// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details #include "Luau/Differ.h" #include "Luau/Common.h" #include "Luau/Error.h" #include "Luau/ToString.h" #include "Luau/Type.h" #include "Luau/TypePack.h" #include "Luau/Unifiable.h" #include #include #include #include namespace Luau { std::string DiffPathNode::toString() const { switch (kind) { case DiffPathNode::Kind::TableProperty: { if (!tableProperty.has_value()) throw InternalCompilerError{"DiffPathNode has kind TableProperty but tableProperty is nullopt"}; return *tableProperty; break; } case DiffPathNode::Kind::FunctionArgument: { if (!index.has_value()) return "Arg[Variadic]"; // Add 1 because Lua is 1-indexed return "Arg[" + std::to_string(*index + 1) + "]"; } case DiffPathNode::Kind::FunctionReturn: { if (!index.has_value()) return "Ret[Variadic]"; // Add 1 because Lua is 1-indexed return "Ret[" + std::to_string(*index + 1) + "]"; } case DiffPathNode::Kind::Negation: { return "Negation"; } default: { throw InternalCompilerError{"DiffPathNode::toString is not exhaustive"}; } } } DiffPathNode DiffPathNode::constructWithTableProperty(Name tableProperty) { return DiffPathNode{DiffPathNode::Kind::TableProperty, tableProperty, std::nullopt}; } DiffPathNode DiffPathNode::constructWithKindAndIndex(Kind kind, size_t index) { return DiffPathNode{kind, std::nullopt, index}; } DiffPathNode DiffPathNode::constructWithKind(Kind kind) { return DiffPathNode{kind, std::nullopt, std::nullopt}; } DiffPathNodeLeaf DiffPathNodeLeaf::detailsNormal(TypeId ty) { return DiffPathNodeLeaf{ty, std::nullopt, std::nullopt, false, std::nullopt}; } DiffPathNodeLeaf DiffPathNodeLeaf::detailsTableProperty(TypeId ty, Name tableProperty) { return DiffPathNodeLeaf{ty, tableProperty, std::nullopt, false, std::nullopt}; } DiffPathNodeLeaf DiffPathNodeLeaf::detailsUnionIndex(TypeId ty, size_t index) { return DiffPathNodeLeaf{ty, std::nullopt, std::nullopt, false, index}; } DiffPathNodeLeaf DiffPathNodeLeaf::detailsLength(int minLength, bool isVariadic) { return DiffPathNodeLeaf{std::nullopt, std::nullopt, minLength, isVariadic, std::nullopt}; } DiffPathNodeLeaf DiffPathNodeLeaf::nullopts() { return DiffPathNodeLeaf{std::nullopt, std::nullopt, std::nullopt, false, std::nullopt}; } std::string DiffPath::toString(bool prependDot) const { std::string pathStr; bool isFirstInForLoop = !prependDot; for (auto node = path.rbegin(); node != path.rend(); node++) { if (isFirstInForLoop) { isFirstInForLoop = false; } else { pathStr += "."; } pathStr += node->toString(); } return pathStr; } std::string DiffError::toStringALeaf(std::string rootName, const DiffPathNodeLeaf& leaf, const DiffPathNodeLeaf& otherLeaf, bool multiLine) const { std::string conditionalNewline = multiLine ? "\n" : " "; std::string conditionalIndent = multiLine ? " " : ""; std::string pathStr{rootName + diffPath.toString(true)}; switch (kind) { case DiffError::Kind::Normal: { checkNonMissingPropertyLeavesHaveNulloptTableProperty(); return pathStr + conditionalNewline + "has type" + conditionalNewline + conditionalIndent + Luau::toString(*leaf.ty); } case DiffError::Kind::MissingTableProperty: { if (leaf.ty.has_value()) { if (!leaf.tableProperty.has_value()) throw InternalCompilerError{"leaf.tableProperty is nullopt"}; return pathStr + "." + *leaf.tableProperty + conditionalNewline + "has type" + conditionalNewline + conditionalIndent + Luau::toString(*leaf.ty); } else if (otherLeaf.ty.has_value()) { if (!otherLeaf.tableProperty.has_value()) throw InternalCompilerError{"otherLeaf.tableProperty