/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef mozilla_nsRefPtr_h #define mozilla_nsRefPtr_h #include "mozilla/AlreadyAddRefed.h" #include "mozilla/Assertions.h" #include "mozilla/Attributes.h" /*****************************************************************************/ // template class nsRefPtrGetterAddRefs; class nsCOMPtr_helper; namespace mozilla { namespace dom { template class OwningNonNull; } // namespace dom } // namespace mozilla template class nsRefPtr { private: void assign_with_AddRef(T* aRawPtr) { if (aRawPtr) { aRawPtr->AddRef(); } assign_assuming_AddRef(aRawPtr); } void** begin_assignment() { assign_assuming_AddRef(0); return reinterpret_cast(&mRawPtr); } void assign_assuming_AddRef(T* aNewPtr) { T* oldPtr = mRawPtr; mRawPtr = aNewPtr; if (oldPtr) { oldPtr->Release(); } } private: T* MOZ_OWNING_REF mRawPtr; public: typedef T element_type; ~nsRefPtr() { if (mRawPtr) { mRawPtr->Release(); } } // Constructors nsRefPtr() : mRawPtr(0) // default constructor { } nsRefPtr(const nsRefPtr& aSmartPtr) : mRawPtr(aSmartPtr.mRawPtr) // copy-constructor { if (mRawPtr) { mRawPtr->AddRef(); } } nsRefPtr(nsRefPtr&& aRefPtr) : mRawPtr(aRefPtr.mRawPtr) { aRefPtr.mRawPtr = nullptr; } // construct from a raw pointer (of the right type) MOZ_IMPLICIT nsRefPtr(T* aRawPtr) : mRawPtr(aRawPtr) { if (mRawPtr) { mRawPtr->AddRef(); } } template MOZ_IMPLICIT nsRefPtr(already_AddRefed& aSmartPtr) : mRawPtr(aSmartPtr.take()) // construct from |already_AddRefed| { } template MOZ_IMPLICIT nsRefPtr(already_AddRefed&& aSmartPtr) : mRawPtr(aSmartPtr.take()) // construct from |otherRefPtr.forget()| { } template MOZ_IMPLICIT nsRefPtr(nsRefPtr&& aSmartPtr) : mRawPtr(aSmartPtr.forget().take()) // construct from |Move(nsRefPtr)|. { } MOZ_IMPLICIT nsRefPtr(const nsCOMPtr_helper& aHelper); // Defined in OwningNonNull.h template MOZ_IMPLICIT nsRefPtr(const mozilla::dom::OwningNonNull& aOther); // Assignment operators nsRefPtr& operator=(const nsRefPtr& aRhs) // copy assignment operator { assign_with_AddRef(aRhs.mRawPtr); return *this; } nsRefPtr& operator=(T* aRhs) // assign from a raw pointer (of the right type) { assign_with_AddRef(aRhs); return *this; } template nsRefPtr& operator=(already_AddRefed& aRhs) // assign from |already_AddRefed| { assign_assuming_AddRef(aRhs.take()); return *this; } template nsRefPtr& operator=(already_AddRefed && aRhs) // assign from |otherRefPtr.forget()| { assign_assuming_AddRef(aRhs.take()); return *this; } nsRefPtr& operator=(const nsCOMPtr_helper& aHelper); nsRefPtr& operator=(nsRefPtr && aRefPtr) { assign_assuming_AddRef(aRefPtr.mRawPtr); aRefPtr.mRawPtr = nullptr; return *this; } // Defined in OwningNonNull.h template nsRefPtr& operator=(const mozilla::dom::OwningNonNull& aOther); // Other pointer operators void swap(nsRefPtr& aRhs) // ...exchange ownership with |aRhs|; can save a pair of refcount operations { T* temp = aRhs.mRawPtr; aRhs.mRawPtr = mRawPtr; mRawPtr = temp; } void swap(T*& aRhs) // ...exchange ownership with |aRhs|; can save a pair of refcount operations { T* temp = aRhs; aRhs = mRawPtr; mRawPtr = temp; } already_AddRefed forget() // return the value of mRawPtr and null out mRawPtr. Useful for // already_AddRefed return values. { T* temp = 0; swap(temp); return already_AddRefed(temp); } template void forget(I** aRhs) // Set the target of aRhs to the value of mRawPtr and null out mRawPtr. // Useful to avoid unnecessary AddRef/Release pairs with "out" // parameters where aRhs bay be a T** or an I** where I is a base class // of T. { MOZ_ASSERT(aRhs, "Null pointer passed to forget!"); *aRhs = mRawPtr; mRawPtr = 0; } T* get() const /* Prefer the implicit conversion provided automatically by |operator T*() const|. Use |get()| to resolve ambiguity or to get a castable pointer. */ { return const_cast(mRawPtr); } operator T*() const /* ...makes an |nsRefPtr| act like its underlying raw pointer type whenever it is used in a context where a raw pointer is expected. It is this operator that makes an |nsRefPtr| substitutable for a raw pointer. Prefer the implicit use of this operator to calling |get()|, except where necessary to resolve ambiguity. */ { return get(); } T* operator->() const MOZ_NO_ADDREF_RELEASE_ON_RETURN { MOZ_ASSERT(mRawPtr != 0, "You can't dereference a NULL nsRefPtr with operator->()."); return get(); } template class Proxy { typedef R (T::*member_function)(Args...); T* mRawPtr; member_function mFunction; public: Proxy(T* aRawPtr, member_function aFunction) : mRawPtr(aRawPtr), mFunction(aFunction) { } R operator()(Args... aArgs) { return ((*mRawPtr).