luau/tests/Fixture.cpp
Andy Friesen 543de6e939
Sync to upstream/release/646 (#1458)
# General Updates

* Fix some cases where documentation symbols would not be available when
mouseovering at certain positions in the code
* Scaffolding to help embedders have more control over how `typeof(x)`
refines types
* Refinements to require-by-string semantics. See
https://github.com/luau-lang/rfcs/pull/56 for details.
* Fix for https://github.com/luau-lang/luau/issues/1405

# New Solver

* Fix many crashes (thanks you for your bug reports!)
* Type functions can now call each other
* Type functions all evaluate in a single VM. This should improve
typechecking performance and reduce memory use.
* `export type function` is now forbidden and fails with a clear error
message
* Type functions that access locals in the surrounding environment are
now properly a parse error
* You can now use `:setindexer(types.never, types.never)` to delete an
indexer from a table type.

# Internal Contributors

Co-authored-by: Aaron Weiss <aaronweiss@roblox.com>
Co-authored-by: Hunter Goldstein <hgoldstein@roblox.com>
Co-authored-by: Varun Saini <vsaini@roblox.com>
Co-authored-by: Vyacheslav Egorov <vegorov@roblox.com>
2024-10-04 11:29:55 -07:00

792 lines
24 KiB
C++

// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
#include "Fixture.h"
#include "Luau/AstQuery.h"
#include "Luau/BuiltinDefinitions.h"
#include "Luau/Common.h"
#include "Luau/Constraint.h"
#include "Luau/ModuleResolver.h"
#include "Luau/NotNull.h"
#include "Luau/Parser.h"
#include "Luau/Type.h"
#include "Luau/TypeAttach.h"
#include "Luau/TypeInfer.h"
#include "Luau/Transpiler.h"
#include "doctest.h"
#include <algorithm>
#include <limits>
#include <sstream>
#include <string_view>
#include <iostream>
#include <fstream>
static const char* mainModuleName = "MainModule";
LUAU_FASTFLAG(LuauSolverV2);
LUAU_FASTFLAG(DebugLuauFreezeArena);
LUAU_FASTFLAG(DebugLuauLogSolverToJsonFile)
LUAU_FASTFLAG(LuauDCRMagicFunctionTypeChecker);
LUAU_DYNAMIC_FASTINT(LuauTypeSolverRelease)
extern std::optional<unsigned> randomSeed; // tests/main.cpp
namespace Luau
{
std::optional<ModuleInfo> TestFileResolver::resolveModuleInfo(const ModuleName& currentModuleName, const AstExpr& pathExpr)
{
if (auto name = pathExprToModuleName(currentModuleName, pathExpr))
return {{*name, false}};
return std::nullopt;
}
const ModulePtr TestFileResolver::getModule(const ModuleName& moduleName) const
{
LUAU_ASSERT(false);
return nullptr;
}
bool TestFileResolver::moduleExists(const ModuleName& moduleName) const
{
auto it = source.find(moduleName);
return (it != source.end());
}
std::optional<SourceCode> TestFileResolver::readSource(const ModuleName& name)
{
auto it = source.find(name);
if (it == source.end())
return std::nullopt;
SourceCode::Type sourceType = SourceCode::Module;
auto it2 = sourceTypes.find(name);
if (it2 != sourceTypes.end())
sourceType = it2->second;
return SourceCode{it->second, sourceType};
}
std::optional<ModuleInfo> TestFileResolver::resolveModule(const ModuleInfo* context, AstExpr* expr)
{
if (AstExprGlobal* g = expr->as<AstExprGlobal>())
{
if (g->name == "game")
return ModuleInfo{"game"};
if (g->name == "workspace")
return ModuleInfo{"workspace"};
if (g->name == "script")
return context ? std::optional<ModuleInfo>(*context) : std::nullopt;
}
else if (AstExprIndexName* i = expr->as<AstExprIndexName>(); i && context)
{
if (i->index == "Parent")
{
std::string_view view = context->name;
size_t lastSeparatorIndex = view.find_last_of('/');
if (lastSeparatorIndex == std::string_view::npos)
return std::nullopt;
return ModuleInfo{ModuleName(view.substr(0, lastSeparatorIndex)), context->optional};
}
else
{
return ModuleInfo{context->name + '/' + i->index.value, context->optional};
}
}
else if (AstExprIndexExpr* i = expr->as<AstExprIndexExpr>(); i && context)
{
if (AstExprConstantString* index = i->index->as<AstExprConstantString>())
{