is nullopt"}; return pathStr + conditionalNewline + "is missing the property" + conditionalNewline + conditionalIndent + *otherLeaf.tableProperty; } throw InternalCompilerError{"Both leaf.ty and otherLeaf.ty is nullopt"}; } case DiffError::Kind::MissingUnionMember: { // TODO: do normal case if (leaf.ty.has_value()) { if (!leaf.unionIndex.has_value()) throw InternalCompilerError{"leaf.unionIndex is nullopt"}; return pathStr + conditionalNewline + "is a union containing type" + conditionalNewline + conditionalIndent + Luau::toString(*leaf.ty); } else if (otherLeaf.ty.has_value()) { return pathStr + conditionalNewline + "is a union missing type" + conditionalNewline + conditionalIndent + Luau::toString(*otherLeaf.ty); } throw InternalCompilerError{"Both leaf.ty and otherLeaf.ty is nullopt"}; } case DiffError::Kind::MissingIntersectionMember: { // TODO: better message for intersections // An intersection of just functions is always an "overloaded function" // An intersection of just tables is always a "joined table" if (leaf.ty.has_value()) { if (!leaf.unionIndex.has_value()) throw InternalCompilerError{"leaf.unionIndex is nullopt"}; return pathStr + conditionalNewline + "is an intersection containing type" + conditionalNewline + conditionalIndent + Luau::toString(*leaf.ty); } else if (otherLeaf.ty.has_value()) { return pathStr + conditionalNewline + "is an intersection missing type" + conditionalNewline + conditionalIndent + Luau::toString(*otherLeaf.ty); } throw InternalCompilerError{"Both leaf.ty and otherLeaf.ty is nullopt"}; } case DiffError::Kind::LengthMismatchInFnArgs: { if (!leaf.minLength.has_value()) throw InternalCompilerError{"leaf.minLength is nullopt"}; return pathStr + conditionalNewline + "takes " + std::to_string(*leaf.minLength) + (leaf.isVariadic ? " or more" : "") + " arguments"; } case DiffError::Kind::LengthMismatchInFnRets: { if (!leaf.minLength.has_value()) throw InternalCompilerError{"leaf.minLength is nullopt"}; return pathStr + conditionalNewline + "returns " + std::to_string(*leaf.minLength) + (leaf.isVariadic ? " or more" : "") + " values"; } default: { throw InternalCompilerError{"DiffPath::toStringALeaf is not exhaustive"}; } } } void DiffError::checkNonMissingPropertyLeavesHaveNulloptTableProperty() const { if (left.tableProperty.has_value() || right.tableProperty.has_value()) throw InternalCompilerError{"Non-MissingProperty DiffError should have nullopt tableProperty in both leaves"}; } std::string getDevFixFriendlyName(const std::optional& maybeSymbol, TypeId ty) { if (maybeSymbol.has_value()) return *maybeSymbol; if (auto table = get(ty)) { if (table->name.has_value()) return *table->name; else if (table->syntheticName.has_value()) return *table->syntheticName; } if (auto metatable = get(ty)) { if (metatable->syntheticName.has_value()) { return *metatable->syntheticName; } } return ""; } std::string DifferEnvironment::getDevFixFriendlyNameLeft() const { return getDevFixFriendlyName(externalSymbolLeft, rootLeft); } std::string DifferEnvironment::getDevFixFriendlyNameRight() const { return getDevFixFriendlyName(externalSymbolRight, rootRight); } std::string DiffError::toString(bool multiLine) const { std::string conditionalNewline = multiLine ? "\n" : " "; std::string conditionalIndent = multiLine ? " " : ""; switch (kind) { case DiffError::Kind::IncompatibleGeneric: { std::string diffPathStr{diffPath.toString(true)}; return "DiffError: these two types are not equal because the left generic at" + conditionalNewline + conditionalIndent + leftRootName + diffPathStr + conditionalNewline + "cannot be the same type parameter as the right generic at" + conditionalNewline + conditionalIndent + rightRootName + diffPathStr; } default: { return "DiffError: these two types are not equal because the left type at" + conditionalNewline + conditionalIndent + toStringALeaf(leftRootName, left, right, multiLine) + "," + conditionalNewline + "while the right type at" + conditionalNewline + conditionalIndent + toStringALeaf(rightRootName, right, left, multiLine); } } } void DiffError::checkValidInitialization(const DiffPathNodeLeaf& left, const DiffPathNodeLeaf& right) { if (!left.ty.has_value() || !right.ty.has_value()) { // TODO: think about whether this should be always thrown! // For example, Kind::Primitive doesn't make too much sense to have a TypeId // throw InternalCompilerError{"Left and Right fields are leaf nodes and must have a TypeId"}; } } void DifferResult::wrapDiffPath(DiffPathNode node) { if (!diffError.has_value()) { throw InternalCompilerError{"Cannot wrap diffPath because there is no diffError"}; } diffError->diffPath.path.push_back(node); } static DifferResult diffUsingEnv(DifferEnvironment& env, TypeId left, TypeId right); static DifferResult diffTable(DifferEnvironment& env, TypeId left, TypeId right); static DifferResult diffMetatable(DifferEnvironment& env, TypeId left, TypeId right); static DifferResult diffPrimitive(DifferEnvironment& env, TypeId left, TypeId right); static DifferResult diffSingleton(DifferEnvironment& env, TypeId left, TypeId right); static DifferResult diffFunction(DifferEnvironment& env, TypeId left, TypeId right); static DifferResult diffGeneric(DifferEnvironment& env, TypeId left, TypeId right); static DifferResult diffNegation(DifferEnvironment& env, TypeId left, TypeId right); static DifferResult diffClass(DifferEnvironment& env, TypeId left, TypeId right); struct FindSeteqCounterexampleResult { // nullopt if no counterexample found std::optional mismatchIdx; // true if counterexample is in the left, false if cex is in the right bool inLeft; }; static FindSeteqCounterexampleResult findSeteqCounterexample( DifferEnvironment& env, const std::vector& left, const std::vector& right ); static DifferResult diffUnion(DifferEnvironment& env, TypeId left, TypeId right); static DifferResult diffIntersection(DifferEnvironment& env, TypeId left, TypeId right); /** * The last argument gives context info on which complex type contained the TypePack. */ static DifferResult diffTpi(DifferEnvironment& env, DiffError::Kind possibleNonNormalErrorKind, TypePackId left, TypePackId right); static DifferResult diffCanonicalTpShape( DifferEnvironment& env, DiffError::Kind possibleNonNormalErrorKind, const std::pair, std::optional>& left, const std::pair, std::optional>& right ); static DifferResult diffHandleFlattenedTail(DifferEnvironment& env, DiffError::Kind possibleNonNormalErrorKind, TypePackId left, TypePackId right); static DifferResult diffGenericTp(DifferEnvironment& env, TypePackId left, TypePackId right); static DifferResult diffTable(DifferEnvironment& env, TypeId left, TypeId right) { const TableType* leftTable = get(left); const TableType* rightTable = get(right); LUAU_ASSERT(leftTable); LUAU_ASSERT(rightTable); for (auto const& [field, value] : leftTable->props) { if (rightTable->props.find(field) == rightTable->props.end()) { // left has a field the right doesn't return DifferResult{DiffError{ DiffError::Kind::MissingTableProperty, DiffPathNodeLeaf::detailsTableProperty(value.type(), field), DiffPathNodeLeaf::nullopts(), env.getDevFixFriendlyNameLeft(), env.getDevFixFriendlyNameRight(), }}; } } for (auto const& [field, value] : rightTable->props) { if (leftTable->props.find(field) == leftTable->props.end()) { // right has a field the left doesn't return DifferResult{DiffError{ DiffError::Kind::MissingTableProperty, DiffPathNodeLeaf::nullopts(), DiffPathNodeLeaf::detailsTableProperty(value.type(), field), env.getDevFixFriendlyNameLeft(), env.getDevFixFriendlyNameRight() }}; } } // left and right have the same set of keys for (auto const& [field, leftValue] : leftTable->props) { auto const& rightValue = rightTable->props.at(field); DifferResult differResult = diffUsingEnv(env, leftValue.type(), rightValue.type()); if (differResult.diffError.has_value()) { differResult.wrapDiffPath(DiffPathNode::constructWithTableProperty(field)); return differResult; } } return DifferResult{}; } static DifferResult diffMetatable(DifferEnvironment& env, TypeId left, TypeId right) { const MetatableType* leftMetatable = get(left); const MetatableType* rightMetatable = get(right); LUAU_ASSERT(leftMetatable); LUAU_ASSERT(rightMetatable); DifferResult diffRes = diffUsingEnv(env, leftMetatable->table, rightMetatable->table); if (diffRes.diffError.has_value()) { return diffRes; } diffRes = diffUsingEnv(env, leftMetatable->metatable, rightMetatable->metatable); if (diffRes.diffError.has_value()) { diffRes.wrapDiffPath(DiffPathNode::constructWithTableProperty("__metatable")); return diffRes; } return DifferResult{}; } static DifferResult diffPrimitive(DifferEnvironment& env, TypeId left, TypeId right) { const PrimitiveType* leftPrimitive = get(left); const PrimitiveType* rightPrimitive = get(right); LUAU_ASSERT(leftPrimitive); LUAU_ASSERT(rightPrimitive); if (leftPrimitive->type != rightPrimitive->type) { return DifferResult{DiffError{ DiffError::Kind::Normal, DiffPathNodeLeaf::detailsNormal(left), DiffPathNodeLeaf::detailsNormal(right), env.getDevFixFriendlyNameLeft(), env.getDevFixFriendlyNameRight(), }}; } return DifferResult{}; } static DifferResult diffSingleton(DifferEnvironment& env, TypeId left, TypeId right) { const SingletonType* leftSingleton = get(left); const SingletonType* rightSingleton = get(right); LUAU_ASSERT(leftSingleton); LUAU_ASSERT(rightSingleton); if (*leftSingleton != *rightSingleton) { return DifferResult{DiffError{ DiffError::Kind::Normal, DiffPathNodeLeaf::detailsNormal(left), DiffPathNodeLeaf::detailsNormal(right), env.getDevFixFriendlyNameLeft(), env.getDevFixFriendlyNameRight(), }}; } return DifferResult{}; } static DifferResult diffFunction(DifferEnvironment& env, TypeId left, TypeId right) { const FunctionType* leftFunction = get(left); const FunctionType* rightFunction = get(right); LUAU_ASSERT(leftFunction); LUAU_ASSERT(rightFunction); DifferResult differResult = diffTpi(env, DiffError::Kind::LengthMismatchInFnArgs, leftFunction->argTypes, rightFunction->argTypes); if (differResult.diffError.has_value()) return differResult; return diffTpi(env, DiffError::Kind::LengthMismatchInFnRets, leftFunction->retTypes, rightFunction->retTypes); } static DifferResult diffGeneric(DifferEnvironment& env, TypeId left, TypeId right) { LUAU_ASSERT(get(left)); LUAU_ASSERT(get(right)); // Try to pair up the generics bool isLeftFree = !env.genericMatchedPairs.contains(left); bool isRightFree = !env.genericMatchedPairs.contains(right); if (isLeftFree && isRightFree) { env.genericMatchedPairs[left] = right; env.genericMatchedPairs[right] = left; return