#ifndef _RSTL_RC_PTR #define _RSTL_RC_PTR #include "types.h" namespace rstl { class CRefData { public: CRefData(const void* ptr) : x0_ptr(ptr), x4_refCount(1) {} CRefData(const void* ptr, int refCount) : x0_ptr(ptr), x4_refCount(refCount) {} void* GetPtr() const { return const_cast< void* >(x0_ptr); } int GetRefCount() const { return x4_refCount; } int AddRef() { return ++x4_refCount; } int DelRef() { return --x4_refCount; } const void* x0_ptr; int x4_refCount; static CRefData sNull; }; template < typename T > class rc_ptr { public: rc_ptr() : x0_refData(&CRefData::sNull) { x0_refData->AddRef(); } rc_ptr(const T* ptr) : x0_refData(new CRefData(ptr)) {} rc_ptr(const rc_ptr& other) : x0_refData(other.x0_refData) { x0_refData->AddRef(); } ~rc_ptr() { ReleaseData(); } T* GetPtr() const { return static_cast< T* >(x0_refData->GetPtr()); } void ReleaseData(); T* operator->() const { return GetPtr(); } T& operator*() const { return *GetPtr(); } operator bool() const { return GetPtr() != nullptr; } private: CRefData* x0_refData; }; template < typename T > void rc_ptr< T >::ReleaseData() { if (x0_refData->DelRef() <= 0) { delete GetPtr(); delete x0_refData; } } template < typename T > class ncrc_ptr : public rc_ptr< T > { public: ncrc_ptr() {} ncrc_ptr(T* ptr) : rc_ptr< T >(ptr) {} ncrc_ptr(const rc_ptr< T >& other) : rc_ptr< T >(other) {} }; template < typename T > bool operator==(const rc_ptr< T >& left, const rc_ptr< T >& right) { return left.GetPtr() == right.GetPtr(); } } // namespace rstl #endif // _RSTL_RC_PTR