luau/Common/include/Luau/Variant.h

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// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
#pragma once
#include <initializer_list>
#include <new>
#include <type_traits>
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#include <utility>
#include <stddef.h>
namespace Luau
{
template<typename... Ts>
class Variant
{
static_assert(sizeof...(Ts) > 0, "variant must have at least 1 type (empty variants are ill-formed)");
static_assert(std::disjunction_v<std::is_void<Ts>...> == false, "variant does not allow void as an alternative type");
static_assert(std::disjunction_v<std::is_reference<Ts>...> == false, "variant does not allow references as an alternative type");
static_assert(std::disjunction_v<std::is_array<Ts>...> == false, "variant does not allow arrays as an alternative type");
public:
template<typename T>
static constexpr int getTypeId()
{
using TT = std::decay_t<T>;
constexpr int N = sizeof...(Ts);
constexpr bool is[N] = {std::is_same_v<TT, Ts>...};
for (int i = 0; i < N; ++i)
if (is[i])
return i;
return -1;
}
private:
template<typename T, typename... Tail>
struct First
{
using type = T;
};
public:
using first_alternative = typename First<Ts...>::type;
Sync to upstream/release/600 (#1076) ### What's Changed - Improve readability of unions and intersections by limiting the number of elements of those types that can be presented on a single line (gated under `FFlag::LuauToStringSimpleCompositeTypesSingleLine`) - Adds a new option to the compiler `--record-stats` to record and output compilation statistics - `if...then...else` expressions are now optimized into `AND/OR` form when possible. ### VM - Add a new `buffer` type to Luau based on the [buffer RFC](https://github.com/Roblox/luau/pull/739) and additional C API functions to work with it; this release does not include the library. - Internal C API to work with string buffers has been updated to align with Lua version more closely ### Native Codegen - Added support for new X64 instruction (rev) and new A64 instruction (bswap) in the assembler - Simplified the way numerical loop condition is translated to IR ### New Type Solver - Operator inference now handled by type families - Created a new system called `Type Paths` to explain why subtyping tests fail in order to improve the quality of error messages. - Systematic changes to implement Data Flow analysis in the new solver (`Breadcrumb` removed and replaced with `RefinementKey`) --- Co-authored-by: Aaron Weiss <aaronweiss@roblox.com> Co-authored-by: Alexander McCord <amccord@roblox.com> Co-authored-by: Andy Friesen <afriesen@roblox.com> Co-authored-by: Aviral Goel <agoel@roblox.com> Co-authored-by: Lily Brown <lbrown@roblox.com> Co-authored-by: Vighnesh Vijay <vvijay@roblox.com> Co-authored-by: Vyacheslav Egorov <vegorov@roblox.com> --------- Co-authored-by: Arseny Kapoulkine <arseny.kapoulkine@gmail.com> Co-authored-by: Vyacheslav Egorov <vegorov@roblox.com> Co-authored-by: Andy Friesen <afriesen@roblox.com> Co-authored-by: Lily Brown <lbrown@roblox.com> Co-authored-by: Aaron Weiss <aaronweiss@roblox.com> Co-authored-by: Alexander McCord <amccord@roblox.com> Co-authored-by: Aviral Goel <agoel@roblox.com>
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template<typename T>
static constexpr bool is_part_of_v = std::disjunction_v<typename std::is_same<std::decay_t<Ts>, T>...>;
Variant()
{
static_assert(std::is_default_constructible_v<first_alternative>, "first alternative type must be default constructible");
typeId = 0;
new (&storage) first_alternative();
}
template<typename T>
Variant(T&& value, std::enable_if_t<getTypeId<T>() >= 0>* = 0)
{
using TT = std::decay_t<T>;
constexpr int tid = getTypeId<T>();
typeId = tid;
new (&storage) TT(std::forward<T>(value));
}
Variant(const Variant& other)
{
static constexpr FnCopy table[sizeof...(Ts)] = {&fnCopy<Ts>...};
typeId = other.typeId;
table[typeId](&storage, &other.storage);
}
Variant(Variant&& other)
{
typeId = other.typeId;
tableMove[typeId](&storage, &other.storage);
}
~Variant()
{
tableDtor[typeId](&storage);
}
Variant& operator=(const Variant& other)
{
Variant copy(other);
// static_cast<T&&> is equivalent to std::move() but faster in Debug
return *this = static_cast<Variant&&>(copy);
}
Variant& operator=(Variant&& other)
{
if (this != &other)
{
tableDtor[typeId](&storage);
typeId = other.typeId;
tableMove[typeId](&storage, &other.storage); // nothrow
}
return *this;
}
template<typename T, typename... Args>
T& emplace(Args&&... args)
{
using TT = std::decay_t<T>;
constexpr int tid = getTypeId<T>();
static_assert(tid >= 0, "unsupported T");
tableDtor[typeId](&storage);
typeId = tid;
new (&storage) TT{std::forward<Args>(args)...};
return *reinterpret_cast<T*>(&storage);
