luau/Analysis/include/Luau/Subtyping.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
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#include "Luau/Set.h"
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#include "Luau/TypeFwd.h"
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#include "Luau/TypePairHash.h"
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#include "Luau/TypePath.h"
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#include "Luau/TypeFunction.h"
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#include "Luau/TypeCheckLimits.h"
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#include "Luau/DenseHash.h"
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#include <vector>
#include <optional>
namespace Luau
{
template<typename A, typename B>
struct TryPair;
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struct InternalErrorReporter;
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class TypeIds;
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class Normalizer;
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struct NormalizedClassType;
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struct NormalizedFunctionType;
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struct NormalizedStringType;
struct NormalizedType;
struct Property;
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struct Scope;
struct TableIndexer;
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struct TypeArena;
struct TypeCheckLimits;
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enum class SubtypingVariance
{
// Used for an empty key. Should never appear in actual code.
Invalid,
Covariant,
// This is used to identify cases where we have a covariant + a
// contravariant reason and we need to merge them.
Contravariant,
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Invariant,
};
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struct SubtypingReasoning
{
// The path, relative to the _root subtype_, where subtyping failed.
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Path subPath;
// The path, relative to the _root supertype_, where subtyping failed.
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Path superPath;
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SubtypingVariance variance = SubtypingVariance::Covariant;
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bool operator==(const SubtypingReasoning& other) const;
};
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struct SubtypingReasoningHash
{
size_t operator()(const SubtypingReasoning& r) const;
};
using SubtypingReasonings = DenseHashSet<SubtypingReasoning, SubtypingReasoningHash>;
static const SubtypingReasoning kEmptyReasoning = SubtypingReasoning{TypePath::kEmpty, TypePath::kEmpty, SubtypingVariance::Invalid};
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struct SubtypingResult
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{
bool isSubtype = false;
bool normalizationTooComplex = false;
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bool isCacheable = true;
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ErrorVec errors;
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/// The reason for isSubtype to be false. May not be present even if
/// isSubtype is false, depending on the input types.
SubtypingReasonings reasoning{kEmptyReasoning};
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SubtypingResult& andAlso(const SubtypingResult& other);
SubtypingResult& orElse(const SubtypingResult& other);
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SubtypingResult& withBothComponent(TypePath::Component component);
SubtypingResult& withSuperComponent(TypePath::Component component);
SubtypingResult& withSubComponent(TypePath::Component component);
SubtypingResult& withBothPath(TypePath::Path path);
SubtypingResult& withSubPath(TypePath::Path path);
SubtypingResult& withSuperPath(TypePath::Path path);
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SubtypingResult& withErrors(ErrorVec& err);
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SubtypingResult& withError(TypeError err);
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// Only negates the `isSubtype`.
static SubtypingResult negate(const SubtypingResult& result);
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static SubtypingResult all(const std::vector<SubtypingResult>& results);
static SubtypingResult any(const std::vector<SubtypingResult>& results);
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};
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struct SubtypingEnvironment
{
struct GenericBounds
{
DenseHashSet<TypeId> lowerBound{nullptr};
DenseHashSet<TypeId> upperBound{nullptr};
};
/*
* When we encounter a generic over the course of a subtyping test, we need
* to tentatively map that generic onto a type on the other side.
*/
DenseHashMap<TypeId, GenericBounds> mappedGenerics{nullptr};
DenseHashMap<TypePackId, TypePackId> mappedGenericPacks{nullptr};
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/*
* See the test cyclic_tables_are_assumed_to_be_compatible_with_classes for
* details.
*
* An empty value is equivalent to a nonexistent key.
*/
DenseHashMap<TypeId, TypeId> substitutions{nullptr};
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DenseHashMap<std::pair<TypeId, TypeId>, SubtypingResult, TypePairHash> ephemeralCache{{}};
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/// Applies `mappedGenerics` to the given type.
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/// This is used specifically to substitute for generics in type function instances.
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std::optional<TypeId> applyMappedGenerics(NotNull<BuiltinTypes> builtinTypes, NotNull<TypeArena> arena, TypeId ty);
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};
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struct Subtyping
{
NotNull<BuiltinTypes> builtinTypes;
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NotNull<TypeArena> arena;
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NotNull<Normalizer> normalizer;
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NotNull<InternalErrorReporter> iceReporter;
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NotNull<Scope> scope;
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TypeCheckLimits limits;
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enum class Variance
{
Covariant,
Contravariant
};
Variance variance = Variance::Covariant;
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using SeenSet = Set<std::pair<TypeId, TypeId>, TypePairHash>;
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SeenSet seenTypes{{}};
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Subtyping(
NotNull<BuiltinTypes> builtinTypes,
NotNull<TypeArena> typeArena,
NotNull<Normalizer> normalizer,
NotNull<InternalErrorReporter> iceReporter,
NotNull<Scope> scope
);
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Subtyping(const Subtyping&) = delete;
Subtyping& operator=(const Subtyping&) = delete;
Subtyping(Subtyping&&) = default;
Subtyping& operator=(Subtyping&&) = default;
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// Only used by unit tests to test that the cache works.
