefPtr.forget()|
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{}
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template <typename I,
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typename = std::enable_if_t<std::is_convertible_v<I*, T*>>>
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MOZ_IMPLICIT RefPtr(const RefPtr<I>& aSmartPtr)
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: mRawPtr(aSmartPtr.get())
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// copy-construct from a smart pointer with a related pointer type
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{
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if (mRawPtr) {
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ConstRemovingRefPtrTraits<T>::AddRef(mRawPtr);
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}
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}
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template <typename I,
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typename = std::enable_if_t<std::is_convertible_v<I*, T*>>>
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MOZ_IMPLICIT RefPtr(RefPtr<I>&& aSmartPtr)
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: mRawPtr(aSmartPtr.forget().take())
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// construct from |Move(RefPtr<SomeSubclassOfT>)|.
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{}
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MOZ_IMPLICIT RefPtr(const nsQueryReferent& aHelper);
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MOZ_IMPLICIT RefPtr(const nsCOMPtr_helper& aHelper);
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#if defined(XP_WIN)
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MOZ_IMPLICIT RefPtr(const mozilla::mscom::AgileReference& aAgileRef);
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#endif // defined(XP_WIN)
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// Defined in OwningNonNull.h
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template <class U>
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MOZ_IMPLICIT RefPtr(const mozilla::OwningNonNull<U>& aOther);
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// Defined in StaticLocalPtr.h
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template <class U>
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MOZ_IMPLICIT RefPtr(const mozilla::StaticLocalRefPtr<U>& aOther);
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// Defined in StaticPtr.h
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template <class U>
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MOZ_IMPLICIT RefPtr(const mozilla::StaticRefPtr<U>& aOther);
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// Assignment operators
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RefPtr<T>& operator=(decltype(nullptr)) {
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assign_assuming_AddRef(nullptr);
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return *this;
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}
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RefPtr<T>& operator=(const RefPtr<T>& aRhs)
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// copy assignment operator
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{
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assign_with_AddRef(aRhs.mRawPtr);
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return *this;
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}
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template <typename I>
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RefPtr<T>& operator=(const RefPtr<I>& aRhs)
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// assign from an RefPtr of a related pointer type
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{
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assign_with_AddRef(aRhs.get());
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return *this;
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}
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RefPtr<T>& operator=(T* aRhs)
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// assign from a raw pointer (of the right type)
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{
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assign_with_AddRef(aRhs);
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return *this;
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}
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template <typename I>
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RefPtr<T>& operator=(already_AddRefed<I>& aRhs)
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// assign from |already_AddRefed|
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{
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assign_assuming_AddRef(aRhs.take());
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return *this;
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}
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template <typename I>
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RefPtr<T>& operator=(already_AddRefed<I>&& aRhs)
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// assign from |otherRefPtr.forget()|
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{
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assign_assuming_AddRef(aRhs.take());
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return *this;
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}
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RefPtr<T>& operator=(const nsQueryReferent& aQueryReferent);
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RefPtr<T>& operator=(const nsCOMPtr_helper& aHelper);
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#if defined(XP_WIN)
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RefPtr<T>& operator=(const mozilla::mscom::AgileReference& aAgileRef);
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#endif // defined(XP_WIN)
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template <typename I,
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typename = std::enable_if_t<std::is_convertible_v<I*, T*>>>
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RefPtr<T>& operator=(RefPtr<I>&& aRefPtr) {
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assign_assuming_AddRef(aRefPtr.forget().take());
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return *this;
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}
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// Defined in OwningNonNull.h
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template <class U>
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RefPtr<T>& operator=(const mozilla::OwningNonNull<U>& aOther);
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// Defined in StaticLocalPtr.h
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template <class U>
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RefPtr<T>& operator=(const mozilla::StaticLocalRefPtr<U>& aOther);
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// Defined in StaticPtr.h
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template <class U>
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RefPtr<T>& operator=(const mozilla::StaticRefPtr<U>& aOther);
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// Other pointer operators
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void swap(RefPtr<T>& aRhs)
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// ...exchange ownership with |aRhs|; can save a pair of refcount operations
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{
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T* temp = aRhs.mRawPtr;
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aRhs.mRawPtr = mRawPtr;
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mRawPtr = temp;
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}
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void swap(T*& aRhs)
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// ...exchange ownership with |aRhs|; can save a pair of refcount operations
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{
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T* temp = aRhs;
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aRhs = mRawPtr;
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mRawPtr = temp;
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}
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already_AddRefed<T> MOZ_MAY_CALL_AFTER_MUST_RETURN forget()
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// return the value of mRawPtr and null out mRawPtr. Useful for
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// already_AddRefed return values.