*mFunction)(mozilla::Forward(aArgs)...); } }; template Proxy operator->*(R (T::*aFptr)(Args...)) const { MOZ_ASSERT(mRawPtr != 0, "You can't dereference a NULL nsRefPtr with operator->*()."); return Proxy(get(), aFptr); } nsRefPtr* get_address() // This is not intended to be used by clients. See |address_of| // below. { return this; } const nsRefPtr* get_address() const // This is not intended to be used by clients. See |address_of| // below. { return this; } public: T& operator*() const { MOZ_ASSERT(mRawPtr != 0, "You can't dereference a NULL nsRefPtr with operator*()."); return *get(); } T** StartAssignment() { assign_assuming_AddRef(0); return reinterpret_cast(&mRawPtr); } }; class nsCycleCollectionTraversalCallback; template void CycleCollectionNoteChild(nsCycleCollectionTraversalCallback& aCallback, T* aChild, const char* aName, uint32_t aFlags); template inline void ImplCycleCollectionUnlink(nsRefPtr& aField) { aField = nullptr; } template inline void ImplCycleCollectionTraverse(nsCycleCollectionTraversalCallback& aCallback, nsRefPtr& aField, const char* aName, uint32_t aFlags = 0) { CycleCollectionNoteChild(aCallback, aField.get(), aName, aFlags); } template inline nsRefPtr* address_of(nsRefPtr& aPtr) { return aPtr.get_address(); } template inline const nsRefPtr* address_of(const nsRefPtr& aPtr) { return aPtr.get_address(); } template class nsRefPtrGetterAddRefs /* ... This class is designed to be used for anonymous temporary objects in the argument list of calls that return COM interface pointers, e.g., nsRefPtr fooP; ...->GetAddRefedPointer(getter_AddRefs(fooP)) DO NOT USE THIS TYPE DIRECTLY IN YOUR CODE. Use |getter_AddRefs()| instead. When initialized with a |nsRefPtr|, as in the example above, it returns a |void**|, a |T**|, or an |nsISupports**| as needed, that the outer call (|GetAddRefedPointer| in this case) can fill in. This type should be a nested class inside |nsRefPtr|. */ { public: explicit nsRefPtrGetterAddRefs(nsRefPtr& aSmartPtr) : mTargetSmartPtr(aSmartPtr) { // nothing else to do } operator void**() { return reinterpret_cast(mTargetSmartPtr.StartAssignment()); } operator T**() { return mTargetSmartPtr.StartAssignment(); } T*& operator*() { return *(mTargetSmartPtr.StartAssignment()); } private: nsRefPtr& mTargetSmartPtr; }; template inline nsRefPtrGetterAddRefs getter_AddRefs(nsRefPtr& aSmartPtr) /* Used around a |nsRefPtr| when ...makes the class |nsRefPtrGetterAddRefs| invisible. */ { return nsRefPtrGetterAddRefs(aSmartPtr); } // Comparing two |nsRefPtr|s template inline bool operator==(const nsRefPtr& aLhs, const nsRefPtr& aRhs) { return static_cast(aLhs.get()) == static_cast(aRhs.get()); } template inline bool operator!=(const nsRefPtr& aLhs, const nsRefPtr& aRhs) { return static_cast(aLhs.get()) != static_cast(aRhs.get()); } // Comparing an |nsRefPtr| to a raw pointer template inline bool operator==(const nsRefPtr& aLhs, const U* aRhs) { return static_cast(aLhs.get()) == static_cast(aRhs); } template inline bool operator==(const U* aLhs, const nsRefPtr& aRhs) { return static_cast(aLhs) == static_cast(aRhs.get()); } template inline bool operator!=(const nsRefPtr& aLhs, const U* aRhs) { return static_cast(aLhs.get()) != static_cast(aRhs); } template inline bool operator!=(const U* aLhs, const nsRefPtr& aRhs) { return static_cast(aLhs) != static_cast(aRhs.get()); } template inline bool operator==(const nsRefPtr& aLhs, U* aRhs) { return static_cast(aLhs.get()) == const_cast(aRhs); } template inline bool operator==(U* aLhs, const nsRefPtr& aRhs) { return const_cast(aLhs) == static_cast(aRhs.get()); } template inline bool operator!=(const nsRefPtr& aLhs, U* aRhs) { return static_cast(aLhs.get()) != const_cast(aRhs); } template inline bool operator!=(U* aLhs, const nsRefPtr& aRhs) { return const_cast(aLhs) != static_cast(aRhs.get()); } namespace detail { class nsRefPtrZero; } // namespace detail // Comparing an |nsRefPtr| to |0| template inline bool operator==(const nsRefPtr& aLhs, ::detail::nsRefPtrZero* aRhs) // specifically to allow |smartPtr == 0| { return static_cast(aLhs.get()) == reinterpret_cast(aRhs); } template inline bool operator==(::detail::nsRefPtrZero* aLhs, const nsRefPtr& aRhs) // specifically to allow |0 == smartPtr| { return reinterpret_cast(aLhs) == static_cast(aRhs.get()); } template inline bool operator!=(const nsRefPtr& aLhs, ::detail::nsRefPtrZero* aRhs) // specifically to allow |smartPtr != 0| { return static_cast(aLhs.get()) != reinterpret_cast(aRhs); } template inline bool operator!=(::detail::nsRefPtrZero* aLhs, const nsRefPtr& aRhs) // specifically to allow |0 != smartPtr| { return reinterpret_cast(aLhs) != static_cast(aRhs.get()); } /*****************************************************************************/ template inline already_AddRefed do_AddRef(T*&& aObj) { nsRefPtr ref(aObj); return ref.forget(); } #endif /* mozilla_nsRefPtr_h */