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|
/* -*- 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 nsCOMPtr_h___
#define nsCOMPtr_h___
/*
* Having problems?
*
* See the documentation at:
* https://firefox-source-docs.mozilla.org/xpcom/refptr.html
*
*
* nsCOMPtr
* better than a raw pointer
* for owning objects
* -- scc
*/
#include <type_traits>
#include "mozilla/AlreadyAddRefed.h"
#include "mozilla/Assertions.h"
#include "mozilla/Attributes.h"
#include "mozilla/RefPtr.h"
#include "nsCycleCollectionNoteChild.h"
#include "nsDebug.h" // for |NS_ASSERTION|
#include "nsISupportsUtils.h" // for |nsresult|, |NS_ADDREF|, |NS_GET_TEMPLATE_IID| et al
/*
* WARNING: This file defines several macros for internal use only. These
* macros begin with the prefix |NSCAP_|. Do not use these macros in your own
* code. They are for internal use only for cross-platform compatibility, and
* are subject to change without notice.
*/
#ifdef _MSC_VER
// Under VC++, we win by inlining StartAssignment.
# define NSCAP_FEATURE_INLINE_STARTASSIGNMENT
// Also under VC++, at the highest warning level, we are overwhelmed with
// warnings about (unused) inline functions being removed. This is to be
// expected with templates, so we disable the warning.
# pragma warning(disable : 4514)
#endif
#define NSCAP_FEATURE_USE_BASE
#ifdef DEBUG
# define NSCAP_FEATURE_TEST_DONTQUERY_CASES
# undef NSCAP_FEATURE_USE_BASE
#endif
#ifdef __GNUC__
// Our use of nsCOMPtr_base::mRawPtr violates the C++ standard's aliasing
// rules. Mark it with the may_alias attribute so that gcc 3.3 and higher
// don't reorder instructions based on aliasing assumptions for
// this variable. Fortunately, gcc versions < 3.3 do not do any
// optimizations that break nsCOMPtr.
# define NS_MAY_ALIAS_PTR(t) t* __attribute__((__may_alias__))
#else
# define NS_MAY_ALIAS_PTR(t) t*
#endif
#if defined(NSCAP_DISABLE_DEBUG_PTR_TYPES)
# define NSCAP_FEATURE_USE_BASE
#endif
/*
* The following three macros (NSCAP_ADDREF, NSCAP_RELEASE, and
* NSCAP_LOG_ASSIGNMENT) allow external clients the ability to add logging or
* other interesting debug facilities. In fact, if you want |nsCOMPtr| to
* participate in the standard logging facility, you provide
* (e.g., in "nsISupportsImpl.h") suitable definitions
*
* #define NSCAP_ADDREF(this, ptr) NS_ADDREF(ptr)
* #define NSCAP_RELEASE(this, ptr) NS_RELEASE(ptr)
*/
#ifndef NSCAP_ADDREF
# define NSCAP_ADDREF(this, ptr) (ptr)->AddRef()
#endif
#ifndef NSCAP_RELEASE
# define NSCAP_RELEASE(this, ptr) (ptr)->Release()
#endif
// Clients can define |NSCAP_LOG_ASSIGNMENT| to perform logging.
#ifdef NSCAP_LOG_ASSIGNMENT
// Remember that |NSCAP_LOG_ASSIGNMENT| was defined by some client so that we
// know to instantiate |~nsGetterAddRefs| in turn to note the external
// assignment into the |nsCOMPtr|.
# define NSCAP_LOG_EXTERNAL_ASSIGNMENT
#else
// ...otherwise, just strip it out of the code
# define NSCAP_LOG_ASSIGNMENT(this, ptr)
#endif
#ifndef NSCAP_LOG_RELEASE
# define NSCAP_LOG_RELEASE(this, ptr)
#endif
namespace mozilla {
template <class T>
class OwningNonNull;
} // namespace mozilla
template <class T>
inline already_AddRefed<T> dont_AddRef(T* aRawPtr) {
return already_AddRefed<T>(aRawPtr);
}
template <class T>
inline already_AddRefed<T>&& dont_AddRef(
already_AddRefed<T>&& aAlreadyAddRefedPtr) {
return std::move(aAlreadyAddRefedPtr);
}
/*
* An nsCOMPtr_helper transforms commonly called getters into typesafe forms
* that are more convenient to call, and more efficient to use with |nsCOMPtr|s.
* Good candidates for helpers are |QueryInterface()|, |CreateInstance()|, etc.
*
* Here are the rules for a helper:
* - it implements |operator()| to produce an interface pointer
* - (except for its name) |operator()| is a valid [XP]COM `getter'
* - the interface pointer that it returns is already |AddRef()|ed (as from
* any good getter)
* - it matches the type requested with the supplied |nsIID| argument
* - its constructor provides an optional |nsresult*| that |operator()| can
* fill in with an error when it is executed
*
* See |class nsGetInterface| for an example.
*/
class MOZ_STACK_CLASS nsCOMPtr_helper {
public:
virtual nsresult NS_FASTCALL operator()(const nsIID&, void**) const = 0;
};
/*
* nsQueryInterface could have been implemented as an nsCOMPtr_helper to avoid
* adding specialized machinery in nsCOMPtr, but do_QueryInterface is called
* often enough that the codesize savings are big enough to warrant the
* specialcasing.
*/
class MOZ_STACK_CLASS nsQueryInterfaceISupports {
public:
explicit nsQueryInterfaceISupports(nsISupports* aRawPtr) : mRawPtr(aRawPtr) {}
nsresult NS_FASTCALL operator()(const nsIID& aIID, void**) const;
private:
nsISupports* MOZ_OWNING_REF mRawPtr;
};
#ifndef NSCAP_FEATURE_USE_BASE
template <typename T>
class MOZ_STACK_CLASS nsQueryInterface final
: public nsQueryInterfaceISupports {
public:
explicit nsQueryInterface(T* aRawPtr)
: nsQueryInterfaceISupports(ToSupports(aRawPtr)) {}
nsresult NS_FASTCALL operator()(const nsIID& aIID, void** aAnswer) const {
return nsQueryInterfaceISupports::operator()(aIID, aAnswer);
}
};
#endif // #ifndef NSCAP_FEATURE_USE_BASE
class MOZ_STACK_CLASS nsQueryInterfaceISupportsWithError {
public:
nsQueryInterfaceISupportsWithError(nsISupports* aRawPtr, nsresult* aError)
: mRawPtr(aRawPtr), mErrorPtr(aError) {}
nsresult NS_FASTCALL operator()(const nsIID& aIID, void**) const;
private:
nsISupports* MOZ_OWNING_REF mRawPtr;
nsresult* mErrorPtr;
};
#ifndef NSCAP_FEATURE_USE_BASE
template <typename T>
class MOZ_STACK_CLASS nsQueryInterfaceWithError final
: public nsQueryInterfaceISupportsWithError {
public:
explicit nsQueryInterfaceWithError(T* aRawPtr, nsresult* aError)
: nsQueryInterfaceISupportsWithError(ToSupports(aRawPtr), aError) {}
nsresult NS_FASTCALL operator()(const nsIID& aIID, void** aAnswer) const {
return nsQueryInterfaceISupportsWithError::operator()(aIID, aAnswer);
}
};
#endif // #ifndef NSCAP_FEATURE_USE_BASE
namespace mozilla {
// PointedToType<> is needed so that do_QueryInterface() will work with a
// variety of smart pointer types in addition to raw pointers. These types
// include RefPtr<>, nsCOMPtr<>, and OwningNonNull<>.
