// Copyright 2016 PDFium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef CORE_FXCRT_RETAIN_PTR_H_ #define CORE_FXCRT_RETAIN_PTR_H_ #include #include #include #include "core/fxcrt/fx_system.h" #include "core/fxcrt/unowned_ptr.h" namespace fxcrt { // Used with std::unique_ptr to Release() objects that can't be deleted. template struct ReleaseDeleter { inline void operator()(T* ptr) const { ptr->Release(); } }; // Analogous to base's scoped_refptr. template class RetainPtr { public: explicit RetainPtr(T* pObj) : m_pObj(pObj) { if (m_pObj) m_pObj->Retain(); } RetainPtr() = default; RetainPtr(const RetainPtr& that) : RetainPtr(that.Get()) {} // Move-construct a RetainPtr. After construction, |that| will be NULL. RetainPtr(RetainPtr&& that) noexcept { Swap(that); } // Deliberately implicit to allow returning nullptrs. // NOLINTNEXTLINE(runtime/explicit) RetainPtr(std::nullptr_t ptr) {} template RetainPtr(const RetainPtr& that) : RetainPtr(that.Get()) {} template RetainPtr As() const { return RetainPtr(static_cast(Get())); } void Reset(T* obj = nullptr) { if (obj) obj->Retain(); m_pObj.reset(obj); } T* Get() const { return m_pObj.get(); } UnownedPtr BackPointer() const { return UnownedPtr(Get()); } void Swap(RetainPtr& that) { m_pObj.swap(that.m_pObj); } // Useful for passing notion of object ownership across a C API. T* Leak() { return m_pObj.release(); } void Unleak(T* ptr) { m_pObj.reset(ptr); } RetainPtr& operator=(const RetainPtr& that) { if (*this != that) Reset(that.Get()); return *this; } // Move-assign a RetainPtr. After assignment, |that| will be NULL. RetainPtr& operator=(RetainPtr&& that) { m_pObj.reset(that.Leak()); return *this; } // Assigment from raw pointers is intentially not provided to make // reference count churn more visible where possible. bool operator==(const RetainPtr& that) const { return Get() == that.Get(); } bool operator!=(const RetainPtr& that) const { return !(*this == that); } template bool operator==(const U& that) const { return Get() == that; } template bool operator!=(const U& that) const { return !(*this == that); } bool operator<(const RetainPtr& that) const { return std::less()(Get(), that.Get()); } explicit operator bool() const { return !!m_pObj; } T& operator*() const { return *m_pObj; } T* operator->() const { return m_pObj.get(); } private: std::unique_ptr> m_pObj; }; // Trivial implementation - internal ref count with virtual destructor. class Retainable { public: Retainable() = default; bool HasOneRef() const { return m_nRefCount == 1; } protected: virtual ~Retainable() = default; private: template friend struct ReleaseDeleter; template friend class RetainPtr; Retainable(const Retainable& that) = delete; Retainable& operator=(const Retainable& that) = delete; void Retain() const { ++m_nRefCount; } void Release() const { ASSERT(m_nRefCount > 0); if (--m_nRefCount == 0) delete this; } mutable intptr_t m_nRefCount = 0; }; template inline bool operator==(const U* lhs, const RetainPtr& rhs) { return rhs == lhs; } template inline bool operator!=(const U* lhs, const RetainPtr& rhs) { return rhs != lhs; } } // namespace fxcrt using fxcrt::ReleaseDeleter; using fxcrt::Retainable; using fxcrt::RetainPtr; namespace pdfium { // Helper to make a RetainPtr along the lines of std::make_unique<>(), // or pdfium::MakeUnique<>(). Arguments are forwarded to T's constructor. // Classes managed by RetainPtr should have protected (or private) // constructors, and should friend this function. template RetainPtr MakeRetain(Args&&... args) { return RetainPtr(new T(std::forward(args)...)); } // Type-deducing wrapper to make a RetainPtr from an ordinary pointer. template RetainPtr WrapRetain(T* that) { return RetainPtr(that); } } // namespace pdfium #endif // CORE_FXCRT_RETAIN_PTR_H_