#ifndef _RSTL_OPTIONAL_OBJECT #define _RSTL_OPTIONAL_OBJECT #include "types.h" #include "rstl/construct.hpp" namespace rstl { struct optional_object_null {}; template < typename T > class optional_object { public: optional_object() : m_valid(false) {} optional_object(optional_object_null) : m_valid(false) {} optional_object(const T& item) : m_valid(true) { rstl::construct< T >(m_data, item); } optional_object(const optional_object& other) : m_valid(other.m_valid) { if (other.m_valid) { construct< T >(m_data, other.data()); } } ~optional_object() { clear(); } optional_object& operator=(const optional_object& other) { if (this != &other) { if (other.m_valid) { assign(other.data()); } else { clear(); } } return *this; } optional_object& operator=(const T& item) { assign(item); return *this; } T& data() { return *get_ptr(); } const T& data() const { return *get_ptr(); } T* get_ptr() { return reinterpret_cast< T* >(m_data); } const T* get_ptr() const { return reinterpret_cast< const T* >(m_data); } bool valid() const { return m_valid; } operator bool() const { return m_valid; } // replace with valid()? void clear() { if (m_valid) { rstl::destroy(get_ptr()); } m_valid = false; } T& operator*() { return data(); } T* operator->() { return &data(); } private: uchar m_data[sizeof(T)]; bool m_valid ATTRIBUTE_ALIGN(4); void assign(const T& item) { if (!m_valid) { construct(get_ptr(), item); m_valid = true; } else { data() = item; } } }; } // namespace rstl #endif // _RSTL_OPTIONAL_OBJECT