template <class T>
using PointedToType = std::remove_pointer_t<decltype(&*std::declval<T>())>;
} // namespace mozilla
#ifdef NSCAP_FEATURE_USE_BASE
template <class T>
inline nsQueryInterfaceISupports do_QueryInterface(T aPtr) {
return nsQueryInterfaceISupports(
ToSupports(static_cast<mozilla::PointedToType<T>*>(aPtr)));
}
template <class T>
inline nsQueryInterfaceISupportsWithError do_QueryInterface(T aPtr,
nsresult* aError) {
return nsQueryInterfaceISupportsWithError(
ToSupports(static_cast<mozilla::PointedToType<T>*>(aPtr)), aError);
}
#else
template <class T>
inline nsQueryInterface<mozilla::PointedToType<T>> do_QueryInterface(T aPtr) {
return nsQueryInterface<mozilla::PointedToType<T>>(aPtr);
}
template <class T>
inline nsQueryInterfaceWithError<mozilla::PointedToType<T>> do_QueryInterface(
T aRawPtr, nsresult* aError) {
return nsQueryInterfaceWithError<mozilla::PointedToType<T>>(aRawPtr, aError);
}
#endif // ! #ifdef NSCAP_FEATURE_USE_BASE
template <class T>
inline void do_QueryInterface(already_AddRefed<T>&) {
// This signature exists solely to _stop_ you from doing the bad thing.
// Saying |do_QueryInterface()| on a pointer that is not otherwise owned by
// someone else is an automatic leak. See bug 8221.
}
template <class T>
inline void do_QueryInterface(already_AddRefed<T>&, nsresult*) {
// This signature exists solely to _stop_ you from doing the bad thing.
// Saying |do_QueryInterface()| on a pointer that is not otherwise owned by
// someone else is an automatic leak. See bug 8221.
}
////////////////////////////////////////////////////////////////////////////
// Using servicemanager with COMPtrs
class nsGetServiceByCID final {
public:
explicit nsGetServiceByCID(const nsCID& aCID) : mCID(aCID) {}
nsresult NS_FASTCALL operator()(const nsIID&, void**) const;
private:
const nsCID& mCID;
};
class nsGetServiceByCIDWithError final {
public:
nsGetServiceByCIDWithError(const nsCID& aCID, nsresult* aErrorPtr)
: mCID(aCID), mErrorPtr(aErrorPtr) {}
nsresult NS_FASTCALL operator()(const nsIID&, void**) const;
private:
const nsCID& mCID;
nsresult* mErrorPtr;
};
class nsGetServiceByContractID final {
public:
explicit nsGetServiceByContractID(const char* aContractID)
: mContractID(aContractID) {}
nsresult NS_FASTCALL operator()(const nsIID&, void**) const;
private:
const char* mContractID;
};
class nsGetServiceByContractIDWithError final {
public:
nsGetServiceByContractIDWithError(const char* aContractID,
nsresult* aErrorPtr)
: mContractID(aContractID), mErrorPtr(aErrorPtr) {}
nsresult NS_FASTCALL operator()(const nsIID&, void**) const;
private:
const char* mContractID;
nsresult* mErrorPtr;
};
class nsIWeakReference;
// Weak references
class MOZ_STACK_CLASS nsQueryReferent final {
public:
nsQueryReferent(nsIWeakReference* aWeakPtr, nsresult* aError)
: mWeakPtr(aWeakPtr), mErrorPtr(aError) {}
nsresult NS_FASTCALL operator()(const nsIID& aIID, void**) const;
private:
nsIWeakReference* MOZ_NON_OWNING_REF mWeakPtr;
nsresult* mErrorPtr;
};
/**
* Factors implementation for all template versions of nsCOMPtr.
*
* Here's the way people normally do things like this:
*
* template<class T> class Foo { ... };
* template<> class Foo<void*> { ... };
* template<class T> class Foo<T*> : private Foo<void*> { ... };
*/
class nsCOMPtr_base {
public:
explicit nsCOMPtr_base(nsISupports* aRawPtr = nullptr) : mRawPtr(aRawPtr) {}
NS_CONSTRUCTOR_FASTCALL ~nsCOMPtr_base() {
NSCAP_LOG_RELEASE(this, mRawPtr);
if (mRawPtr) {
NSCAP_RELEASE(this, mRawPtr);
}
}
void NS_FASTCALL assign_with_AddRef(nsISupports*);
void NS_FASTCALL assign_from_qi(const nsQueryInterfaceISupports,
const nsIID&);
void NS_FASTCALL assign_from_qi_with_error(
const nsQueryInterfaceISupportsWithError&, const nsIID&);
void NS_FASTCALL assign_from_gs_cid(const nsGetServiceByCID, const nsIID&);
void NS_FASTCALL assign_from_gs_cid_with_error(
const nsGetServiceByCIDWithError&, const nsIID&);
void NS_FASTCALL assign_from_gs_contractid(const nsGetServiceByContractID,
const nsIID&);
void NS_FASTCALL assign_from_gs_contractid_with_error(
const nsGetServiceByContractIDWithError&, const nsIID&);
void NS_FASTCALL assign_from_query_referent(const nsQueryReferent&,
const nsIID&);
void NS_FASTCALL assign_from_helper(const nsCOMPtr_helper&, const nsIID&);
// Since in most cases, begin_assignment is called on a default-constructed
// nsCOMPtr, the call to assign_assuming_AddRef becomes a no-op in release
// builds. However, the compiler does not always optimize this away and emits a
// call to begin_assignment without MOZ_ALWAYS_INLINE. When logging is enabled,
// this might cause code bloat, so we MOZ_NEVER_INLINE in that case.
#ifdef NSCAP_LOG_EXTERNAL_ASSIGNMENT
MOZ_NEVER_INLINE
#else
MOZ_ALWAYS_INLINE
#endif
void** NS_FASTCALL begin_assignment() {
assign_assuming_AddRef(nullptr);
return reinterpret_cast<void**>(&mRawPtr);
}
protected:
NS_MAY_ALIAS_PTR(nsISupports) MOZ_OWNING_REF mRawPtr;
void assign_assuming_AddRef(nsISupports* aNewPtr) {
// |AddRef()|ing the new value (before entering this function) before
// |Release()|ing the old lets us safely ignore the self-assignment case.
// We must, however, be careful only to |Release()| _after_ doing the
// assignment, in case the |Release()| leads to our _own_ destruction,
// which would, in turn, cause an incorrect second |Release()| of our old
// pointer. Thank <waterson@netscape.com> for discovering this.
