bsnes/nall/variant.hpp

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#pragma once
namespace nall {
template<typename T, typename... P> struct variant_size {
static constexpr uint size = max(sizeof(T), variant_size<P...>::size);
};
template<typename T> struct variant_size<T> {
static constexpr uint size = sizeof(T);
};
template<uint Index, typename F, typename T, typename... P> struct variant_index {
static constexpr uint index = is_same_v<F, T> ? Index : variant_index<Index + 1, F, P...>::index;
};
template<uint Index, typename F, typename T> struct variant_index<Index, F, T> {
static constexpr uint index = is_same_v<F, T> ? Index : 0;
};
template<typename T, typename... P> struct variant_copy {
constexpr variant_copy(uint index, uint assigned, void* target, void* source) {
if(index == assigned) new(target) T(*((T*)source));
else variant_copy<P...>(index + 1, assigned, target, source);
}
};
template<typename T> struct variant_copy<T> {
constexpr variant_copy(uint index, uint assigned, void* target, void* source) {
if(index == assigned) new(target) T(*((T*)source));
}
};
template<typename T, typename... P> struct variant_move {
constexpr variant_move(uint index, uint assigned, void* target, void* source) {
if(index == assigned) new(target) T(move(*((T*)source)));
else variant_move<P...>(index + 1, assigned, target, source);
}
};
template<typename T> struct variant_move<T> {
constexpr variant_move(uint index, uint assigned, void* target, void* source) {
if(index == assigned) new(target) T(move(*((T*)source)));
}
};
template<typename T, typename... P> struct variant_destruct {
constexpr variant_destruct(uint index, uint assigned, void* data) {
if(index == assigned) ((T*)data)->~T();
else variant_destruct<P...>(index + 1, assigned, data);
}
};
template<typename T> struct variant_destruct<T> {
constexpr variant_destruct(uint index, uint assigned, void* data) {
if(index == assigned) ((T*)data)->~T();
}
};
template<typename F, typename T, typename... P> struct variant_equals {
constexpr auto operator()(uint index, uint assigned) const -> bool {
if(index == assigned) return is_same_v<F, T>;
return variant_equals<F, P...>()(index + 1, assigned);
}
};
template<typename F, typename T> struct variant_equals<F, T> {
constexpr auto operator()(uint index, uint assigned) const -> bool {
if(index == assigned) return is_same_v<F, T>;
return false;
}
};
template<typename... P> struct variant final { //final as destructor is not virtual
variant() : assigned(0) {}
variant(const variant& source) { operator=(source); }
variant(variant&& source) { operator=(move(source)); }
template<typename T> variant(const T& value) { operator=(value); }
template<typename T> variant(T&& value) { operator=(move(value)); }
~variant() { reset(); }
explicit operator bool() const { return assigned; }
template<typename T> explicit constexpr operator T&() { return get<T>(); }
template<typename T> explicit constexpr operator const T&() const { return get<T>(); }
template<typename T> constexpr auto is() const -> bool {
return variant_equals<T, P...>()(1, assigned);
}
template<typename T> constexpr auto get() -> T& {
static_assert(variant_index<1, T, P...>::index, "type not in variant");
struct variant_bad_cast{};
if(!is<T>()) throw variant_bad_cast{};
return *((T*)data);
}
template<typename T> constexpr auto get() const -> const T& {
static_assert(variant_index<1, T, P...>::index, "type not in variant");
struct variant_bad_cast{};
if(!is<T>()) throw variant_bad_cast{};
return *((const T*)data);
}
template<typename T> constexpr auto get(const T& fallback) const -> const T& {
if(!is<T>()) return fallback;
return *((const T*)data);
}
auto reset() -> void {
if(assigned) variant_destruct<P...>(1, assigned, (void*)data);
assigned = 0;
}
auto& operator=(const variant& source) {
reset();
if(assigned = source.assigned) variant_copy<P...>(1, source.assigned, (void*)data, (void*)source.data);
return *this;
}
auto& operator=(variant&& source) {
reset();
if(assigned = source.assigned) variant_move<P...>(1, source.assigned, (void*)data, (void*)source.data);
source.assigned = 0;
return *this;
}
template<typename T> auto& operator=(const T& value) {
static_assert(variant_index<1, T, P...>::index, "type not in variant");
reset();
new((void*)&data) T(value);
assigned = variant_index<1, T, P...>::index;
return *this;
}
template<typename T> auto& operator=(T&& value) {
static_assert(variant_index<1, T, P...>::index, "type not in variant");
reset();
new((void*)&data) T(move(value));
assigned = variant_index<1, T, P...>::index;
return *this;
}
private:
alignas(P...) char data[variant_size<P...>::size];
uint assigned;
};
}