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{
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T* temp = nullptr;
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swap(temp);
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return already_AddRefed<T>(temp);
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}
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template <typename I>
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void forget(I** aRhs)
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// Set the target of aRhs to the value of mRawPtr and null out mRawPtr.
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// Useful to avoid unnecessary AddRef/Release pairs with "out"
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// parameters where aRhs bay be a T** or an I** where I is a base class
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// of T.
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{
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MOZ_ASSERT(aRhs, "Null pointer passed to forget!");
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*aRhs = mRawPtr;
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mRawPtr = nullptr;
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}
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void forget(nsISupports** aRhs) {
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MOZ_ASSERT(aRhs, "Null pointer passed to forget!");
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*aRhs = ToSupports(mRawPtr);
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mRawPtr = nullptr;
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}
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T* get() const
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/*
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Prefer the implicit conversion provided automatically by |operator T*()
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const|. Use |get()| to resolve ambiguity or to get a castable pointer.
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*/
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{
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return const_cast<T*>(mRawPtr);
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}
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operator T*() const&
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/*
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...makes an |RefPtr| act like its underlying raw pointer type whenever it
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is used in a context where a raw pointer is expected. It is this operator
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that makes an |RefPtr| substitutable for a raw pointer.
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Prefer the implicit use of this operator to calling |get()|, except where
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necessary to resolve ambiguity.
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*/
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{
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return get();
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}
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// Don't allow implicit conversion of temporary RefPtr to raw pointer,
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// because the refcount might be one and the pointer will immediately become
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// invalid.
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operator T*() const&& = delete;
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// These are needed to avoid the deleted operator above. XXX Why is operator!
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// needed separately? Shouldn't the compiler prefer using the non-deleted
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// operator bool instead of the deleted operator T*?
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explicit operator bool() const { return !!mRawPtr; }
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bool operator!() const { return !mRawPtr; }
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T* operator->() const MOZ_NO_ADDREF_RELEASE_ON_RETURN {
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MOZ_ASSERT(mRawPtr != nullptr,
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"You can't dereference a NULL RefPtr with operator->().");
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return get();
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}
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template <typename R, typename... Args>
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class Proxy {
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typedef R (T::*member_function)(Args...);
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T* mRawPtr;
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member_function mFunction;
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public:
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Proxy(T* aRawPtr, member_function aFunction)
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: mRawPtr(aRawPtr), mFunction(aFunction) {}
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template <typename... ActualArgs>
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R operator()(ActualArgs&&... aArgs) {
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return ((*mRawPtr).*mFunction)(std::forward<ActualArgs>(aArgs)...);
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}
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};
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template <typename R, typename... Args>
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Proxy<R, Args...> operator->*(R (T::*aFptr)(Args...)) const {
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MOZ_ASSERT(mRawPtr != nullptr,
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"You can't dereference a NULL RefPtr with operator->*().");
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return Proxy<R, Args...>(get(), aFptr);
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}
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RefPtr<T>* get_address()
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// This is not intended to be used by clients. See |address_of|
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// below.
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{
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return this;
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}
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const RefPtr<T>* get_address() const
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// This is not intended to be used by clients. See |address_of|
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// below.
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{
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return this;
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}
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public:
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T& operator*() const {
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MOZ_ASSERT(mRawPtr != nullptr,
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"You can't dereference a NULL RefPtr with operator*().");
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return *get();
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}
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T** StartAssignment() {
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assign_assuming_AddRef(nullptr);
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return reinterpret_cast<T**>(&mRawPtr);
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}
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private:
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// This helper class makes |RefPtr<const T>| possible by casting away
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// the constness from the pointer when calling AddRef() and Release().
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//
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// This is necessary because AddRef() and Release() implementations can't
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// generally expected to be const themselves (without heavy use of |mutable|
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// and |const_cast| in their own implementations).
