#ifndef ARBUTILS___SCOPEDPTR_HPP #define ARBUTILS___SCOPEDPTR_HPP #include "../Assert.hpp" namespace ArbUt { /// @brief An optional unique pointer is used to indicate a pointer that is owned by its holder, and will be deleted /// when its owner is deleted. /// @details A unique pointer is used to indicate a pointer that is owned by an object, and that needs to be deleted /// when its owner is deleted. template class ScopedPtr { private: T* _raw; public: /// @brief Initialise a ScopedPtr with a specific raw pointer. inline ScopedPtr(T* ptr) : _raw(ptr){}; /// @brief Initialise a ScopedPtr from a copy. inline ScopedPtr(const ScopedPtr& other) : _raw(other._raw){}; /// @brief Initialise a ScopedPtr with a std unique_ptr. inline ScopedPtr(const std::unique_ptr& other) : _raw(other.get()){}; ~ScopedPtr() noexcept { delete _raw; } /// @brief Copy operator. inline ScopedPtr& operator=(const ScopedPtr& rhs) { if (this == &rhs) { return *this; } _raw = rhs._raw; return *this; } /// @brief Assign operator with raw pointer. inline ScopedPtr& operator=(T* rhs) { if (_raw == rhs) { return *this; } _raw = rhs; return *this; } /// @brief Operator for access into underlying pointer. /// @warning Note that this asserts that the underlying pointer is not null first, to prevent segfaults. inline T* operator->() const noexcept { EnsureNotNull(_raw); return _raw; } /// @brief Get the raw underlying pointer. inline T* TakeOwnership() const noexcept { auto raw = _raw; _raw = nullptr; return raw; } /// @brief Check equality of two ScopedPtr objects inline bool operator==(const ScopedPtr& rhs) const noexcept { return _raw == rhs._raw; } /// @brief Check equality of pointers inline bool operator==(T* rhs) const noexcept { return _raw == rhs; } /// @brief Check equality of two ScopedPtr objects inline bool operator!=(const ScopedPtr& rhs) const noexcept { return _raw != rhs._raw; } /// @brief Check equality of pointers inline bool operator!=(T* rhs) const noexcept { return _raw != rhs; } }; } namespace std { /// @brief Helper class for allowing hashing of ScopedPtr. template struct hash> { /// @brief Returns a hash of for a borrowed Pointer. Effectively just the raw memory address. /// @param k A borrowed pointer. /// @return The hash of the borrowed pointer. std::size_t operator()(const ArbUt::ScopedPtr& k) const { return (size_t)k.GetRaw(); } }; } #endif // ARBUTILS___SCOPEDPTR_HPP