nsISupports* oldPtr = mRawPtr;
mRawPtr = aNewPtr;
NSCAP_LOG_ASSIGNMENT(this, aNewPtr);
NSCAP_LOG_RELEASE(this, oldPtr);
if (oldPtr) {
NSCAP_RELEASE(this, oldPtr);
}
}
};
// template<class T> class nsGetterAddRefs;
// Helper for assert_validity method
template <class T>
char (&TestForIID(decltype(&NS_GET_TEMPLATE_IID(T))))[2];
template <class T>
char TestForIID(...);
template <class T>
class MOZ_IS_REFPTR nsCOMPtr final
#ifdef NSCAP_FEATURE_USE_BASE
: private nsCOMPtr_base
#endif
{
private:
#ifdef NSCAP_FEATURE_USE_BASE
# define NSCAP_CTOR_BASE(x) nsCOMPtr_base(ToSupports(x))
void assign_assuming_AddRef(T* aNewPtr) {
nsCOMPtr_base::assign_assuming_AddRef(ToSupports(aNewPtr));
}
#else
# define NSCAP_CTOR_BASE(x) mRawPtr(x)
void assign_with_AddRef(nsISupports*);
template <typename U>
void assign_from_qi(const nsQueryInterface<U>, const nsIID&);
template <typename U>
void assign_from_qi_with_error(const nsQueryInterfaceWithError<U>&,
const nsIID&);
void assign_from_gs_cid(const nsGetServiceByCID, const nsIID&);
void assign_from_gs_cid_with_error(const nsGetServiceByCIDWithError&,
const nsIID&);
void assign_from_gs_contractid(const nsGetServiceByContractID, const nsIID&);
void assign_from_gs_contractid_with_error(
const nsGetServiceByContractIDWithError&, const nsIID&);
void assign_from_query_referent(const nsQueryReferent&, const nsIID&);
void assign_from_helper(const nsCOMPtr_helper&, const nsIID&);
void** begin_assignment();
void assign_assuming_AddRef(T* aNewPtr) {
T* oldPtr = mRawPtr;
mRawPtr = aNewPtr;
NSCAP_LOG_ASSIGNMENT(this, aNewPtr);
NSCAP_LOG_RELEASE(this, oldPtr);
if (oldPtr) {
NSCAP_RELEASE(this, oldPtr);
}
}
private:
T* MOZ_OWNING_REF mRawPtr;
#endif
void assert_validity() {
static_assert(1 < sizeof(TestForIID<T>(nullptr)),
"nsCOMPtr only works "
"for types with IIDs. Either use RefPtr; add an IID to "
"your type with NS_DECLARE_STATIC_IID_ACCESSOR/"
"NS_DEFINE_STATIC_IID_ACCESSOR; or make the nsCOMPtr point "
"to a base class with an IID.");
}
public:
typedef T element_type;
#ifndef NSCAP_FEATURE_USE_BASE
~nsCOMPtr() {
NSCAP_LOG_RELEASE(this, mRawPtr);
if (mRawPtr) {
NSCAP_RELEASE(this, mRawPtr);
}
}
#endif
#ifdef NSCAP_FEATURE_TEST_DONTQUERY_CASES
void Assert_NoQueryNeeded() {
if (mRawPtr) {
// This can't be defined in terms of do_QueryInterface because
// that bans casts from a class to itself.
void* out = nullptr;
mRawPtr->QueryInterface(NS_GET_TEMPLATE_IID(T), &out);
T* query_result = static_cast<T*>(out);
MOZ_ASSERT(query_result == mRawPtr, "QueryInterface needed");
NS_RELEASE(query_result);
}
}
# define NSCAP_ASSERT_NO_QUERY_NEEDED() Assert_NoQueryNeeded();
#else
# define NSCAP_ASSERT_NO_QUERY_NEEDED()
#endif
// Constructors
nsCOMPtr() : NSCAP_CTOR_BASE(nullptr) {
assert_validity();
NSCAP_LOG_ASSIGNMENT(this, nullptr);
}
MOZ_IMPLICIT nsCOMPtr(decltype(nullptr)) : NSCAP_CTOR_BASE(nullptr) {
assert_validity();
NSCAP_LOG_ASSIGNMENT(this, nullptr);
}
nsCOMPtr(const nsCOMPtr<T>& aSmartPtr) : NSCAP_CTOR_BASE(aSmartPtr.mRawPtr) {
assert_validity();
if (mRawPtr) {
NSCAP_ADDREF(this, mRawPtr);
}
NSCAP_LOG_ASSIGNMENT(this, aSmartPtr.mRawPtr);
}
template <class U>
MOZ_IMPLICIT nsCOMPtr(const nsCOMPtr<U>& aSmartPtr)
: NSCAP_CTOR_BASE(aSmartPtr.get()) {
// Make sure that U actually inherits from T
static_assert(std::is_base_of<T, U>::value, "U should be a subclass of T");
assert_validity();
if (mRawPtr) {
NSCAP_ADDREF(this, mRawPtr);
}
NSCAP_LOG_ASSIGNMENT(this, aSmartPtr.get());
}
nsCOMPtr(nsCOMPtr<T>&& aSmartPtr) : NSCAP_CTOR_BASE(aSmartPtr.mRawPtr) {
assert_validity();
aSmartPtr.mRawPtr = nullptr;
NSCAP_LOG_ASSIGNMENT(this, mRawPtr);
}
template <class U>
MOZ_IMPLICIT nsCOMPtr(nsCOMPtr<U>&& aSmartPtr)
: NSCAP_CTOR_BASE(aSmartPtr.forget().template downcast<T>().take()) {
// Make sure that U actually inherits from T
static_assert(std::is_base_of<T, U>::value, "U should be a subclass of T");
assert_validity();
NSCAP_LOG_ASSIGNMENT(this, mRawPtr);
NSCAP_ASSERT_NO_QUERY_NEEDED();
}
MOZ_IMPLICIT nsCOMPtr(T* aRawPtr) : NSCAP_CTOR_BASE(aRawPtr) {
assert_validity();
if (mRawPtr) {
NSCAP_ADDREF(this, mRawPtr);
}
NSCAP_LOG_ASSIGNMENT(this, aRawPtr);
NSCAP_ASSERT_NO_QUERY_NEEDED();
}
MOZ_IMPLICIT nsCOMPtr(already_AddRefed<T>& aSmartPtr)
: NSCAP_CTOR_BASE(aSmartPtr.take()) {
assert_validity();
NSCAP_LOG_ASSIGNMENT(this, mRawPtr);
NSCAP_ASSERT_NO_QUERY_NEEDED();
}
// Construct from |otherComPtr.forget()|.
MOZ_IMPLICIT nsCOMPtr(already_AddRefed<T>&& aSmartPtr)
: NSCAP_CTOR_BASE(aSmartPtr.take()) {
assert_validity();
NSCAP_LOG_ASSIGNMENT(this, mRawPtr);
NSCAP_ASSERT_NO_QUERY_NEEDED();
}
// Construct from |std::move(otherRefPtr)|.
template <typename U>
MOZ_IMPLICIT nsCOMPtr(RefPtr<U>&& aSmartPtr)
: NSCAP_CTOR_BASE(
static_cast<already_AddRefed<T>>(aSmartPtr.forget()).take()) {
assert_validity();
// Make sure that U actually inherits from T
static_assert(std::is_base_of<T, U>::value, "U is not a subclass of T");
NSCAP_LOG_ASSIGNMENT(this, mRawPtr);
NSCAP_ASSERT_NO_QUERY_NEEDED();
}
// Construct from |already_AddRefed|.
template <typename U>
MOZ_IMPLICIT nsCOMPtr(already_AddRefed<U>& aSmartPtr)
: NSCAP_CTOR_BASE(static_cast<T*>(aSmartPtr.take())) {
assert_validity();
// But make sure that U actually inherits from T.
static_assert(std::is_base_of<T, U>::value, "U is not a subclass of T");
NSCAP_LOG_ASSIGNMENT(this, static_cast<T*>(mRawPtr));
NSCAP_ASSERT_NO_QUERY_NEEDED();
}
// Construct from |otherComPtr.forget()|.
template <typename U>
MOZ_IMPLICIT nsCOMPtr(already_AddRefed<U>&& aSmartPtr)
: NSCAP_CTOR_BASE(static_cast<T*>(aSmartPtr.take())) {
assert_validity();
// But make sure that U actually inherits from T.
static_assert(std::is_base_of<T, U>::value, "U is not a subclass of T");
NSCAP_LOG_ASSIGNMENT(this, static_cast<T*>(mRawPtr));
NSCAP_ASSERT_NO_QUERY_NEEDED();
}
// Construct from |do_QueryInterface(expr)|.