DifferResult{}; } else if (isLeftFree || isRightFree) { return DifferResult{DiffError{ DiffError::Kind::IncompatibleGeneric, DiffPathNodeLeaf::nullopts(), DiffPathNodeLeaf::nullopts(), env.getDevFixFriendlyNameLeft(), env.getDevFixFriendlyNameRight(), }}; } // Both generics are already paired up if (*env.genericMatchedPairs.find(left) == right) return DifferResult{}; return DifferResult{DiffError{ DiffError::Kind::IncompatibleGeneric, DiffPathNodeLeaf::nullopts(), DiffPathNodeLeaf::nullopts(), env.getDevFixFriendlyNameLeft(), env.getDevFixFriendlyNameRight(), }}; } static DifferResult diffNegation(DifferEnvironment& env, TypeId left, TypeId right) { const NegationType* leftNegation = get(left); const NegationType* rightNegation = get(right); LUAU_ASSERT(leftNegation); LUAU_ASSERT(rightNegation); DifferResult differResult = diffUsingEnv(env, leftNegation->ty, rightNegation->ty); if (!differResult.diffError.has_value()) return DifferResult{}; differResult.wrapDiffPath(DiffPathNode::constructWithKind(DiffPathNode::Kind::Negation)); return differResult; } static DifferResult diffClass(DifferEnvironment& env, TypeId left, TypeId right) { const ClassType* leftClass = get(left); const ClassType* rightClass = get(right); LUAU_ASSERT(leftClass); LUAU_ASSERT(rightClass); if (leftClass == rightClass) { return DifferResult{}; } return DifferResult{DiffError{ DiffError::Kind::Normal, DiffPathNodeLeaf::detailsNormal(left), DiffPathNodeLeaf::detailsNormal(right), env.getDevFixFriendlyNameLeft(), env.getDevFixFriendlyNameRight(), }}; } static FindSeteqCounterexampleResult findSeteqCounterexample( DifferEnvironment& env, const std::vector& left, const std::vector& right ) { std::unordered_set unmatchedRightIdxes; for (size_t i = 0; i < right.size(); i++) unmatchedRightIdxes.insert(i); for (size_t leftIdx = 0; leftIdx < left.size(); leftIdx++) { bool leftIdxIsMatched = false; auto unmatchedRightIdxIt = unmatchedRightIdxes.begin(); while (unmatchedRightIdxIt != unmatchedRightIdxes.end()) { DifferResult differResult = diffUsingEnv(env, left[leftIdx], right[*unmatchedRightIdxIt]); if (differResult.diffError.has_value()) { unmatchedRightIdxIt++; continue; } // unmatchedRightIdxIt is matched with current leftIdx env.recordProvenEqual(left[leftIdx], right[*unmatchedRightIdxIt]); leftIdxIsMatched = true; unmatchedRightIdxIt = unmatchedRightIdxes.erase(unmatchedRightIdxIt); } if (!leftIdxIsMatched) { return FindSeteqCounterexampleResult{leftIdx, true}; } } if (unmatchedRightIdxes.empty()) return FindSeteqCounterexampleResult{std::nullopt, false}; return FindSeteqCounterexampleResult{*unmatchedRightIdxes.begin(), false}; } static DifferResult diffUnion(DifferEnvironment& env, TypeId left, TypeId right) { const UnionType* leftUnion = get(left); const UnionType* rightUnion = get(right); LUAU_ASSERT(leftUnion); LUAU_ASSERT(rightUnion); FindSeteqCounterexampleResult findSeteqCexResult = findSeteqCounterexample(env, leftUnion->options, rightUnion->options); if (findSeteqCexResult.mismatchIdx.has_value()) { if (findSeteqCexResult.inLeft) return DifferResult{DiffError{ DiffError::Kind::MissingUnionMember, DiffPathNodeLeaf::detailsUnionIndex(leftUnion->options[*findSeteqCexResult.mismatchIdx], *findSeteqCexResult.mismatchIdx), DiffPathNodeLeaf::nullopts(), env.getDevFixFriendlyNameLeft(), env.getDevFixFriendlyNameRight(), }}; else return DifferResult{DiffError{ DiffError::Kind::MissingUnionMember, DiffPathNodeLeaf::nullopts(), DiffPathNodeLeaf::detailsUnionIndex(rightUnion->options[*findSeteqCexResult.mismatchIdx], *findSeteqCexResult.mismatchIdx), env.getDevFixFriendlyNameLeft(), env.getDevFixFriendlyNameRight(), }}; } // TODO: somehow detect mismatch index, likely using heuristics return DifferResult{}; } static DifferResult diffIntersection(DifferEnvironment& env, TypeId left, TypeId right) { const IntersectionType* leftIntersection = get(left); const IntersectionType* rightIntersection = get(right); LUAU_ASSERT(leftIntersection); LUAU_ASSERT(rightIntersection); FindSeteqCounterexampleResult findSeteqCexResult = findSeteqCounterexample(env, leftIntersection->parts, rightIntersection->parts); if (findSeteqCexResult.mismatchIdx.has_value()) { if (findSeteqCexResult.inLeft) return DifferResult{DiffError{ DiffError::Kind::MissingIntersectionMember, DiffPathNodeLeaf::detailsUnionIndex(leftIntersection->parts[*findSeteqCexResult.mismatchIdx], *findSeteqCexResult.mismatchIdx), DiffPathNodeLeaf::nullopts(), env.getDevFixFriendlyNameLeft(), env.getDevFixFriendlyNameRight(), }}; else return DifferResult{DiffError{ DiffError::Kind::MissingIntersectionMember, DiffPathNodeLeaf::nullopts(), DiffPathNodeLeaf::detailsUnionIndex(rightIntersection->parts[*findSeteqCexResult.mismatchIdx], *findSeteqCexResult.mismatchIdx), env.getDevFixFriendlyNameLeft(), env.getDevFixFriendlyNameRight(), }}; } // TODO: somehow detect mismatch index, likely using heuristics return DifferResult{}; } static DifferResult diffUsingEnv(DifferEnvironment& env, TypeId left, TypeId right) { left = follow(left); right = follow(right); if (left->ty.index() != right->ty.index()) { return DifferResult{DiffError{ DiffError::Kind::Normal, DiffPathNodeLeaf::detailsNormal(left), DiffPathNodeLeaf::detailsNormal(right), env.getDevFixFriendlyNameLeft(), env.getDevFixFriendlyNameRight(), }}; } // Both left and right are the same variant // Check cycles & caches if (env.isAssumedEqual(left, right) || env.isProvenEqual(left, right)) return DifferResult{}; if (isSimple(left)) { if (auto lp = get(left)) return diffPrimitive(env, left, right); else if (auto ls = get(left)) { return diffSingleton(env, left, right); } else if (auto la = get(left)) { // Both left and right must be Any if either is Any for them to be equal! return DifferResult{}; } else if (auto lu = get(left)) { return DifferResult{}; } else if (auto ln = get(left)) { return DifferResult{}; } else if (auto ln = get(left)) { return diffNegation(env, left, right); } else if (auto lc = get(left)) { return diffClass(env, left, right); } throw InternalCompilerError{"Unimplemented Simple TypeId variant for diffing"}; } // Both left and right are the same non-Simple // Non-simple types must record visits in the DifferEnvironment env.pushVisiting(left, right); if (auto lt = get(left)) { DifferResult diffRes = diffTable(env, left, right); if (!diffRes.diffError.has_value()) { env.recordProvenEqual(left, right); } env.popVisiting(); return diffRes; } if (auto lm = get(left)) { env.popVisiting(); return diffMetatable(env, left, right); } if (auto lf = get(left)) { DifferResult diffRes = diffFunction(env, left, right); if (!diffRes.diffError.has_value()) { env.recordProvenEqual(left, right); } env.popVisiting(); return diffRes; } if (auto lg = get(left)) { DifferResult diffRes = diffGeneric(env, left, right); if (!diffRes.diffError.has_value()) { env.recordProvenEqual(left, right); } env.popVisiting(); return diffRes; } if (auto lu = get(left)) { DifferResult diffRes = diffUnion(env, left, right); if (!diffRes.diffError.has_value()) { env.recordProvenEqual(left, right); } env.popVisiting(); return diffRes; } if (auto li = get(left)) { DifferResult diffRes = diffIntersection(env, left, right); if (!diffRes.diffError.has_value()) { env.recordProvenEqual(left, right); } env.popVisiting(); return diffRes; } if (auto le = get(left)) { // TODO: return debug-friendly result state env.popVisiting(); return DifferResult{}; } throw InternalCompilerError{"Unimplemented non-simple TypeId variant for diffing"}; } static DifferResult diffTpi(DifferEnvironment& env, DiffError::Kind possibleNonNormalErrorKind, TypePackId left, TypePackId right) { left = follow(left); right = follow(right); // Canonicalize std::pair, std::optional> leftFlatTpi = flatten(left); std::pair, std::optional> rightFlatTpi = flatten(right); // Check for shape equality DifferResult diffResult = diffCanonicalTpShape(env, possibleNonNormalErrorKind, leftFlatTpi, rightFlatTpi); if (diffResult.diffError.has_value()) { return diffResult; } // Left and Right have the same shape for (size_t i = 0; i < leftFlatTpi.first.size(); i++) { DifferResult differResult = diffUsingEnv(env, leftFlatTpi.first[i], rightFlatTpi.first[i]); if (!differResult.diffError.has_value()) continue; switch (possibleNonNormalErrorKind) { case DiffError::Kind::LengthMismatchInFnArgs: { differResult.wrapDiffPath(DiffPathNode::constructWithKindAndIndex(DiffPathNode::Kind::FunctionArgument, i)); return differResult; } case DiffError::Kind::LengthMismatchInFnRets: { differResult.wrapDiffPath(DiffPathNode::constructWithKindAndIndex(DiffPathNode::Kind::FunctionReturn, i)); return differResult; } default: { throw InternalCompilerError{"Unhandled Tpi diffing case with same shape"}; } } } if (!leftFlatTpi.second.has_value()) return DifferResult{}; return diffHandleFlattenedTail(env, possibleNonNormalErrorKind, *leftFlatTpi.second, *rightFlatTpi.second); } static DifferResult diffCanonicalTpShape( DifferEnvironment& env, DiffError::Kind possibleNonNormalErrorKind, const std::pair, std::optional>& left, const std::pair, std::optional>& right ) { if (left.first.size() == right.first.size() && left.second.has_value() == right.second.has_value()) return DifferResult{}; return DifferResult{DiffError{ possibleNonNormalErrorKind, DiffPathNodeLeaf::detailsLength(int(left.first.size()), left.second.has_value()), DiffPathNodeLeaf::detailsLength(int(right.first.size()), right.second.has_value()), env.getDevFixFriendlyNameLeft(), env.getDevFixFriendlyNameRight(), }}; } static DifferResult diffHandleFlattenedTail(DifferEnvironment& env, DiffError::Kind possibleNonNormalErrorKind, TypePackId left, TypePackId right) { left = follow(left); right = follow(right); if (left->ty.index() != right->ty.index()) { return DifferResult{DiffError{ DiffError::Kind::Normal, DiffPathNodeLeaf::detailsNormal(env.visitingBegin()->first), DiffPathNodeLeaf::detailsNormal(env.visitingBegin()->second), env.getDevFixFriendlyNameLeft(), env.getDevFixFriendlyNameRight(), }}; } // Both left and right are the same variant if (auto lv = get(left)) { auto rv = get(right); DifferResult differResult = diffUsingEnv(env, lv->ty, rv->ty); if (!differResult.diffError.has_value()) return DifferResult{}; switch (possibleNonNormalErrorKind) { case DiffError::Kind::LengthMismatchInFnArgs: { differResult.wrapDiffPath(DiffPathNode::constructWithKind(DiffPathNode::Kind::FunctionArgument)); return differResult; } case DiffError::Kind::LengthMismatchInFnRets: { differResult.wrapDiffPath(DiffPathNode::constructWithKind(DiffPathNode::Kind::FunctionReturn)); return differResult; } default: { throw InternalCompilerError{"Unhandled flattened tail case for VariadicTypePack"}; } } } if (auto lg = get(left)) { DifferResult diffRes = diffGenericTp(env, left, right); if (!diffRes.diffError.has_value()) return DifferResult{}; switch (possibleNonNormalErrorKind) { case DiffError::Kind::LengthMismatchInFnArgs: { diffRes.wrapDiffPath(DiffPathNode::constructWithKind(DiffPathNode::Kind::FunctionArgument)); return diffRes; } case DiffError::Kind::LengthMismatchInFnRets: { diffRes.wrapDiffPath(DiffPathNode::constructWithKind(DiffPathNode::Kind::FunctionReturn)); return diffRes; } default: { throw InternalCompilerError{"Unhandled flattened tail case for GenericTypePack"}; } } } throw InternalCompilerError{"Unhandled tail type pack variant for flattened tails"}; } static DifferResult diffGenericTp(DifferEnvironment& env, TypePackId left, TypePackId right) { LUAU_ASSERT(get(left)); LUAU_ASSERT(get(right)); // Try to pair up the generics bool isLeftFree = !env.genericTpMatchedPairs.contains(left); bool isRightFree = !env.genericTpMatchedPairs.contains(right); if (isLeftFree && isRightFree) { env.genericTpMatchedPairs[left] = right; env.genericTpMatchedPairs[right] = left; return DifferResult{}; } else if (isLeftFree || isRightFree) { return DifferResult{DiffError{ DiffError::Kind::IncompatibleGeneric, DiffPathNodeLeaf::nullopts(), DiffPathNodeLeaf::nullopts(), env.getDevFixFriendlyNameLeft(), env.getDevFixFriendlyNameRight(), }}; } // Both generics are already paired up if (*env.genericTpMatchedPairs.find(left) == right) return DifferResult{}; return DifferResult{DiffError{ DiffError::Kind::IncompatibleGeneric, DiffPathNodeLeaf::nullopts(), DiffPathNodeLeaf::nullopts(), env.getDevFixFriendlyNameLeft(), env.getDevFixFriendlyNameRight(), }}; } bool DifferEnvironment::isProvenEqual(TypeId left, TypeId right) const { return provenEqual.find({left, right}) != provenEqual.end(); } bool DifferEnvironment::isAssumedEqual(TypeId left, TypeId right) const { return visiting.find({left, right}) != visiting.end(); } void DifferEnvironment::recordProvenEqual(TypeId left, TypeId right) { provenEqual.insert({left, right}); provenEqual.insert({right, left}); } void DifferEnvironment::pushVisiting(TypeId left, TypeId right) { LUAU_ASSERT(visiting.find({left, right}) == visiting.end()); LUAU_ASSERT(visiting.find({right, left}) == visiting.end()); visitingStack.push_back({left, right}); visiting.insert({left, right}); visiting.insert({right, left}); } void DifferEnvironment::popVisiting() { auto tyPair = visitingStack.back(); visiting.erase({tyPair.first, tyPair.second}); visiting.erase({tyPair.second, tyPair.first}); visitingStack.pop_back(); } std::vector>::const_reverse_iterator DifferEnvironment::visitingBegin() const { return visitingStack.crbegin(); } std::vector>::const_reverse_iterator DifferEnvironment::visitingEnd() const { return visitingStack.crend(); } DifferResult diff(TypeId ty1, TypeId ty2) { DifferEnvironment differEnv{ty1, ty2, std::nullopt, std::nullopt}; return diffUsingEnv(differEnv, ty1, ty2); } DifferResult diffWithSymbols(TypeId ty1, TypeId ty2, std::optional symbol1, std::optional symbol2) { DifferEnvironment differEnv{ty1, ty2, symbol1, symbol2}; return diffUsingEnv(differEnv, ty1, ty2); } bool isSimple(TypeId ty) { ty = follow(ty); // TODO: think about GenericType, etc. return get(ty) || get(ty) || get(ty) || get(ty) || get(ty) || get(ty) || get(ty); } } // namespace Luau