#pragma once #include #include template class CONSUMABLE(unknown) alignas(T) Optional { public: RETURN_TYPESTATE(unknown) Optional() {} RETURN_TYPESTATE(unknown) Optional(T&& value) : m_has_value(true) { new (&m_storage) T(move(value)); } template RETURN_TYPESTATE(unknown) Optional(U&& value) : m_has_value(true) { new (&m_storage) T(move(value)); } RETURN_TYPESTATE(unknown) Optional(Optional&& other) : m_has_value(other.m_has_value) { if (m_has_value) { new (&m_storage) T(move(other.value_without_consume_state())); other.m_has_value = false; } } RETURN_TYPESTATE(unknown) Optional(const Optional& other) : m_has_value(other.m_has_value) { if (m_has_value) { new (&m_storage) T(other.value_without_consume_state()); } } RETURN_TYPESTATE(unknown) Optional& operator=(const Optional& other) { if (this != &other) { clear(); m_has_value = other.m_has_value; if (m_has_value) { new (&m_storage) T(other.value()); } } return *this; } RETURN_TYPESTATE(unknown) Optional& operator=(Optional&& other) { if (this != &other) { clear(); m_has_value = other.m_has_value; if (m_has_value) { new (&m_storage) T(other.release_value()); } } return *this; } ~Optional() { clear(); } void clear() { if (m_has_value) { value().~T(); m_has_value = false; } } SET_TYPESTATE(consumed) bool has_value() const { return m_has_value; } CALLABLE_WHEN(consumed) T& value() { ASSERT(m_has_value); return *reinterpret_cast(&m_storage); } CALLABLE_WHEN(consumed) const T& value() const { return value_without_consume_state(); } CALLABLE_WHEN(consumed) T release_value() { ASSERT(m_has_value); T released_value = move(value()); value().~T(); return released_value; } T value_or(const T& fallback) const { if (m_has_value) return value(); return fallback; } operator bool() const { return m_has_value; } private: // Call when we don't want to alter the consume state const T& value_without_consume_state() const { ASSERT(m_has_value); return *reinterpret_cast(&m_storage); } char m_storage[sizeof(T)]; bool m_has_value { false }; };