/* * * Copyright 2017 gRPC authors. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * */ #ifndef GRPC_CORE_LIB_GPRPP_REF_COUNTED_PTR_H #define GRPC_CORE_LIB_GPRPP_REF_COUNTED_PTR_H #include #include #include "src/core/lib/gprpp/memory.h" namespace grpc_core { // A smart pointer class for objects that provide IncrementRefCount() and // Unref() methods, such as those provided by the RefCounted base class. template class RefCountedPtr { public: RefCountedPtr() {} RefCountedPtr(std::nullptr_t) {} // If value is non-null, we take ownership of a ref to it. template explicit RefCountedPtr(Y* value) { value_ = value; } // Move ctors. RefCountedPtr(RefCountedPtr&& other) { value_ = other.value_; other.value_ = nullptr; } template RefCountedPtr(RefCountedPtr&& other) { value_ = other.value_; other.value_ = nullptr; } // Move assignment. RefCountedPtr& operator=(RefCountedPtr&& other) { if (value_ != nullptr) value_->Unref(); value_ = other.value_; other.value_ = nullptr; return *this; } template RefCountedPtr& operator=(RefCountedPtr&& other) { if (value_ != nullptr) value_->Unref(); value_ = other.value_; other.value_ = nullptr; return *this; } // Copy ctors. RefCountedPtr(const RefCountedPtr& other) { if (other.value_ != nullptr) other.value_->IncrementRefCount(); value_ = other.value_; } template RefCountedPtr(const RefCountedPtr& other) { if (other.value_ != nullptr) other.value_->IncrementRefCount(); value_ = other.value_; } // Copy assignment. RefCountedPtr& operator=(const RefCountedPtr& other) { // Note: Order of reffing and unreffing is important here in case value_ // and other.value_ are the same object. if (other.value_ != nullptr) other.value_->IncrementRefCount(); if (value_ != nullptr) value_->Unref(); value_ = other.value_; return *this; } template RefCountedPtr& operator=(const RefCountedPtr& other) { // Note: Order of reffing and unreffing is important here in case value_ // and other.value_ are the same object. if (other.value_ != nullptr) other.value_->IncrementRefCount(); if (value_ != nullptr) value_->Unref(); value_ = other.value_; return *this; } ~RefCountedPtr() { if (value_ != nullptr) value_->Unref(); } // If value is non-null, we take ownership of a ref to it. template void reset(Y* value) { if (value_ != nullptr) value_->Unref(); value_ = value; } void reset() { if (value_ != nullptr) value_->Unref(); value_ = nullptr; } // TODO(roth): This method exists solely as a transition mechanism to allow // us to pass a ref to idiomatic C code that does not use RefCountedPtr<>. // Once all of our code has been converted to idiomatic C++, this // method should go away. T* release() { T* value = value_; value_ = nullptr; return value; } T* get() const { return value_; } T& operator*() const { return *value_; } T* operator->() const { return value_; } template bool operator==(const RefCountedPtr& other) const { return value_ == other.value_; } template bool operator==(const Y* other) const { return value_ == other; } bool operator==(std::nullptr_t) const { return value_ == nullptr; } template bool operator!=(const RefCountedPtr& other) const { return value_ != other.value_; } template bool operator!=(const Y* other) const { return value_ != other; } bool operator!=(std::nullptr_t) const { return value_ != nullptr; } private: template friend class RefCountedPtr; T* value_ = nullptr; }; template inline RefCountedPtr MakeRefCounted(Args&&... args) { return RefCountedPtr(New(std::forward(args)...)); } } // namespace grpc_core #endif /* GRPC_CORE_LIB_GPRPP_REF_COUNTED_PTR_H */