#ifdef NSCAP_FEATURE_USE_BASE
MOZ_IMPLICIT nsCOMPtr(const nsQueryInterfaceISupports aQI)
#else
template <typename U>
MOZ_IMPLICIT nsCOMPtr(const nsQueryInterface<U> aQI)
#endif // ! #ifdef NSCAP_FEATURE_USE_BASE
: NSCAP_CTOR_BASE(nullptr) {
assert_validity();
NSCAP_LOG_ASSIGNMENT(this, nullptr);
assign_from_qi(aQI, NS_GET_TEMPLATE_IID(T));
}
// Construct from |do_QueryInterface(expr, &rv)|.
#ifdef NSCAP_FEATURE_USE_BASE
MOZ_IMPLICIT nsCOMPtr(const nsQueryInterfaceISupportsWithError& aQI)
#else
template <typename U>
MOZ_IMPLICIT nsCOMPtr(const nsQueryInterfaceWithError<U>& aQI)
#endif // ! #ifdef NSCAP_FEATURE_USE_BASE
: NSCAP_CTOR_BASE(nullptr) {
assert_validity();
NSCAP_LOG_ASSIGNMENT(this, nullptr);
assign_from_qi_with_error(aQI, NS_GET_TEMPLATE_IID(T));
}
// Construct from |do_GetService(cid_expr)|.
MOZ_IMPLICIT nsCOMPtr(const nsGetServiceByCID aGS)
: NSCAP_CTOR_BASE(nullptr) {
assert_validity();
NSCAP_LOG_ASSIGNMENT(this, nullptr);
assign_from_gs_cid(aGS, NS_GET_TEMPLATE_IID(T));
}
// Construct from |do_GetService(cid_expr, &rv)|.
MOZ_IMPLICIT nsCOMPtr(const nsGetServiceByCIDWithError& aGS)
: NSCAP_CTOR_BASE(nullptr) {
assert_validity();
NSCAP_LOG_ASSIGNMENT(this, nullptr);
assign_from_gs_cid_with_error(aGS, NS_GET_TEMPLATE_IID(T));
}
// Construct from |do_GetService(contractid_expr)|.
MOZ_IMPLICIT nsCOMPtr(const nsGetServiceByContractID aGS)
: NSCAP_CTOR_BASE(nullptr) {
assert_validity();
NSCAP_LOG_ASSIGNMENT(this, nullptr);
assign_from_gs_contractid(aGS, NS_GET_TEMPLATE_IID(T));
}
// Construct from |do_GetService(contractid_expr, &rv)|.
MOZ_IMPLICIT nsCOMPtr(const nsGetServiceByContractIDWithError& aGS)
: NSCAP_CTOR_BASE(nullptr) {
assert_validity();
NSCAP_LOG_ASSIGNMENT(this, nullptr);
assign_from_gs_contractid_with_error(aGS, NS_GET_TEMPLATE_IID(T));
}
// Construct from |do_QueryReferent(ptr)|
MOZ_IMPLICIT nsCOMPtr(const nsQueryReferent& aQueryReferent)
: NSCAP_CTOR_BASE(nullptr) {
assert_validity();
NSCAP_LOG_ASSIGNMENT(this, nullptr);
assign_from_query_referent(aQueryReferent, NS_GET_TEMPLATE_IID(T));
}
// And finally, anything else we might need to construct from can exploit the
// nsCOMPtr_helper facility.
MOZ_IMPLICIT nsCOMPtr(const nsCOMPtr_helper& aHelper)
: NSCAP_CTOR_BASE(nullptr) {
assert_validity();
NSCAP_LOG_ASSIGNMENT(this, nullptr);
assign_from_helper(aHelper, NS_GET_TEMPLATE_IID(T));
NSCAP_ASSERT_NO_QUERY_NEEDED();
}
// Defined in OwningNonNull.h
template <class U>
MOZ_IMPLICIT nsCOMPtr(const mozilla::OwningNonNull<U>& aOther);
// Assignment operators
nsCOMPtr<T>& operator=(const nsCOMPtr<T>& aRhs) {
assign_with_AddRef(ToSupports(aRhs.mRawPtr));
return *this;
}
template <class U>
nsCOMPtr<T>& operator=(const nsCOMPtr<U>& aRhs) {
// Make sure that U actually inherits from T
static_assert(std::is_base_of<T, U>::value, "U should be a subclass of T");
assign_with_AddRef(ToSupports(static_cast<T*>(aRhs.get())));
return *this;
}
nsCOMPtr<T>& operator=(nsCOMPtr<T>&& aRhs) {
assign_assuming_AddRef(aRhs.forget().take());
return *this;
}
template <class U>
nsCOMPtr<T>& operator=(nsCOMPtr<U>&& aRhs) {
// Make sure that U actually inherits from T
static_assert(std::is_base_of<T, U>::value, "U should be a subclass of T");
assign_assuming_AddRef(aRhs.forget().template downcast<T>().take());
NSCAP_ASSERT_NO_QUERY_NEEDED();
return *this;
}
nsCOMPtr<T>& operator=(T* aRhs) {
assign_with_AddRef(ToSupports(aRhs));
NSCAP_ASSERT_NO_QUERY_NEEDED();
return *this;
}
nsCOMPtr<T>& operator=(decltype(nullptr)) {
assign_assuming_AddRef(nullptr);
return *this;
}
// Assign from |already_AddRefed|.
template <typename U>
nsCOMPtr<T>& operator=(already_AddRefed<U>& aRhs) {
// Make sure that U actually inherits from T
static_assert(std::is_base_of<T, U>::value, "U is not a subclass of T");
assign_assuming_AddRef(static_cast<T*>(aRhs.take()));
NSCAP_ASSERT_NO_QUERY_NEEDED();
return *this;
}
// Assign from |otherComPtr.forget()|.
template <typename U>
nsCOMPtr<T>& operator=(already_AddRefed<U>&& aRhs) {
// Make sure that U actually inherits from T
static_assert(std::is_base_of<T, U>::value, "U is not a subclass of T");
assign_assuming_AddRef(static_cast<T*>(aRhs.take()));
NSCAP_ASSERT_NO_QUERY_NEEDED();
return *this;
}
// Assign from |std::move(otherRefPtr)|.
template <typename U>
nsCOMPtr<T>& operator=(RefPtr<U>&& aRhs) {
// Make sure that U actually inherits from T
static_assert(std::is_base_of<T, U>::value, "U is not a subclass of T");
assign_assuming_AddRef(static_cast<T*>(aRhs.forget().take()));
NSCAP_ASSERT_NO_QUERY_NEEDED();
return *this;
}
// Assign from |do_QueryInterface(expr)|.
#ifdef NSCAP_FEATURE_USE_BASE
nsCOMPtr<T>& operator=(const nsQueryInterfaceISupports aRhs)
#else
template <typename U>
nsCOMPtr<T>& operator=(const nsQueryInterface<U> aRhs)
#endif // ! #ifdef NSCAP_FEATURE_USE_BASE
{
assign_from_qi(aRhs, NS_GET_TEMPLATE_IID(T));
return *this;
}
// Assign from |do_QueryInterface(expr, &rv)|.
