#pragma once #include #include "gp_config.hpp" #include "gp/exception.hpp" #include "gp/algorithm/move.hpp" #include "gp/memory.hpp" namespace gp{ struct nullopt_t{}; constexpr nullopt_t nullopt; // TODO: Add allocators to the template template::value || std::is_fundamental::value> class optional; template class optional{ bool ready = false; char buffer[sizeof(T)]; public: constexpr optional() : ready{false} {} constexpr optional(nullopt_t) : ready{false} {} constexpr optional(T& value) : ready{true} { new(buffer) T(value); } constexpr optional(T&& value) : ready{true} { new(buffer) T(gp::move(value)); } optional& operator=(nullopt_t) { if(ready) { ((T*)buffer)->~T(); ready = false; } return *this; } optional& operator=(T& value) { if(ready) { *(T*)buffer = value; } else { ready = true; new(buffer) T(value); } return *this; } optional& operator=(T&& value) { if(ready) { *(T*)buffer = gp::move(value); } else { ready = true; new(buffer) T(gp::move(value)); } return *this; } constexpr bool has_value() { return ready; } constexpr T& value() { if constexpr (gp_config::has_exceptions) { if(!ready) { throw bad_optional{}; } } else { gp_config::assertion(ready, "bad optional access"); } return *reinterpret_cast(buffer); } }; // TODO: Add allocators to the template template class optional{ bool ready = false; T* ptr; public: constexpr optional() : ready{false} {} constexpr optional(nullopt_t) : ready{false} {} template constexpr optional(U& value) : ready{true} { ptr = new U(value); // TODO: Use allocators } template constexpr optional(U&& value) : ready{true} { ptr = new U(gp::move(value)); // TODO: Use allocators } optional& operator=(nullopt_t) { if(ready) { delete ptr; ready = false; } return *this; } template optional& operator=(U& value) { if(ready) { if constexpr (std::is_same_v) { *ptr = value; } else { delete ptr; // TODO: Use allocators ptr = new U(value); // TODO: Use allocators } } else { ready = true; ptr = new U(value); // TODO: Use allocators } return *this; } template optional& operator=(U&& value) { if(ready) { if constexpr (std::is_same_v) { *ptr = gp::move(value); } else { delete ptr; // TODO: Use allocators ptr = new U(gp::move(value)); // TODO: Use allocators } } else { ready = true; ptr = new U(gp::move(value)); // TODO: Use allocators } return *this; } template<> optional& operator=(optional& value) { if(ready) { *ptr = value; } else { ready = true; ptr = new optional(value.value()); // TODO: Use allocators } return *this; } template<> optional& operator=(optional&& value){ if(ready) { delete ptr; // TODO: Use allocators } if(value.ready) { ptr = value.ptr; value.ready = false; ready = true; return *this; } else { ready = false; return *this; } } operator T&() { gp_config::assertion(ready, "bad optional access"); return *ptr; } constexpr bool has_value() { return ready; } constexpr T& value() { if constexpr (gp_config::has_exceptions) { if(!ready) { throw bad_optional{}; } } else { gp_config::assertion(ready, "bad optional access"); } return *ptr; } ~optional() { if(ready) { delete ptr; // TODO: Use allocators } } }; }