const DenseHashMap<std::pair<TypeId, TypeId>, SubtypingResult, TypePairHash>& peekCache() const
{
return resultCache;
}
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// TODO cache
// TODO cyclic types
// TODO recursion limits
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SubtypingResult isSubtype(TypeId subTy, TypeId superTy);
SubtypingResult isSubtype(TypePackId subTy, TypePackId superTy);
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private:
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DenseHashMap<std::pair<TypeId, TypeId>, SubtypingResult, TypePairHash> resultCache{{}};
SubtypingResult cache(SubtypingEnvironment& env, SubtypingResult res, TypeId subTy, TypeId superTy);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, TypeId subTy, TypeId superTy);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, TypePackId subTy, TypePackId superTy);
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template<typename SubTy, typename SuperTy>
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SubtypingResult isContravariantWith(SubtypingEnvironment& env, SubTy&& subTy, SuperTy&& superTy);
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template<typename SubTy, typename SuperTy>
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SubtypingResult isInvariantWith(SubtypingEnvironment& env, SubTy&& subTy, SuperTy&& superTy);
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template<typename SubTy, typename SuperTy>
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SubtypingResult isCovariantWith(SubtypingEnvironment& env, const TryPair<const SubTy*, const SuperTy*>& pair);
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template<typename SubTy, typename SuperTy>
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SubtypingResult isContravariantWith(SubtypingEnvironment& env, const TryPair<const SubTy*, const SuperTy*>& pair);
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template<typename SubTy, typename SuperTy>
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SubtypingResult isInvariantWith(SubtypingEnvironment& env, const TryPair<const SubTy*, const SuperTy*>& pair);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, TypeId subTy, const UnionType* superUnion);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, const UnionType* subUnion, TypeId superTy);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, TypeId subTy, const IntersectionType* superIntersection);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, const IntersectionType* subIntersection, TypeId superTy);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, const NegationType* subNegation, TypeId superTy);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, const TypeId subTy, const NegationType* superNegation);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, const PrimitiveType* subPrim, const PrimitiveType* superPrim);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, const SingletonType* subSingleton, const PrimitiveType* superPrim);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, const SingletonType* subSingleton, const SingletonType* superSingleton);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, const TableType* subTable, const TableType* superTable);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, const MetatableType* subMt, const MetatableType* superMt);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, const MetatableType* subMt, const TableType* superTable);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, const ClassType* subClass, const ClassType* superClass);
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SubtypingResult isCovariantWith(SubtypingEnvironment& env, TypeId subTy, const ClassType* subClass, TypeId superTy, const TableType* superTable);
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SubtypingResult isCovariantWith(SubtypingEnvironment& env, const FunctionType* subFunction, const FunctionType* superFunction);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, const PrimitiveType* subPrim, const TableType* superTable);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, const SingletonType* subSingleton, const TableType* superTable);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, const TableIndexer& subIndexer, const TableIndexer& superIndexer);
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SubtypingResult isCovariantWith(SubtypingEnvironment& env, const Property& subProperty, const Property& superProperty, const std::string& name);
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SubtypingResult isCovariantWith(
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SubtypingEnvironment& env,
const std::shared_ptr<const NormalizedType>& subNorm,
const std::shared_ptr<const NormalizedType>& superNorm
);
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SubtypingResult isCovariantWith(SubtypingEnvironment& env, const NormalizedClassType& subClass, const NormalizedClassType& superClass);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, const NormalizedClassType& subClass, const TypeIds& superTables);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, const NormalizedStringType& subString, const NormalizedStringType& superString);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, const NormalizedStringType& subString, const TypeIds& superTables);
SubtypingResult isCovariantWith(
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SubtypingEnvironment& env,
const NormalizedFunctionType& subFunction,
const NormalizedFunctionType& superFunction
);
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SubtypingResult isCovariantWith(SubtypingEnvironment& env, const TypeIds& subTypes, const TypeIds& superTypes);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, const VariadicTypePack* subVariadic, const VariadicTypePack* superVariadic);
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SubtypingResult isCovariantWith(SubtypingEnvironment& env, const TypeFunctionInstanceType* subFunctionInstance, const TypeId superTy);
SubtypingResult isCovariantWith(SubtypingEnvironment& env, const TypeId subTy, const TypeFunctionInstanceType* superFunctionInstance);
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bool bindGeneric(SubtypingEnvironment& env, TypeId subTp, TypeId superTp);
bool bindGeneric(SubtypingEnvironment& env, TypePackId subTp, TypePackId superTp);
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template<typename T, typename Container>
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TypeId makeAggregateType(const Container& container, TypeId orElse);
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std::pair<TypeId, ErrorVec> handleTypeFunctionReductionResult(const TypeFunctionInstanceType* functionInstance);
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[[noreturn]] void unexpected(TypeId ty);
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[[noreturn]] void unexpected(TypePackId tp);
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};
} // namespace Luau