#ifdef NSCAP_FEATURE_USE_BASE
nsCOMPtr<T>& operator=(const nsQueryInterfaceISupportsWithError& aRhs)
#else
template <typename U>
nsCOMPtr<T>& operator=(const nsQueryInterfaceWithError<U>& aRhs)
#endif // ! #ifdef NSCAP_FEATURE_USE_BASE
{
assign_from_qi_with_error(aRhs, NS_GET_TEMPLATE_IID(T));
return *this;
}
// Assign from |do_GetService(cid_expr)|.
nsCOMPtr<T>& operator=(const nsGetServiceByCID aRhs) {
assign_from_gs_cid(aRhs, NS_GET_TEMPLATE_IID(T));
return *this;
}
// Assign from |do_GetService(cid_expr, &rv)|.
nsCOMPtr<T>& operator=(const nsGetServiceByCIDWithError& aRhs) {
assign_from_gs_cid_with_error(aRhs, NS_GET_TEMPLATE_IID(T));
return *this;
}
// Assign from |do_GetService(contractid_expr)|.
nsCOMPtr<T>& operator=(const nsGetServiceByContractID aRhs) {
assign_from_gs_contractid(aRhs, NS_GET_TEMPLATE_IID(T));
return *this;
}
// Assign from |do_GetService(contractid_expr, &rv)|.
nsCOMPtr<T>& operator=(const nsGetServiceByContractIDWithError& aRhs) {
assign_from_gs_contractid_with_error(aRhs, NS_GET_TEMPLATE_IID(T));
return *this;
}
// Assign from |do_QueryReferent(ptr)|.
nsCOMPtr<T>& operator=(const nsQueryReferent& aRhs) {
assign_from_query_referent(aRhs, NS_GET_TEMPLATE_IID(T));
return *this;
}
// And finally, anything else we might need to assign from can exploit the
// nsCOMPtr_helper facility.
nsCOMPtr<T>& operator=(const nsCOMPtr_helper& aRhs) {
assign_from_helper(aRhs, NS_GET_TEMPLATE_IID(T));
NSCAP_ASSERT_NO_QUERY_NEEDED();
return *this;
}
// Defined in OwningNonNull.h
template <class U>
nsCOMPtr<T>& operator=(const mozilla::OwningNonNull<U>& aOther);
// Exchange ownership with |aRhs|; can save a pair of refcount operations.
void swap(nsCOMPtr<T>& aRhs) {
#ifdef NSCAP_FEATURE_USE_BASE
nsISupports* temp = aRhs.mRawPtr;
#else
T* temp = aRhs.mRawPtr;
#endif
NSCAP_LOG_ASSIGNMENT(&aRhs, mRawPtr);
NSCAP_LOG_ASSIGNMENT(this, temp);
NSCAP_LOG_RELEASE(this, mRawPtr);
NSCAP_LOG_RELEASE(&aRhs, temp);
aRhs.mRawPtr = mRawPtr;
mRawPtr = temp;
// |aRhs| maintains the same invariants, so we don't need to
// |NSCAP_ASSERT_NO_QUERY_NEEDED|
}
// Exchange ownership with |aRhs|; can save a pair of refcount operations.
void swap(T*& aRhs) {
#ifdef NSCAP_FEATURE_USE_BASE
nsISupports* temp = ToSupports(aRhs);
#else
T* temp = aRhs;
#endif
NSCAP_LOG_ASSIGNMENT(this, temp);
NSCAP_LOG_RELEASE(this, mRawPtr);
aRhs = reinterpret_cast<T*>(mRawPtr);
mRawPtr = temp;
NSCAP_ASSERT_NO_QUERY_NEEDED();
}
// Other pointer operators
// Return the value of mRawPtr and null out mRawPtr. Useful for
// already_AddRefed return values.
already_AddRefed<T> MOZ_MAY_CALL_AFTER_MUST_RETURN forget() {
T* temp = nullptr;
swap(temp);
return already_AddRefed<T>(temp);
}
// 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.
template <typename I>
void forget(I** aRhs) {
NS_ASSERTION(aRhs, "Null pointer passed to forget!");
NSCAP_LOG_RELEASE(this, mRawPtr);
*aRhs = get();
mRawPtr = nullptr;
}
// Prefer the implicit conversion provided automatically by
// |operator T*() const|. Use |get()| to resolve ambiguity or to get a
// castable pointer.
T* get() const { return reinterpret_cast<T*>(mRawPtr); }
// Makes an nsCOMPtr 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 nsCOMPtr substitutable for a raw pointer.
//
// Prefer the implicit use of this operator to calling |get()|, except where
// necessary to resolve ambiguity.
operator T*() const& { return get(); }
// Don't allow implicit conversion of temporary nsCOMPtr to raw pointer,
// because the refcount might be one and the pointer will immediately become
// invalid.
operator T*() const&& = delete;
// Needed to avoid the deleted operator above
explicit operator bool() const { return !!mRawPtr; }
T* operator->() const MOZ_NO_ADDREF_RELEASE_ON_RETURN {
MOZ_ASSERT(mRawPtr != nullptr,
"You can't dereference a NULL nsCOMPtr with operator->().");
return get();
}
// These are not intended to be used by clients. See |address_of| below.
nsCOMPtr<T>* get_address() { return this; }
const nsCOMPtr<T>* get_address() const { return this; }
public:
T& operator*() const {
MOZ_ASSERT(mRawPtr != nullptr,
"You can't dereference a NULL nsCOMPtr with operator*().");
return *get();
}
T** StartAssignment() {
#ifndef NSCAP_FEATURE_INLINE_STARTASSIGNMENT
return reinterpret_cast<T**>(begin_assignment());
#else
assign_assuming_AddRef(nullptr);
return reinterpret_cast<T**>(&mRawPtr);
#endif
}
};
/*
* Specializing nsCOMPtr for nsISupports allows us to use nsCOMPtr<nsISupports>
* the same way people use nsISupports* and void*, i.e., as a `catch-all'
* pointing to any valid [XP]COM interface. Otherwise, an nsCOMPtr<nsISupports>
* would only be able to point to the single [XP]COM-correct nsISupports
* instance within an object; extra querying ensues. Clients need to be able to
* pass around arbitrary interface pointers, without hassles, through
* intermediary code that doesn't know the exact type.
*/
template <>
class MOZ_IS_REFPTR nsCOMPtr<nsISupports> : private nsCOMPtr_base {
public:
typedef nsISupports element_type;
// Constructors
nsCOMPtr() : nsCOMPtr_base(nullptr) { NSCAP_LOG_ASSIGNMENT(this, nullptr); }
MOZ_IMPLICIT nsCOMPtr(decltype(nullptr)) : nsCOMPtr_base(nullptr) {
NSCAP_LOG_ASSIGNMENT(this, nullptr);
}
nsCOMPtr(const nsCOMPtr<nsISupports>& aSmartPtr)
: nsCOMPtr_base(aSmartPtr.mRawPtr) {
if (mRawPtr) {
NSCAP_ADDREF(this, mRawPtr);
}
NSCAP_LOG_ASSIGNMENT(this, aSmartPtr.mRawPtr);
}
MOZ_IMPLICIT nsCOMPtr(nsISupports* aRawPtr) : nsCOMPtr_base(aRawPtr) {
if (mRawPtr) {
NSCAP_ADDREF(this, mRawPtr);
}
NSCAP_LOG_ASSIGNMENT(this, aRawPtr);
}
// Construct from |already_AddRefed|.
MOZ_IMPLICIT nsCOMPtr(already_AddRefed<nsISupports>& aSmartPtr)
: nsCOMPtr_base(aSmartPtr.take()) {
NSCAP_LOG_ASSIGNMENT(this, mRawPtr);
}
// Construct from |otherComPtr.forget()|.