return ModuleInfo{context->name + '/' + std::string(index->value.data, index->value.size), context->optional};
}
}
else if (AstExprCall* call = expr->as<AstExprCall>(); call && call->self && call->args.size >= 1 && context)
{
if (AstExprConstantString* index = call->args.data[0]->as<AstExprConstantString>())
{
AstName func = call->func->as<AstExprIndexName>()->index;
if (func == "GetService" && context->name == "game")
return ModuleInfo{"game/" + std::string(index->value.data, index->value.size)};
}
}
return std::nullopt;
}
std::string TestFileResolver::getHumanReadableModuleName(const ModuleName& name) const
{
// We have a handful of tests that need to distinguish between a canonical
// ModuleName and the human-readable version so we apply a simple transform
// here: We replace all slashes with dots.
std::string result = name;
for (size_t i = 0; i < result.size(); ++i)
{
if (result[i] == '/')
result[i] = '.';
}
return result;
}
std::optional<std::string> TestFileResolver::getEnvironmentForModule(const ModuleName& name) const
{
auto it = environments.find(name);
if (it != environments.end())
return it->second;
return std::nullopt;
}
const Config& TestConfigResolver::getConfig(const ModuleName& name) const
{
auto it = configFiles.find(name);
if (it != configFiles.end())
return it->second;
return defaultConfig;
}
Fixture::Fixture(bool freeze, bool prepareAutocomplete)
: sff_DebugLuauFreezeArena(FFlag::DebugLuauFreezeArena, freeze)
, sff_LuauDCRMagicFunctionTypeChecker(FFlag::LuauDCRMagicFunctionTypeChecker, true)
// The first value of LuauTypeSolverRelease was 643, so as long as this is
// some number greater than 900 (5 years worth of releases), all tests that
// run under the new solver will run against all of the changes guarded by
// this flag.
, sff_LuauTypeSolverRelease(DFInt::LuauTypeSolverRelease, std::numeric_limits<int>::max())
, frontend(
&fileResolver,
&configResolver,
{/* retainFullTypeGraphs= */ true, /* forAutocomplete */ false, /* runLintChecks */ false, /* randomConstraintResolutionSeed */ randomSeed}
)
, builtinTypes(frontend.builtinTypes)
{
configResolver.defaultConfig.mode = Mode::Strict;
configResolver.defaultConfig.enabledLint.warningMask = ~0ull;
configResolver.defaultConfig.parseOptions.captureComments = true;
Luau::freeze(frontend.globals.globalTypes);
Luau::freeze(frontend.globalsForAutocomplete.globalTypes);
Luau::setPrintLine([](auto s) {});
if (FFlag::DebugLuauLogSolverToJsonFile)
{
frontend.writeJsonLog = [&](const Luau::ModuleName& moduleName, std::string log)
{
std::string path = moduleName + ".log.json";
size_t pos = moduleName.find_last_of('/');
if (pos != std::string::npos)
path = moduleName.substr(pos + 1);
std::ofstream os(path);
os << log << std::endl;
MESSAGE("Wrote JSON log to ", path);
};
}
}
Fixture::~Fixture()
{
Luau::resetPrintLine();
}
AstStatBlock* Fixture::parse(const std::string& source, const ParseOptions& parseOptions)
{
sourceModule.reset(new SourceModule);
ParseResult result = Parser::parse(source.c_str(), source.length(), *sourceModule->names, *sourceModule->allocator, parseOptions);
sourceModule->name = fromString(mainModuleName);
sourceModule->root = result.root;
sourceModule->mode = parseMode(result.hotcomments);
sourceModule->hotcomments = std::move(result.hotcomments);
if (!result.errors.empty())
{
// if AST is available, check how lint and typecheck handle error nodes
if (result.root)
{
if (FFlag::LuauSolverV2)
{
Mode mode = sourceModule->mode ? *sourceModule->mode : Mode::Strict;
ModulePtr module = Luau::check(
*sourceModule,
mode,
{},
builtinTypes,
NotNull{&ice},
NotNull{&moduleResolver},
NotNull{&fileResolver},
frontend.globals.globalScope,
/*prepareModuleScope*/ nullptr,
frontend.options,
{},
false,
{}
);
Luau::lint(sourceModule->root, *sourceModule->names, frontend.globals.globalScope, module.get(), sourceModule->hotcomments, {});
}
else
{
TypeChecker typeChecker(frontend.globals.globalScope, &moduleResolver, builtinTypes, &frontend.iceHandler);