}
template<typename T>
const T* get_if() const
{
constexpr int tid = getTypeId<T>();
static_assert(tid >= 0, "unsupported T");
return tid == typeId ? reinterpret_cast<const T*>(&storage) : nullptr;
}
template<typename T>
T* get_if()
{
constexpr int tid = getTypeId<T>();
static_assert(tid >= 0, "unsupported T");
return tid == typeId ? reinterpret_cast<T*>(&storage) : nullptr;
}
bool valueless_by_exception() const
{
return false;
}
int index() const
{
return typeId;
}
bool operator==(const Variant& other) const
{
static constexpr FnPred table[sizeof...(Ts)] = {&fnPredEq<Ts>...};
return typeId == other.typeId && table[typeId](&storage, &other.storage);
}
bool operator!=(const Variant& other) const
{
return !(*this == other);
}
private:
static constexpr size_t cmax(std::initializer_list<size_t> l)
{
size_t res = 0;
for (size_t i : l)
res = (res < i) ? i : res;
return res;
}
static constexpr size_t storageSize = cmax({sizeof(Ts)...});
static constexpr size_t storageAlign = cmax({alignof(Ts)...});
using FnCopy = void (*)(void*, const void*);
using FnMove = void (*)(void*, void*);
using FnDtor = void (*)(void*);
using FnPred = bool (*)(const void*, const void*);
template<typename T>
static void fnCopy(void* dst, const void* src)
{
new (dst) T(*static_cast<const T*>(src));
}
template<typename T>
static void fnMove(void* dst, void* src)
{
// static_cast<T&&> is equivalent to std::move() but faster in Debug
new (dst) T(static_cast<T&&>(*static_cast<T*>(src)));
}
template<typename T>
static void fnDtor(void* dst)
{
static_cast<T*>(dst)->~T();
}
template<typename T>
static bool fnPredEq(const void* lhs, const void* rhs)
{
return *static_cast<const T*>(lhs) == *static_cast<const T*>(rhs);
}
static constexpr FnMove tableMove[sizeof...(Ts)] = {&fnMove<Ts>...};
static constexpr FnDtor tableDtor[sizeof...(Ts)] = {&fnDtor<Ts>...};
int typeId;
alignas(storageAlign) char storage[storageSize];
template<class Visitor, typename... _Ts>
friend auto visit(Visitor&& vis, const Variant<_Ts...>& var);
template<class Visitor, typename... _Ts>
friend auto visit(Visitor&& vis, Variant<_Ts...>& var);
};
template<typename T, typename... Ts>
const T* get_if(const Variant<Ts...>* var)
{
return var ? var->template get_if<T>() : nullptr;
}
template<typename T, typename... Ts>
T* get_if(Variant<Ts...>* var)
{
return var ? var->template get_if<T>() : nullptr;
}
template<typename Visitor, typename Result, typename T>
static void fnVisitR(Visitor& vis, Result& dst, std::conditional_t<std::is_const_v<T>, const void, void>* src)
{
dst = vis(*static_cast<T*>(src));
}
template<typename Visitor, typename T>
static void fnVisitV(Visitor& vis, std::conditional_t<std::is_const_v<T>, const void, void>* src)
{
vis(*static_cast<T*>(src));
}
template<class Visitor, typename... Ts>
auto visit(Visitor&& vis, const Variant<Ts...>& var)
{
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static_assert(std::conjunction_v<std::is_invocable<Visitor, Ts>...>, "visitor must accept every alternative as an argument");
using Result = std::invoke_result_t<Visitor, typename Variant<Ts...>::first_alternative>;
static_assert(
std::conjunction_v<std::is_same<Result, std::invoke_result_t<Visitor, Ts>>...>, "visitor result type must be consistent between alternatives"
);
if constexpr (std::is_same_v<Result, void>)
{
using FnVisitV = void (*)(Visitor&, const void*);
static const FnVisitV tableVisit[sizeof...(Ts)] = {&fnVisitV<Visitor, const Ts>...};
tableVisit[var.typeId](vis, &var.storage);
}
else
{
using FnVisitR = void (*)(Visitor&, Result&, const void*);
static const FnVisitR tableVisit[sizeof...(Ts)] = {&fnVisitR<Visitor, Result, const Ts>...};
Result res;
tableVisit[var.typeId](vis, res, &var.storage);
return res;
}
}
template<class Visitor, typename... Ts>
auto visit(Visitor&& vis, Variant<Ts...>& var)
{
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static_assert(std::conjunction_v<std::is_invocable<Visitor, Ts&>...>, "visitor must accept every alternative as an argument");
using Result = std::invoke_result_t<Visitor, typename Variant<Ts...>::first_alternative&>;
static_assert(
std::conjunction_v<std::is_same<Result, std::invoke_result_t<Visitor, Ts&>>...>, "visitor result type must be consistent between alternatives"
);
if constexpr (std::is_same_v<Result, void>)
{
using FnVisitV = void (*)(Visitor&, void*);
static const FnVisitV tableVisit[sizeof...(Ts)] = {&fnVisitV<Visitor, Ts>...};
tableVisit[var.typeId](vis, &var.storage);
}
else
{
using FnVisitR = void (*)(Visitor&, Result&, void*);
static const FnVisitR tableVisit[sizeof...(Ts)] = {&fnVisitR<Visitor, Result, Ts>...};
Result res;
tableVisit[var.typeId](vis, res, &var.storage);
return res;
}
}
template<class>
inline constexpr bool always_false_v = false;
} // namespace Luau