MOZ_IMPLICIT nsCOMPtr(already_AddRefed<nsISupports>&& aSmartPtr)
: nsCOMPtr_base(aSmartPtr.take()) {
NSCAP_LOG_ASSIGNMENT(this, mRawPtr);
}
// Construct from |do_QueryInterface(expr)|.
MOZ_IMPLICIT nsCOMPtr(const nsQueryInterfaceISupports aQI)
: nsCOMPtr_base(nullptr) {
NSCAP_LOG_ASSIGNMENT(this, nullptr);
assign_from_qi(aQI, NS_GET_IID(nsISupports));
}
// Construct from |do_QueryInterface(expr, &rv)|.
MOZ_IMPLICIT nsCOMPtr(const nsQueryInterfaceISupportsWithError& aQI)
: nsCOMPtr_base(nullptr) {
NSCAP_LOG_ASSIGNMENT(this, nullptr);
assign_from_qi_with_error(aQI, NS_GET_IID(nsISupports));
}
// Construct from |do_GetService(cid_expr)|.
MOZ_IMPLICIT nsCOMPtr(const nsGetServiceByCID aGS) : nsCOMPtr_base(nullptr) {
NSCAP_LOG_ASSIGNMENT(this, nullptr);
assign_from_gs_cid(aGS, NS_GET_IID(nsISupports));
}
// Construct from |do_GetService(cid_expr, &rv)|.
MOZ_IMPLICIT nsCOMPtr(const nsGetServiceByCIDWithError& aGS)
: nsCOMPtr_base(nullptr) {
NSCAP_LOG_ASSIGNMENT(this, nullptr);
assign_from_gs_cid_with_error(aGS, NS_GET_IID(nsISupports));
}
// Construct from |do_GetService(contractid_expr)|.
MOZ_IMPLICIT nsCOMPtr(const nsGetServiceByContractID aGS)
: nsCOMPtr_base(nullptr) {
NSCAP_LOG_ASSIGNMENT(this, nullptr);
assign_from_gs_contractid(aGS, NS_GET_IID(nsISupports));
}
// Construct from |do_GetService(contractid_expr, &rv)|.
MOZ_IMPLICIT nsCOMPtr(const nsGetServiceByContractIDWithError& aGS)
: nsCOMPtr_base(nullptr) {
NSCAP_LOG_ASSIGNMENT(this, nullptr);
assign_from_gs_contractid_with_error(aGS, NS_GET_IID(nsISupports));
}
// Construct from |do_QueryReferent(ptr)|
MOZ_IMPLICIT nsCOMPtr(const nsQueryReferent& aQueryReferent)
: nsCOMPtr_base(nullptr) {
NSCAP_LOG_ASSIGNMENT(this, nullptr);
assign_from_query_referent(aQueryReferent,
NS_GET_TEMPLATE_IID(nsISupports));
}
// And finally, anything else we might need to construct from can exploit
// the |nsCOMPtr_helper| facility
MOZ_IMPLICIT nsCOMPtr(const nsCOMPtr_helper& aHelper)
: nsCOMPtr_base(nullptr) {
NSCAP_LOG_ASSIGNMENT(this, nullptr);
assign_from_helper(aHelper, NS_GET_IID(nsISupports));
}
// Assignment operators
nsCOMPtr<nsISupports>& operator=(const nsCOMPtr<nsISupports>& aRhs) {
assign_with_AddRef(aRhs.mRawPtr);
return *this;
}
nsCOMPtr<nsISupports>& operator=(nsISupports* aRhs) {
assign_with_AddRef(aRhs);
return *this;
}
nsCOMPtr<nsISupports>& operator=(decltype(nullptr)) {
assign_assuming_AddRef(nullptr);
return *this;
}
// Assign from |already_AddRefed|.
nsCOMPtr<nsISupports>& operator=(already_AddRefed<nsISupports>& aRhs) {
assign_assuming_AddRef(aRhs.take());
return *this;
}
// Assign from |otherComPtr.forget()|.
nsCOMPtr<nsISupports>& operator=(already_AddRefed<nsISupports>&& aRhs) {
assign_assuming_AddRef(aRhs.take());
return *this;
}
// Assign from |do_QueryInterface(expr)|.
nsCOMPtr<nsISupports>& operator=(const nsQueryInterfaceISupports aRhs) {
assign_from_qi(aRhs, NS_GET_IID(nsISupports));
return *this;
}
// Assign from |do_QueryInterface(expr, &rv)|.
nsCOMPtr<nsISupports>& operator=(
const nsQueryInterfaceISupportsWithError& aRhs) {
assign_from_qi_with_error(aRhs, NS_GET_IID(nsISupports));
return *this;
}
// Assign from |do_GetService(cid_expr)|.
nsCOMPtr<nsISupports>& operator=(const nsGetServiceByCID aRhs) {
assign_from_gs_cid(aRhs, NS_GET_IID(nsISupports));
return *this;
}
// Assign from |do_GetService(cid_expr, &rv)|.
nsCOMPtr<nsISupports>& operator=(const nsGetServiceByCIDWithError& aRhs) {
assign_from_gs_cid_with_error(aRhs, NS_GET_IID(nsISupports));
return *this;
}
// Assign from |do_GetService(contractid_expr)|.
nsCOMPtr<nsISupports>& operator=(const nsGetServiceByContractID aRhs) {
assign_from_gs_contractid(aRhs, NS_GET_IID(nsISupports));
return *this;
}
// Assign from |do_GetService(contractid_expr, &rv)|.
nsCOMPtr<nsISupports>& operator=(
const nsGetServiceByContractIDWithError& aRhs) {
assign_from_gs_contractid_with_error(aRhs, NS_GET_IID(nsISupports));
return *this;
}
// Assign from |do_QueryReferent(ptr)|.
nsCOMPtr<nsISupports>& operator=(const nsQueryReferent& aRhs) {
assign_from_query_referent(aRhs, NS_GET_TEMPLATE_IID(nsISupports));
return *this;
}
// And finally, anything else we might need to assign from can exploit the
// nsCOMPtr_helper facility
nsCOMPtr<nsISupports>& operator=(const nsCOMPtr_helper& aRhs) {
assign_from_helper(aRhs, NS_GET_IID(nsISupports));
return *this;
}
// Exchange ownership with |aRhs|; can save a pair of refcount operations.
void swap(nsCOMPtr<nsISupports>& aRhs) {
nsISupports* temp = aRhs.mRawPtr;
NSCAP_LOG_ASSIGNMENT(&aRhs, mRawPtr);
NSCAP_LOG_ASSIGNMENT(this, temp);
NSCAP_LOG_RELEASE(this, mRawPtr);
NSCAP_LOG_RELEASE(&aRhs, temp);
aRhs.mRawPtr = mRawPtr;
mRawPtr = temp;
}
// Exchange ownership with |aRhs|; can save a pair of refcount operations.
void swap(nsISupports*& aRhs) {
nsISupports* temp = aRhs;
NSCAP_LOG_ASSIGNMENT(this, temp);
NSCAP_LOG_RELEASE(this, mRawPtr);
aRhs = mRawPtr;
mRawPtr = temp;
}
// Return the value of mRawPtr and null out mRawPtr. Useful for
// already_AddRefed return values.
already_AddRefed<nsISupports> forget() {
nsISupports* temp = nullptr;
swap(temp);
return already_AddRefed<nsISupports>(temp);
}
// Set the target of aRhs to the value of mRawPtr and null out mRawPtr.