ModulePtr module = typeChecker.check(*sourceModule, sourceModule->mode.value_or(Luau::Mode::Nonstrict), std::nullopt);
Luau::lint(sourceModule->root, *sourceModule->names, frontend.globals.globalScope, module.get(), sourceModule->hotcomments, {});
}
}
throw ParseErrors(result.errors);
}
return result.root;
}
CheckResult Fixture::check(Mode mode, const std::string& source)
{
ModuleName mm = fromString(mainModuleName);
configResolver.defaultConfig.mode = mode;
fileResolver.source[mm] = std::move(source);
frontend.markDirty(mm);
CheckResult result = frontend.check(mm);
return result;
}
CheckResult Fixture::check(const std::string& source)
{
return check(Mode::Strict, source);
}
LintResult Fixture::lint(const std::string& source, const std::optional<LintOptions>& lintOptions)
{
ModuleName mm = fromString(mainModuleName);
configResolver.defaultConfig.mode = Mode::Strict;
fileResolver.source[mm] = std::move(source);
frontend.markDirty(mm);
return lintModule(mm);
}
LintResult Fixture::lintModule(const ModuleName& moduleName, const std::optional<LintOptions>& lintOptions)
{
FrontendOptions options = frontend.options;
options.runLintChecks = true;
options.enabledLintWarnings = lintOptions;
CheckResult result = frontend.check(moduleName, options);
return result.lintResult;
}
ParseResult Fixture::parseEx(const std::string& source, const ParseOptions& options)
{
ParseResult result = tryParse(source, options);
if (!result.errors.empty())
throw ParseErrors(result.errors);
return result;
}
ParseResult Fixture::tryParse(const std::string& source, const ParseOptions& parseOptions)
{
ParseOptions options = parseOptions;
options.allowDeclarationSyntax = true;
sourceModule.reset(new SourceModule);
ParseResult result = Parser::parse(source.c_str(), source.length(), *sourceModule->names, *sourceModule->allocator, options);
sourceModule->root = result.root;
return result;
}
ParseResult Fixture::matchParseError(const std::string& source, const std::string& message, std::optional<Location> location)
{
ParseOptions options;
options.allowDeclarationSyntax = true;
sourceModule.reset(new SourceModule);
ParseResult result = Parser::parse(source.c_str(), source.length(), *sourceModule->names, *sourceModule->allocator, options);
CHECK_MESSAGE(!result.errors.empty(), "Expected a parse error in '" << source << "'");
if (!result.errors.empty())
{
CHECK_EQ(result.errors.front().getMessage(), message);
if (location)
CHECK_EQ(result.errors.front().getLocation(), *location);
}
return result;
}
ParseResult Fixture::matchParseErrorPrefix(const std::string& source, const std::string& prefix)
{
ParseOptions options;
options.allowDeclarationSyntax = true;
sourceModule.reset(new SourceModule);
ParseResult result = Parser::parse(source.c_str(), source.length(), *sourceModule->names, *sourceModule->allocator, options);
CHECK_MESSAGE(!result.errors.empty(), "Expected a parse error in '" << source << "'");
if (!result.errors.empty())
{
const std::string& message = result.errors.front().getMessage();
CHECK_GE(message.length(), prefix.length());
CHECK_EQ(prefix, message.substr(0, prefix.size()));
}
return result;
}
ModulePtr Fixture::getMainModule()
{
return frontend.moduleResolver.getModule(fromString(mainModuleName));
}
SourceModule* Fixture::getMainSourceModule()
{
return frontend.getSourceModule(fromString(mainModuleName));
}
std::optional<PrimitiveType::Type> Fixture::getPrimitiveType(TypeId ty)
{
REQUIRE(ty != nullptr);
TypeId aType = follow(ty);
REQUIRE(aType != nullptr);
const PrimitiveType* pt = get<PrimitiveType>(aType);
if (pt != nullptr)
return pt->type;
else
return std::nullopt;
}
std::optional<TypeId> Fixture::getType(const std::string& name)
{
ModulePtr module = getMainModule();
REQUIRE(module);
if (!module->hasModuleScope())
return std::nullopt;
if (FFlag::LuauSolverV2)
return linearSearchForBinding(module->getModuleScope().get(), name.c_str());
else
return lookupName(module->getModuleScope(), name);
}
TypeId Fixture::requireType(const std::string& name)
