2021-10-29 21:25:12 +01:00
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// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
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#pragma once
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2022-01-07 01:46:53 +00:00
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#include <memory>
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#include <unordered_map>
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2021-10-29 21:25:12 +01:00
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#include "Luau/TypeVar.h"
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2022-01-07 01:46:53 +00:00
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#include "Luau/TypePack.h"
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2021-11-05 15:47:21 +00:00
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LUAU_FASTFLAG(LuauShareTxnSeen);
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2021-10-29 21:25:12 +01:00
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namespace Luau
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{
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// Log of where what TypeIds we are rebinding and what they used to be
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2022-01-07 01:46:53 +00:00
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// Remove with LuauUseCommitTxnLog
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struct DEPRECATED_TxnLog
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{
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DEPRECATED_TxnLog()
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: originalSeenSize(0)
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, ownedSeen()
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, sharedSeen(&ownedSeen)
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{
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}
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explicit DEPRECATED_TxnLog(std::vector<std::pair<TypeId, TypeId>>* sharedSeen)
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: originalSeenSize(sharedSeen->size())
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, ownedSeen()
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, sharedSeen(sharedSeen)
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{
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}
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DEPRECATED_TxnLog(const DEPRECATED_TxnLog&) = delete;
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DEPRECATED_TxnLog& operator=(const DEPRECATED_TxnLog&) = delete;
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DEPRECATED_TxnLog(DEPRECATED_TxnLog&&) = default;
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DEPRECATED_TxnLog& operator=(DEPRECATED_TxnLog&&) = default;
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void operator()(TypeId a);
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void operator()(TypePackId a);
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void operator()(TableTypeVar* a);
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void rollback();
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void concat(DEPRECATED_TxnLog rhs);
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bool haveSeen(TypeId lhs, TypeId rhs);
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void pushSeen(TypeId lhs, TypeId rhs);
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void popSeen(TypeId lhs, TypeId rhs);
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private:
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std::vector<std::pair<TypeId, TypeVar>> typeVarChanges;
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std::vector<std::pair<TypePackId, TypePackVar>> typePackChanges;
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std::vector<std::pair<TableTypeVar*, std::optional<TypeId>>> tableChanges;
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size_t originalSeenSize;
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public:
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std::vector<std::pair<TypeId, TypeId>> ownedSeen; // used to avoid infinite recursion when types are cyclic
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std::vector<std::pair<TypeId, TypeId>>* sharedSeen; // shared with all the descendent logs
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};
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// Pending state for a TypeVar. Generated by a TxnLog and committed via
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// TxnLog::commit.
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struct PendingType
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{
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// The pending TypeVar state.
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TypeVar pending;
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explicit PendingType(TypeVar state)
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: pending(std::move(state))
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{
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}
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};
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// Pending state for a TypePackVar. Generated by a TxnLog and committed via
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// TxnLog::commit.
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struct PendingTypePack
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{
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// The pending TypePackVar state.
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TypePackVar pending;
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explicit PendingTypePack(TypePackVar state)
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: pending(std::move(state))
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{
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}
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};
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template<typename T>
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T* getMutable(PendingType* pending)
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{
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// We use getMutable here because this state is intended to be mutated freely.
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return getMutable<T>(&pending->pending);
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}
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template<typename T>
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T* getMutable(PendingTypePack* pending)
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{
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// We use getMutable here because this state is intended to be mutated freely.
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return getMutable<T>(&pending->pending);
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}
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// Log of what TypeIds we are rebinding, to be committed later.
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struct TxnLog
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{
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TxnLog()
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: ownedSeen()
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, sharedSeen(&ownedSeen)
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{
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}
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explicit TxnLog(TxnLog* parent)
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: parent(parent)
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{
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if (parent)
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{
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sharedSeen = parent->sharedSeen;
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}
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else
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{
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sharedSeen = &ownedSeen;
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}
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}
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explicit TxnLog(std::vector<std::pair<TypeId, TypeId>>* sharedSeen)
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: sharedSeen(sharedSeen)
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{
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}
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TxnLog(TxnLog* parent, std::vector<std::pair<TypeId, TypeId>>* sharedSeen)
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: parent(parent)
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, sharedSeen(sharedSeen)
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{
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}
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TxnLog(const TxnLog&) = delete;
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TxnLog& operator=(const TxnLog&) = delete;
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TxnLog(TxnLog&&) = default;
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TxnLog& operator=(TxnLog&&) = default;
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// Gets an empty TxnLog pointer. This is useful for constructs that
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// take a TxnLog, like TypePackIterator - use the empty log if you
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// don't have a TxnLog to give it.
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static const TxnLog* empty();
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// Joins another TxnLog onto this one. You should use std::move to avoid
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// copying the rhs TxnLog.
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//
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// If both logs talk about the same type, pack, or table, the rhs takes
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// priority.
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void concat(TxnLog rhs);
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// Commits the TxnLog, rebinding all type pointers to their pending states.
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// Clears the TxnLog afterwards.
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void commit();
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// Clears the TxnLog without committing any pending changes.
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void clear();
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// Computes an inverse of this TxnLog at the current time.
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// This method should be called before commit is called in order to give an
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// accurate result. Committing the inverse of a TxnLog will undo the changes
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// made by commit, assuming the inverse log is accurate.
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TxnLog inverse();
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bool haveSeen(TypeId lhs, TypeId rhs) const;
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void pushSeen(TypeId lhs, TypeId rhs);
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void popSeen(TypeId lhs, TypeId rhs);
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// Queues a type for modification. The original type will not change until commit
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// is called. Use pending to get the pending state.
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//
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// The pointer returned lives until `commit` or `clear` is called.