// Useful to avoid unnecessary AddRef/Release pairs with "out"
// parameters.
void forget(nsISupports** aRhs) {
NS_ASSERTION(aRhs, "Null pointer passed to forget!");
*aRhs = nullptr;
swap(*aRhs);
}
// Other pointer operators
// Prefer the implicit conversion provided automatically by
// |operator nsISupports*() const|. Use |get()| to resolve ambiguity or to
// get a castable pointer.
nsISupports* get() const { return reinterpret_cast<nsISupports*>(mRawPtr); }
// Makes an nsCOMPtr 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 nsCOMPtr substitutable for a raw pointer.
//
// Prefer the implicit use of this operator to calling |get()|, except where
// necessary to resolve ambiguity/
operator nsISupports*() const { return get(); }
nsISupports* operator->() const MOZ_NO_ADDREF_RELEASE_ON_RETURN {
MOZ_ASSERT(mRawPtr != nullptr,
"You can't dereference a NULL nsCOMPtr with operator->().");
return get();
}
// These are not intended to be used by clients. See |address_of| below.
nsCOMPtr<nsISupports>* get_address() { return this; }
const nsCOMPtr<nsISupports>* get_address() const { return this; }
public:
nsISupports& operator*() const {
MOZ_ASSERT(mRawPtr != nullptr,
"You can't dereference a NULL nsCOMPtr with operator*().");
return *get();
}
nsISupports** StartAssignment() {
#ifndef NSCAP_FEATURE_INLINE_STARTASSIGNMENT
return reinterpret_cast<nsISupports**>(begin_assignment());
#else
assign_assuming_AddRef(nullptr);
return reinterpret_cast<nsISupports**>(&mRawPtr);
#endif
}
};
template <typename T>
inline void ImplCycleCollectionUnlink(nsCOMPtr<T>& aField) {
aField = nullptr;
}
template <typename T>
inline void ImplCycleCollectionTraverse(
nsCycleCollectionTraversalCallback& aCallback, nsCOMPtr<T>& aField,
const char* aName, uint32_t aFlags = 0) {
CycleCollectionNoteChild(aCallback, aField.get(), aName, aFlags);
}
#ifndef NSCAP_FEATURE_USE_BASE
template <class T>
void nsCOMPtr<T>::assign_with_AddRef(nsISupports* aRawPtr) {
if (aRawPtr) {
NSCAP_ADDREF(this, aRawPtr);
}
assign_assuming_AddRef(reinterpret_cast<T*>(aRawPtr));
}
template <class T>
template <typename U>
void nsCOMPtr<T>::assign_from_qi(const nsQueryInterface<U> aQI,
const nsIID& aIID) {
static_assert(
!(std::is_same_v<T, U> || std::is_base_of<T, U>::value),
"don't use do_QueryInterface for compile-time-determinable casts");
void* newRawPtr;
if (NS_FAILED(aQI(aIID, &newRawPtr))) {
newRawPtr = nullptr;
}
assign_assuming_AddRef(static_cast<T*>(newRawPtr));
}
template <class T>
template <typename U>
void nsCOMPtr<T>::assign_from_qi_with_error(
const nsQueryInterfaceWithError<U>& aQI, const nsIID& aIID) {
static_assert(
!(std::is_same_v<T, U> || std::is_base_of<T, U>::value),
"don't use do_QueryInterface for compile-time-determinable casts");
void* newRawPtr;
if (NS_FAILED(aQI(aIID, &newRawPtr))) {
newRawPtr = nullptr;
}
assign_assuming_AddRef(static_cast<T*>(newRawPtr));
}
template <class T>
void nsCOMPtr<T>::assign_from_gs_cid(const nsGetServiceByCID aGS,
const nsIID& aIID) {
void* newRawPtr;
if (NS_FAILED(aGS(aIID, &newRawPtr))) {
newRawPtr = nullptr;
}
assign_assuming_AddRef(static_cast<T*>(newRawPtr));
}
template <class T>
void nsCOMPtr<T>::assign_from_gs_cid_with_error(
const nsGetServiceByCIDWithError& aGS, const nsIID& aIID) {
void* newRawPtr;
if (NS_FAILED(aGS(aIID, &newRawPtr))) {
newRawPtr = nullptr;
}
assign_assuming_AddRef(static_cast<T*>(newRawPtr));
}
template <class T>
void nsCOMPtr<T>::assign_from_gs_contractid(const nsGetServiceByContractID aGS,
const nsIID& aIID) {
void* newRawPtr;
if (NS_FAILED(aGS(aIID, &newRawPtr))) {
newRawPtr = nullptr;
}
assign_assuming_AddRef(static_cast<T*>(newRawPtr));
}
template <class T>
void nsCOMPtr<T>::assign_from_gs_contractid_with_error(
const nsGetServiceByContractIDWithError& aGS, const nsIID& aIID) {
void* newRawPtr;
if (NS_FAILED(aGS(aIID, &newRawPtr))) {
newRawPtr = nullptr;
}
assign_assuming_AddRef(static_cast<T*>(newRawPtr));
}
template <class T>
void nsCOMPtr<T>::assign_from_query_referent(
const nsQueryReferent& aQueryReferent, const nsIID& aIID) {
void* newRawPtr;
if (NS_FAILED(aQueryReferent(aIID, &newRawPtr))) {
newRawPtr = nullptr;
}
assign_assuming_AddRef(static_cast<T*>(newRawPtr));
}
template <class T>
void nsCOMPtr<T>::assign_from_helper(const nsCOMPtr_helper& helper,
const nsIID& aIID) {
void* newRawPtr;
if (NS_FAILED(helper(aIID, &newRawPtr))) {
newRawPtr = nullptr;
}
assign_assuming_AddRef(static_cast<T*>(newRawPtr));
}
template <class T>
void** nsCOMPtr<T>::begin_assignment() {
assign_assuming_AddRef(nullptr);
union {
T** mT;
void** mVoid;
} result;
result.mT = &mRawPtr;
return result.mVoid;
}
#endif
template <class T>
inline nsCOMPtr<T>* address_of(nsCOMPtr<T>& aPtr) {
return aPtr.get_address();
}
template <class T>
inline const nsCOMPtr<T>* address_of(const nsCOMPtr<T>& aPtr) {
return aPtr.get_address();
}
/**
* This class is designed to be used for anonymous temporary objects in the
* argument list of calls that return COM interface pointers, e.g.,
*
* nsCOMPtr<IFoo> fooP;
* ...->QueryInterface(iid, getter_AddRefs(fooP))
*
* DO NOT USE THIS TYPE DIRECTLY IN YOUR CODE. Use |getter_AddRefs()| instead.
*
* When initialized with a |nsCOMPtr|, as in the example above, it returns
* a |void**|, a |T**|, or an |nsISupports**| as needed, that the outer call
* (|QueryInterface| in this case) can fill in.
*
* This type should be a nested class inside |nsCOMPtr<T>|.
