geode/loader/include/Geode/meta/tuple.hpp
2022-07-30 19:24:03 +03:00

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2.8 KiB
C++

#ifndef GEODE_CORE_META_TUPLE_HPP
#define GEODE_CORE_META_TUPLE_HPP
#include "common.hpp"
#include <type_traits>
#include <utility>
namespace geode::core::meta {
/* The Tuple class presents a nicer way to interact with parameter packs.
* While this container is technically usable in other code, this is mostly
* used for static reflection in function wrapping. Other applications will
* usually be better covered by std::tuple.
*/
template <class...>
class Tuple;
template <>
class Tuple<> {
private:
template <class Type, size_t i>
class Element {
private:
Type value;
protected:
constexpr Type at(std::integral_constant<size_t, i>&&) const {
return this->value;
}
public:
constexpr Element(Type value) : value(value) {}
};
template <class... Parents>
class Elements : public Parents... {
private:
using Parents::at...;
public:
static constexpr size_t size = sizeof...(Parents);
template <size_t i>
constexpr decltype(auto) at() const {
static_assert(i < size, "Out of range access!");
return this->at(std::integral_constant<size_t, i>());
}
};
template <class, class...>
class elements_for_impl;
template <size_t... indices, class... Classes>
class elements_for_impl<std::index_sequence<indices...>, Classes...> {
public:
using result = Elements<Element<Classes, indices>...>;
};
public:
template <class... Classes>
using elements_for = typename elements_for_impl<
std::make_index_sequence<sizeof...(Classes)>, Classes...>::result;
template <class... Classes>
static auto make(Classes&&... values) {
return Tuple<Classes...> { values... };
}
};
template <class Current, class... Rest>
class Tuple<Current, Rest...> : public Tuple<>::elements_for<Current, Rest...> {
private:
using MyElements = Tuple<>::elements_for<Current, Rest...>;
public:
template <size_t i>
using type_at = decltype(std::declval<MyElements>().template at<i>());
private:
template <size_t i, bool>
class type_at_wrap_impl {
public:
using result = void;
};
template <size_t i>
class type_at_wrap_impl<i, true> {
public:
using result = type_at<i>;
};
public:
// MSVC literally shows internal compiler structures if I don't wrap this sometimes.
template <size_t i>
using type_at_wrap = typename type_at_wrap_impl<i, (i < sizeof...(Rest) + 1)>::result;
};
}
#endif /* GEODE_CORE_META_TUPLE_HPP */