/* * Copyright 2022 The WebRTC Project Authors. All rights reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #ifndef API_MAKE_REF_COUNTED_H_ #define API_MAKE_REF_COUNTED_H_ #include #include "rtc_base/ref_counted_object.h" namespace rtc { namespace webrtc_make_ref_counted_internal { // Determines if the given class has AddRef and Release methods. template class HasAddRefAndRelease { private: template ().AddRef())* = nullptr, decltype(std::declval().Release())* = nullptr> static int Test(int); template static char Test(...); public: static constexpr bool value = std::is_same_v(0)), int>; }; } // namespace webrtc_make_ref_counted_internal // General utilities for constructing a reference counted class and the // appropriate reference count implementation for that class. // // These utilities select either the `RefCountedObject` implementation or // `FinalRefCountedObject` depending on whether the to-be-shared class is // derived from the RefCountInterface interface or not (respectively). // `make_ref_counted`: // // Use this when you want to construct a reference counted object of type T and // get a `scoped_refptr<>` back. Example: // // auto p = make_ref_counted("bar", 123); // // For a class that inherits from RefCountInterface, this is equivalent to: // // auto p = scoped_refptr(new RefCountedObject("bar", 123)); // // If the class does not inherit from RefCountInterface, but does have // AddRef/Release methods (so a T* is convertible to rtc::scoped_refptr), this // is equivalent to just // // auto p = scoped_refptr(new Foo("bar", 123)); // // Otherwise, the example is equivalent to: // // auto p = scoped_refptr>( // new FinalRefCountedObject("bar", 123)); // // In these cases, `make_ref_counted` reduces the amount of boilerplate code but // also helps with the most commonly intended usage of RefCountedObject whereby // methods for reference counting, are virtual and designed to satisfy the need // of an interface. When such a need does not exist, it is more efficient to use // the `FinalRefCountedObject` template, which does not add the vtable overhead. // // Note that in some cases, using RefCountedObject directly may still be what's // needed. // `make_ref_counted` for abstract classes that are convertible to // RefCountInterface. The is_abstract requirement rejects classes that inherit // both RefCountInterface and RefCounted object, which is a a discouraged // pattern, and would result in double inheritance of RefCountedObject if this // template was applied. template < typename T, typename... Args, typename std::enable_if && std::is_abstract_v, T>::type* = nullptr> scoped_refptr make_ref_counted(Args&&... args) { return scoped_refptr(new RefCountedObject(std::forward(args)...)); } // `make_ref_counted` for complete classes that are not convertible to // RefCountInterface and already carry a ref count. template < typename T, typename... Args, typename std::enable_if< !std::is_convertible_v && webrtc_make_ref_counted_internal::HasAddRefAndRelease::value, T>::type* = nullptr> scoped_refptr make_ref_counted(Args&&... args) { return scoped_refptr(new T(std::forward(args)...)); } // `make_ref_counted` for complete classes that are not convertible to // RefCountInterface and have no ref count of their own. template < typename T, typename... Args, typename std::enable_if< !std::is_convertible_v && !webrtc_make_ref_counted_internal::HasAddRefAndRelease::value, T>::type* = nullptr> scoped_refptr> make_ref_counted(Args&&... args) { return scoped_refptr>( new FinalRefCountedObject(std::forward(args)...)); } } // namespace rtc #endif // API_MAKE_REF_COUNTED_H_