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//
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// This should be sound because while |RefPtr<const T>| provides a
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// const view of an object, the object itself should not be const (it
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// would have to be allocated as |new const T| or similar to be const).
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template <class U>
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struct ConstRemovingRefPtrTraits {
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static void AddRef(U* aPtr) { mozilla::RefPtrTraits<U>::AddRef(aPtr); }
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static void Release(U* aPtr) { mozilla::RefPtrTraits<U>::Release(aPtr); }
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};
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template <class U>
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struct ConstRemovingRefPtrTraits<const U> {
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static void AddRef(const U* aPtr) {
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mozilla::RefPtrTraits<U>::AddRef(const_cast<U*>(aPtr));
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}
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static void Release(const U* aPtr) {
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mozilla::RefPtrTraits<U>::Release(const_cast<U*>(aPtr));
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}
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};
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};
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class nsCycleCollectionTraversalCallback;
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template <typename T>
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void CycleCollectionNoteChild(nsCycleCollectionTraversalCallback& aCallback,
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T* aChild, const char* aName, uint32_t aFlags);
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template <typename T>
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inline void ImplCycleCollectionUnlink(RefPtr<T>& aField) {
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aField = nullptr;
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}
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template <typename T>
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inline void ImplCycleCollectionTraverse(
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nsCycleCollectionTraversalCallback& aCallback, RefPtr<T>& aField,
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const char* aName, uint32_t aFlags = 0) {
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CycleCollectionNoteChild(aCallback, aField.get(), aName, aFlags);
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}
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template <class T>
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inline RefPtr<T>* address_of(RefPtr<T>& aPtr) {
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return aPtr.get_address();
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}
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template <class T>
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inline const RefPtr<T>* address_of(const RefPtr<T>& aPtr) {
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return aPtr.get_address();
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}
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template <class T>
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class RefPtrGetterAddRefs
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/*
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...
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This class is designed to be used for anonymous temporary objects in the
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argument list of calls that return COM interface pointers, e.g.,
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RefPtr<IFoo> fooP;
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...->GetAddRefedPointer(getter_AddRefs(fooP))
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DO NOT USE THIS TYPE DIRECTLY IN YOUR CODE. Use |getter_AddRefs()| instead.
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When initialized with a |RefPtr|, as in the example above, it returns
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a |void**|, a |T**|, or an |nsISupports**| as needed, that the
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outer call (|GetAddRefedPointer| in this case) can fill in.
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This type should be a nested class inside |RefPtr<T>|.
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*/
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{
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public:
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explicit RefPtrGetterAddRefs(RefPtr<T>& aSmartPtr)
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: mTargetSmartPtr(aSmartPtr) {
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// nothing else to do
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}
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operator void**() {
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return reinterpret_cast<void**>(mTargetSmartPtr.StartAssignment());
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}
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operator T**() { return mTargetSmartPtr.StartAssignment(); }
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T*& operator*() { return *(mTargetSmartPtr.StartAssignment()); }
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private:
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RefPtr<T>& mTargetSmartPtr;
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};
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template <class T>
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inline RefPtrGetterAddRefs<T> getter_AddRefs(RefPtr<T>& aSmartPtr)
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/*
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Used around a |RefPtr| when
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...makes the class |RefPtrGetterAddRefs<T>| invisible.
