// // SharedPtr.h // // Library: Foundation // Package: Core // Module: SharedPtr // // Definition of the SharedPtr template class. // // Copyright (c) 2005-2008, Applied Informatics Software Engineering GmbH. // and Contributors. // // SPDX-License-Identifier: BSL-1.0 // #ifndef Foundation_SharedPtr_INCLUDED #define Foundation_SharedPtr_INCLUDED #include "Poco/Foundation.h" #include "Poco/Exception.h" #include "Poco/AtomicCounter.h" #include #include namespace Poco { class ReferenceCounter /// Simple ReferenceCounter object, does not delete itself when count reaches 0. { public: ReferenceCounter(): _cnt(1) { } void duplicate() { ++_cnt; } int release() { return --_cnt; } int referenceCount() const { return _cnt.value(); } private: AtomicCounter _cnt; }; template class ReleasePolicy /// The default release policy for SharedPtr, which /// simply uses the delete operator to delete an object. { public: static void release(C* pObj) noexcept /// Delete the object. /// Note that pObj can be nullptr. { delete pObj; } }; template class ReleaseArrayPolicy /// The release policy for SharedPtr holding arrays. { public: static void release(C* pObj) noexcept /// Delete the object. /// Note that pObj can be nullptr. { delete [] pObj; } }; template > class SharedPtr /// SharedPtr is a "smart" pointer for classes implementing /// reference counting based garbage collection. /// SharedPtr is thus similar to AutoPtr. Unlike the /// AutoPtr template, which can only be used with /// classes that support reference counting, SharedPtr /// can be used with any class. For this to work, a /// SharedPtr manages a reference count for the object /// it manages. /// /// SharedPtr works in the following way: /// If an SharedPtr is assigned an ordinary pointer to /// an object (via the constructor or the assignment operator), /// it takes ownership of the object and the object's reference /// count is initialized to one. /// If the SharedPtr is assigned another SharedPtr, the /// object's reference count is incremented by one. /// The destructor of SharedPtr decrements the object's /// reference count by one and deletes the object if the /// reference count reaches zero. /// SharedPtr supports dereferencing with both the -> /// and the * operator. An attempt to dereference a null /// SharedPtr results in a NullPointerException being thrown. /// SharedPtr also implements all relational operators and /// a cast operator in case dynamic casting of the encapsulated data types /// is required. { public: typedef C Type; SharedPtr(): _pCounter(nullptr), _ptr(nullptr) { } SharedPtr(C* ptr) try: _pCounter(ptr ? new RC : nullptr), _ptr(ptr) { } catch (...) { RP::release(ptr); } template SharedPtr(const SharedPtr& ptr): _pCounter(ptr._pCounter), _ptr(const_cast(ptr.get())) { if (_pCounter) _pCounter->duplicate(); } SharedPtr(const SharedPtr& ptr): _pCounter(ptr._pCounter), _ptr(ptr._ptr) { if (_pCounter) _pCounter->duplicate(); } SharedPtr(SharedPtr&& ptr) noexcept: _pCounter(ptr._pCounter), _ptr(ptr._ptr) { ptr._pCounter = nullptr; ptr._ptr = nullptr; } ~SharedPtr() { release(); } SharedPtr& assign(C* ptr) { if (get() != ptr) { SharedPtr tmp(ptr); swap(tmp); } return *this; } SharedPtr& assign(const SharedPtr& ptr) { if (&ptr != this) { SharedPtr tmp(ptr); swap(tmp); } return *this; } template SharedPtr& assign(const SharedPtr& ptr) { if (ptr.get() != _ptr) { SharedPtr tmp(ptr); swap(tmp); } return *this; } void reset() { assign(nullptr); } void reset(C* ptr) { assign(ptr); } void reset(const SharedPtr& ptr) { assign(ptr); } template void reset(const SharedPtr& ptr) { assign(ptr); } SharedPtr& operator = (C* ptr) { return assign(ptr); } SharedPtr& operator = (const SharedPtr& ptr) { return assign(ptr); } SharedPtr& operator = (SharedPtr&& ptr) noexcept { release(); _ptr = ptr._ptr; ptr._ptr = nullptr; _pCounter = ptr._pCounter; ptr._pCounter = nullptr; return *this; } template SharedPtr& operator = (const SharedPtr& ptr) { return assign(ptr); } void swap(SharedPtr& ptr) { std::swap(_ptr, ptr._ptr); std::swap(_pCounter, ptr._pCounter); } template SharedPtr cast() const /// Casts the SharedPtr via a dynamic cast to the given type. /// Returns an SharedPtr containing NULL if the cast fails. /// Example: (assume class Sub: public Super) /// SharedPtr super(new Sub()); /// SharedPtr sub = super.cast(); /// poco_assert (sub.get()); { Other* pOther = dynamic_cast(_ptr); if (pOther) return SharedPtr(_pCounter, pOther); return SharedPtr(); } template SharedPtr unsafeCast() const /// Casts the SharedPtr via a static cast to the given type. /// Example: (assume class Sub: public Super) /// SharedPtr super(new Sub()); /// SharedPtr sub = super.unsafeCast(); /// poco_assert (sub.get()); { Other* pOther = static_cast(_ptr); return SharedPtr(_pCounter, pOther); } C* operator -> () { return deref(); } const C* operator -> () const { return deref(); } C& operator * () { return *deref(); } const C& operator * () const { return *deref(); } C* get() { return _ptr; } const C* get() const { return _ptr; } operator C* () { return _ptr; } operator const C* () const { return _ptr; } bool operator ! () const { return _ptr == nullptr; } bool isNull() const { return _ptr == nullptr; } bool operator == (const SharedPtr& ptr) const { return get() == ptr.get(); } bool operator == (const C* ptr) const { return get() == ptr; } bool operator == (C* ptr) const { return get() == ptr; } bool operator == (std::nullptr_t ptr) const { return get() == ptr; } bool operator != (const SharedPtr& ptr) const { return get() != ptr.get(); } bool operator != (const C* ptr) const { return get() != ptr; } bool operator != (C* ptr) const { return get() != ptr; } bool operator != (std::nullptr_t ptr) const { return get() != ptr; } bool operator < (const SharedPtr& ptr) const { return get() < ptr.get(); } bool operator < (const C* ptr) const { return get() < ptr; } bool operator < (C* ptr) const { return get() < ptr; } bool operator <= (const SharedPtr& ptr) const { return get() <= ptr.get(); } bool operator <= (const C* ptr) const { return get() <= ptr; } bool operator <= (C* ptr) const { return get() <= ptr; } bool operator > (const SharedPtr& ptr) const { return get() > ptr.get(); } bool operator > (const C* ptr) const { return get() > ptr; } bool operator > (C* ptr) const { return get() > ptr; } bool operator >= (const SharedPtr& ptr) const { return get() >= ptr.get(); } bool operator >= (const C* ptr) const { return get() >= ptr; } bool operator >= (C* ptr) const { return get() >= ptr; } int referenceCount() const { return _pCounter ? _pCounter->referenceCount() : 0; } private: C* deref() const { if (!_ptr) throw NullPointerException(); return _ptr; } void release() noexcept { if (_pCounter && _pCounter->release() == 0) { RP::release(_ptr); _ptr = nullptr; delete _pCounter; _pCounter = nullptr; } } SharedPtr(RC* pCounter, C* ptr): _pCounter(pCounter), _ptr(ptr) /// for cast operation { poco_assert_dbg (_pCounter); _pCounter->duplicate(); } private: RC* _pCounter; C* _ptr; template friend class SharedPtr; }; template inline void swap(SharedPtr& p1, SharedPtr& p2) { p1.swap(p2); } template SharedPtr makeShared(Args&&... args) { return SharedPtr(new T(std::forward(args)...)); } template SharedPtr> makeSharedArray(std::size_t size) { return new SharedPtr>(new T[size]); } } // namespace Poco #endif // Foundation_SharedPtr_INCLUDED