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PendingType* queue(TypeId ty);
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// Queues a type pack for modification. The original type pack will not change
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// until commit is called. Use pending to get the pending state.
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//
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// The pointer returned lives until `commit` or `clear` is called.
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PendingTypePack* queue(TypePackId tp);
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// Returns the pending state of a type, or nullptr if there isn't any. It is important
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// to note that this pending state is not transitive: the pending state may reference
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// non-pending types freely, so you may need to call pending multiple times to view the
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// entire pending state of a type graph.
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//
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// The pointer returned lives until `commit` or `clear` is called.
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PendingType* pending(TypeId ty) const;
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// Returns the pending state of a type pack, or nullptr if there isn't any. It is
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// important to note that this pending state is not transitive: the pending state may
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// reference non-pending types freely, so you may need to call pending multiple times
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// to view the entire pending state of a type graph.
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//
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// The pointer returned lives until `commit` or `clear` is called.
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PendingTypePack* pending(TypePackId tp) const;
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// Queues a replacement of a type with another type.
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//
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// The pointer returned lives until `commit` or `clear` is called.
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PendingType* replace(TypeId ty, TypeVar replacement);
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// Queues a replacement of a type pack with another type pack.
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//
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// The pointer returned lives until `commit` or `clear` is called.
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PendingTypePack* replace(TypePackId tp, TypePackVar replacement);
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// Queues a replacement of a table type with another table type that is bound
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// to a specific value.
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//
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// The pointer returned lives until `commit` or `clear` is called.
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PendingType* bindTable(TypeId ty, std::optional<TypeId> newBoundTo);
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// Queues a replacement of a type with a level with a duplicate of that type
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// with a new type level.
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//
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// The pointer returned lives until `commit` or `clear` is called.
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PendingType* changeLevel(TypeId ty, TypeLevel newLevel);
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// Queues a replacement of a type pack with a level with a duplicate of that
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// type pack with a new type level.
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//
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// The pointer returned lives until `commit` or `clear` is called.
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PendingTypePack* changeLevel(TypePackId tp, TypeLevel newLevel);
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// Queues a replacement of a table type with another table type with a new
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// indexer.
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//
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// The pointer returned lives until `commit` or `clear` is called.
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PendingType* changeIndexer(TypeId ty, std::optional<TableIndexer> indexer);
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// Returns the type level of the pending state of the type, or the level of that
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// type, if no pending state exists. If the type doesn't have a notion of a level,
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// returns nullopt. If the pending state doesn't have a notion of a level, but the
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// original state does, returns nullopt.
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std::optional<TypeLevel> getLevel(TypeId ty) const;
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// Follows a type, accounting for pending type states. The returned type may have
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// pending state; you should use `pending` or `get` to find out.
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TypeId follow(TypeId ty);
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// Follows a type pack, accounting for pending type states. The returned type pack
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// may have pending state; you should use `pending` or `get` to find out.
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TypePackId follow(TypePackId tp) const;
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// Replaces a given type's state with a new variant. Returns the new pending state
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// of that type.
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//
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// The pointer returned lives until `commit` or `clear` is called.
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template<typename T>
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PendingType* replace(TypeId ty, T replacement)
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{
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return replace(ty, TypeVar(replacement));
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}
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// Replaces a given type pack's state with a new variant. Returns the new
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// pending state of that type pack.
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//
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// The pointer returned lives until `commit` or `clear` is called.
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template<typename T>
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PendingTypePack* replace(TypePackId tp, T replacement)
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{
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return replace(tp, TypePackVar(replacement));
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}
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// Returns T if a given type or type pack is this variant, respecting the
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// log's pending state.
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//
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// Do not retain this pointer; it has the potential to be invalidated when
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// commit or clear is called.
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template<typename T, typename TID>
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T* getMutable(TID ty) const
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{
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auto* pendingTy = pending(ty);
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if (pendingTy)
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return Luau::getMutable<T>(pendingTy);
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return Luau::getMutable<T>(ty);
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}
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// Returns whether a given type or type pack is a given state, respecting the
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// log's pending state.
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//
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// This method will not assert if called on a BoundTypeVar or BoundTypePack.
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template<typename T, typename TID>
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bool is(TID ty) const
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{
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// We do not use getMutable here because this method can be called on
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// BoundTypeVars, which triggers an assertion.
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auto* pendingTy = pending(ty);
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if (pendingTy)
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return Luau::get_if<T>(&pendingTy->pending.ty) != nullptr;
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return Luau::get_if<T>(&ty->ty) != nullptr;
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}
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private:
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// unique_ptr is used to give us stable pointers across insertions into the
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// map. Otherwise, it would be really easy to accidentally invalidate the
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// pointers returned from queue/pending.
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//
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// We can't use a DenseHashMap here because we need a non-const iterator
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// over the map when we concatenate.
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std::unordered_map<TypeId, std::unique_ptr<PendingType>> typeVarChanges;
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std::unordered_map<TypePackId, std::unique_ptr<PendingTypePack>> typePackChanges;
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TxnLog* parent = nullptr;
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// Owned version of sharedSeen. This should not be accessed directly in
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// TxnLogs; use sharedSeen instead. This field exists because in the tree
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// of TxnLogs, the root must own its seen set. In all descendant TxnLogs,
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// this is an empty vector.
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std::vector<std::pair<TypeId, TypeId>> ownedSeen;
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public:
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// Used to avoid infinite recursion when types are cyclic.
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// Shared with all the descendent TxnLogs.
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std::vector<std::pair<TypeId, TypeId>>* sharedSeen;
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};
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2021-10-29 21:25:12 +01:00
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} // namespace Luau
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