*/
template <class T>
class nsGetterAddRefs {
public:
explicit nsGetterAddRefs(nsCOMPtr<T>& aSmartPtr)
: mTargetSmartPtr(aSmartPtr) {}
#if defined(NSCAP_FEATURE_TEST_DONTQUERY_CASES) || \
defined(NSCAP_LOG_EXTERNAL_ASSIGNMENT)
~nsGetterAddRefs() {
# ifdef NSCAP_LOG_EXTERNAL_ASSIGNMENT
NSCAP_LOG_ASSIGNMENT(reinterpret_cast<void*>(address_of(mTargetSmartPtr)),
mTargetSmartPtr.get());
# endif
# ifdef NSCAP_FEATURE_TEST_DONTQUERY_CASES
mTargetSmartPtr.Assert_NoQueryNeeded();
# endif
}
#endif
operator void**() {
return reinterpret_cast<void**>(mTargetSmartPtr.StartAssignment());
}
operator T**() { return mTargetSmartPtr.StartAssignment(); }
T*& operator*() { return *(mTargetSmartPtr.StartAssignment()); }
private:
nsCOMPtr<T>& mTargetSmartPtr;
};
template <>
class nsGetterAddRefs<nsISupports> {
public:
explicit nsGetterAddRefs(nsCOMPtr<nsISupports>& aSmartPtr)
: mTargetSmartPtr(aSmartPtr) {}
#ifdef NSCAP_LOG_EXTERNAL_ASSIGNMENT
~nsGetterAddRefs() {
NSCAP_LOG_ASSIGNMENT(reinterpret_cast<void*>(address_of(mTargetSmartPtr)),
mTargetSmartPtr.get());
}
#endif
operator void**() {
return reinterpret_cast<void**>(mTargetSmartPtr.StartAssignment());
}
operator nsISupports**() { return mTargetSmartPtr.StartAssignment(); }
nsISupports*& operator*() { return *(mTargetSmartPtr.StartAssignment()); }
private:
nsCOMPtr<nsISupports>& mTargetSmartPtr;
};
template <class T>
inline nsGetterAddRefs<T> getter_AddRefs(nsCOMPtr<T>& aSmartPtr) {
return nsGetterAddRefs<T>(aSmartPtr);
}
template <class T, class DestinationType>
inline nsresult CallQueryInterface(
T* aSource, nsGetterAddRefs<DestinationType> aDestination) {
return CallQueryInterface(aSource,
static_cast<DestinationType**>(aDestination));
}
// Comparing two |nsCOMPtr|s
template <class T, class U>
inline bool operator==(const nsCOMPtr<T>& aLhs, const nsCOMPtr<U>& aRhs) {
return static_cast<const T*>(aLhs.get()) == static_cast<const U*>(aRhs.get());
}
template <class T, class U>
inline bool operator!=(const nsCOMPtr<T>& aLhs, const nsCOMPtr<U>& aRhs) {
return static_cast<const T*>(aLhs.get()) != static_cast<const U*>(aRhs.get());
}
// Comparing an |nsCOMPtr| to a raw pointer
template <class T, class U>
inline bool operator==(const nsCOMPtr<T>& aLhs, const U* aRhs) {
return static_cast<const T*>(aLhs.get()) == aRhs;
}
template <class T, class U>
inline bool operator==(const U* aLhs, const nsCOMPtr<T>& aRhs) {
return aLhs == static_cast<const T*>(aRhs.get());
}
template <class T, class U>
inline bool operator!=(const nsCOMPtr<T>& aLhs, const U* aRhs) {
return static_cast<const T*>(aLhs.get()) != aRhs;
}
template <class T, class U>
inline bool operator!=(const U* aLhs, const nsCOMPtr<T>& aRhs) {
return aLhs != static_cast<const T*>(aRhs.get());
}
template <class T, class U>
inline bool operator==(const nsCOMPtr<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 nsCOMPtr<T>& aRhs) {
return const_cast<const U*>(aLhs) == static_cast<const T*>(aRhs.get());
}
template <class T, class U>
inline bool operator!=(const nsCOMPtr<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 nsCOMPtr<T>& aRhs) {
return const_cast<const U*>(aLhs) != static_cast<const T*>(aRhs.get());
}
// Comparing an |nsCOMPtr| to |nullptr|
template <class T>
inline bool operator==(const nsCOMPtr<T>& aLhs, decltype(nullptr)) {
return aLhs.get() == nullptr;
}
template <class T>
inline bool operator==(decltype(nullptr), const nsCOMPtr<T>& aRhs) {
return nullptr == aRhs.get();
}
template <class T>
inline bool operator!=(const nsCOMPtr<T>& aLhs, decltype(nullptr)) {
return aLhs.get() != nullptr;
}
template <class T>
inline bool operator!=(decltype(nullptr), const nsCOMPtr<T>& aRhs) {
return nullptr != aRhs.get();
}
// Comparing any two [XP]COM objects for identity
inline bool SameCOMIdentity(nsISupports* aLhs, nsISupports* aRhs) {
return nsCOMPtr<nsISupports>(do_QueryInterface(aLhs)) ==
nsCOMPtr<nsISupports>(do_QueryInterface(aRhs));
}
template <class SourceType, class DestinationType>
inline nsresult CallQueryInterface(nsCOMPtr<SourceType>& aSourcePtr,
DestinationType** aDestPtr) {
return CallQueryInterface(aSourcePtr.get(), aDestPtr);
}
template <class T>
RefPtr<T>::RefPtr(const nsQueryReferent& aQueryReferent) {
void* newRawPtr;
if (NS_FAILED(aQueryReferent(NS_GET_TEMPLATE_IID(T), &newRawPtr))) {
newRawPtr = nullptr;
}
mRawPtr = static_cast<T*>(newRawPtr);
}
template <class T>
RefPtr<T>::RefPtr(const nsCOMPtr_helper& aHelper) {
void* newRawPtr;
if (NS_FAILED(aHelper(NS_GET_TEMPLATE_IID(T), &newRawPtr))) {
newRawPtr = nullptr;
}
mRawPtr = static_cast<T*>(newRawPtr);
}
template <class T>
RefPtr<T>& RefPtr<T>::operator=(const nsQueryReferent& aQueryReferent) {
void* newRawPtr;
if (NS_FAILED(aQueryReferent(NS_GET_TEMPLATE_IID(T), &newRawPtr))) {
newRawPtr = nullptr;
}
assign_assuming_AddRef(static_cast<T*>(newRawPtr));
return *this;
}
template <class T>
RefPtr<T>& RefPtr<T>::operator=(const nsCOMPtr_helper& aHelper) {
void* newRawPtr;
if (NS_FAILED(aHelper(NS_GET_TEMPLATE_IID(T), &newRawPtr))) {
newRawPtr = nullptr;
}
assign_assuming_AddRef(static_cast<T*>(newRawPtr));
return *this;
}
template <class T>
inline already_AddRefed<T> do_AddRef(const nsCOMPtr<T>& aObj) {
nsCOMPtr<T> ref(aObj);
return ref.forget();
}
// MOZ_DBG support
template <class T>
std::ostream& operator<<(std::ostream& aOut, const nsCOMPtr<T>& aObj) {
return mozilla::DebugValue(aOut, aObj.get());
}
// ToRefPtr allows to move an nsCOMPtr<T> into a RefPtr<T>. Be mindful when
// using this, because usually RefPtr<T> should only be used with concrete T and
// nsCOMPtr<T> should only be used with XPCOM interface T.
template <class T>
RefPtr<T> ToRefPtr(nsCOMPtr<T>&& aObj) {
return aObj.forget();
}
// Integration with ResultExtensions.h
template <typename R>
auto ResultRefAsParam(nsCOMPtr<R>& aResult) {
return getter_AddRefs(aResult);
}
namespace mozilla::detail {
template <typename T>
struct outparam_as_pointer;
template <typename T>
struct outparam_as_pointer<nsGetterAddRefs<T>> {
using type = T**;
};
} // namespace mozilla::detail
#endif // !defined(nsCOMPtr_h___)
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