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*/
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{
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return RefPtrGetterAddRefs<T>(aSmartPtr);
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}
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// Comparing two |RefPtr|s
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template <class T, class U>
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inline bool operator==(const RefPtr<T>& aLhs, const RefPtr<U>& aRhs) {
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return static_cast<const T*>(aLhs.get()) == static_cast<const U*>(aRhs.get());
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}
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template <class T, class U>
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inline bool operator!=(const RefPtr<T>& aLhs, const RefPtr<U>& aRhs) {
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return static_cast<const T*>(aLhs.get()) != static_cast<const U*>(aRhs.get());
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}
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// Comparing an |RefPtr| to a raw pointer
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template <class T, class U>
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inline bool operator==(const RefPtr<T>& aLhs, const U* aRhs) {
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return static_cast<const T*>(aLhs.get()) == static_cast<const U*>(aRhs);
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}
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template <class T, class U>
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inline bool operator==(const U* aLhs, const RefPtr<T>& aRhs) {
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return static_cast<const U*>(aLhs) == static_cast<const T*>(aRhs.get());
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}
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template <class T, class U>
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inline bool operator!=(const RefPtr<T>& aLhs, const U* aRhs) {
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return static_cast<const T*>(aLhs.get()) != static_cast<const U*>(aRhs);
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}
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template <class T, class U>
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inline bool operator!=(const U* aLhs, const RefPtr<T>& aRhs) {
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return static_cast<const U*>(aLhs) != static_cast<const T*>(aRhs.get());
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}
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template <class T, class U>
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inline bool operator==(const RefPtr<T>& aLhs, U* aRhs) {
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return static_cast<const T*>(aLhs.get()) == const_cast<const U*>(aRhs);
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}
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template <class T, class U>
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inline bool operator==(U* aLhs, const RefPtr<T>& aRhs) {
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return const_cast<const U*>(aLhs) == static_cast<const T*>(aRhs.get());
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}
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template <class T, class U>
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inline bool operator!=(const RefPtr<T>& aLhs, U* aRhs) {
|
|
return static_cast<const T*>(aLhs.get()) != const_cast<const U*>(aRhs);
|
|
}
|
|
|
|
template <class T, class U>
|
|
inline bool operator!=(U* aLhs, const RefPtr<T>& aRhs) {
|
|
return const_cast<const U*>(aLhs) != static_cast<const T*>(aRhs.get());
|
|
}
|
|
|
|
// Comparing an |RefPtr| to |nullptr|
|
|
|
|
template <class T>
|
|
inline bool operator==(const RefPtr<T>& aLhs, decltype(nullptr)) {
|
|
return aLhs.get() == nullptr;
|
|
}
|
|
|
|
template <class T>
|
|
inline bool operator==(decltype(nullptr), const RefPtr<T>& aRhs) {
|
|
return nullptr == aRhs.get();
|
|
}
|
|
|
|
template <class T>
|
|
inline bool operator!=(const RefPtr<T>& aLhs, decltype(nullptr)) {
|
|
return aLhs.get() != nullptr;
|
|
}
|
|
|
|
template <class T>
|
|
inline bool operator!=(decltype(nullptr), const RefPtr<T>& aRhs) {
|
|
return nullptr != aRhs.get();
|
|
}
|
|
|
|
// MOZ_DBG support
|
|
|
|
template <class T>
|
|
std::ostream& operator<<(std::ostream& aOut, const RefPtr<T>& aObj) {
|
|
return mozilla::DebugValue(aOut, aObj.get());
|
|
}
|
|
|
|
/*****************************************************************************/
|
|
|
|
template <class T>
|
|
inline already_AddRefed<T> do_AddRef(T* aObj) {
|
|
RefPtr<T> ref(aObj);
|
|
return ref.forget();
|
|
}
|
|
|
|
template <class T>
|
|
inline already_AddRefed<T> do_AddRef(const RefPtr<T>& aObj) {
|
|
RefPtr<T> ref(aObj);
|
|
return ref.forget();
|
|
}
|
|
|
|
namespace mozilla {
|
|
|
|
/**
|
|
* Helper function to be able to conveniently write things like:
|
|
*
|
|
* already_AddRefed<T>
|
|
* f(...)
|
|
* {
|
|
* return MakeAndAddRef<T>(...);
|
|
* }
|
|
*/
|
|
template <typename T, typename... Args>
|
|
already_AddRefed<T> MakeAndAddRef(Args&&... aArgs) {
|
|
RefPtr<T> p(new T(std::forward<Args>(aArgs)...));
|
|
return p.forget();
|
|
}
|
|
|
|
/**
|
|
* Helper function to be able to conveniently write things like:
|
|
*
|
|
* auto runnable =
|
|
* MakeRefPtr<ErrorCallbackRunnable<nsIDOMGetUserMediaSuccessCallback>>(
|
|
* mOnSuccess, mOnFailure, *error, mWindowID);
|
|
*/
|
|
template <typename T, typename... Args>
|
|
RefPtr<T> MakeRefPtr(Args&&... aArgs) {
|
|
RefPtr<T> p(new T(std::forward<Args>(aArgs)...));
|
|
return p;
|
|
}
|
|
|
|
} // namespace mozilla
|
|
|
|
#endif /* mozilla_RefPtr_h */
|