{
std::optional<TypeId> ty = getType(name);
REQUIRE_MESSAGE(bool(ty), "Unable to requireType \"" << name << "\"");
return follow(*ty);
}
TypeId Fixture::requireType(const ModuleName& moduleName, const std::string& name)
{
ModulePtr module = frontend.moduleResolver.getModule(moduleName);
REQUIRE(module);
return requireType(module, name);
}
TypeId Fixture::requireType(const ModulePtr& module, const std::string& name)
{
if (!module->hasModuleScope())
FAIL("requireType: module scope data is not available");
return requireType(module->getModuleScope(), name);
}
TypeId Fixture::requireType(const ScopePtr& scope, const std::string& name)
{
std::optional<TypeId> ty = lookupName(scope, name);
REQUIRE_MESSAGE(ty, "requireType: No type \"" << name << "\"");
return *ty;
}
std::optional<TypeId> Fixture::findTypeAtPosition(Position position)
{
ModulePtr module = getMainModule();
SourceModule* sourceModule = getMainSourceModule();
return Luau::findTypeAtPosition(*module, *sourceModule, position);
}
std::optional<TypeId> Fixture::findExpectedTypeAtPosition(Position position)
{
ModulePtr module = getMainModule();
SourceModule* sourceModule = getMainSourceModule();
return Luau::findExpectedTypeAtPosition(*module, *sourceModule, position);
}
TypeId Fixture::requireTypeAtPosition(Position position)
{
auto ty = findTypeAtPosition(position);
REQUIRE_MESSAGE(ty, "requireTypeAtPosition: No type at position " << position);
return *ty;
}
std::optional<TypeId> Fixture::lookupType(const std::string& name)
{
ModulePtr module = getMainModule();
if (!module->hasModuleScope())
return std::nullopt;
if (auto typeFun = module->getModuleScope()->lookupType(name))
return typeFun->type;
return std::nullopt;
}
std::optional<TypeId> Fixture::lookupImportedType(const std::string& moduleAlias, const std::string& name)
{
ModulePtr module = getMainModule();
if (!module->hasModuleScope())
FAIL("lookupImportedType: module scope data is not available");
if (auto typeFun = module->getModuleScope()->lookupImportedType(moduleAlias, name))
return typeFun->type;
return std::nullopt;
}
TypeId Fixture::requireTypeAlias(const std::string& name)
{
std::optional<TypeId> ty = lookupType(name);
REQUIRE(ty);
return follow(*ty);
}
TypeId Fixture::requireExportedType(const ModuleName& moduleName, const std::string& name)
{
ModulePtr module = frontend.moduleResolver.getModule(moduleName);
REQUIRE(module);
auto it = module->exportedTypeBindings.find(name);
REQUIRE(it != module->exportedTypeBindings.end());
return it->second.type;
}
std::string Fixture::decorateWithTypes(const std::string& code)
{
fileResolver.source[mainModuleName] = code;
Luau::CheckResult typeInfo = frontend.check(mainModuleName);
SourceModule* sourceModule = frontend.getSourceModule(mainModuleName);
attachTypeData(*sourceModule, *frontend.moduleResolver.getModule(mainModuleName));
return transpileWithTypes(*sourceModule->root);
}
void Fixture::dumpErrors(std::ostream& os, const std::vector<TypeError>& errors)
{
for (const auto& error : errors)
{
os << std::endl;
os << "Error: " << error << std::endl;
std::string_view source = fileResolver.source[error.moduleName];
std::vector<std::string_view> lines = Luau::split(source, '\n');
if (error.location.begin.line >= lines.size())
{
os << "\tSource not available?" << std::endl;
continue;
}
std::string_view theLine = lines[error.location.begin.line];
os << "Line:\t" << theLine << std::endl;
int startCol = error.location.begin.column;
int endCol = error.location.end.line == error.location.begin.line ? error.location.end.column : int(theLine.size());
os << '\t' << std::string(startCol, ' ') << std::string(std::max(1, endCol - startCol), '-') << std::endl;
}
}
void Fixture::registerTestTypes()
{
addGlobalBinding(frontend.globals, "game", builtinTypes->anyType, "@luau");
addGlobalBinding(frontend.globals, "workspace", builtinTypes->anyType, "@luau");
addGlobalBinding(frontend.globals, "script", builtinTypes->anyType, "@luau");
}
void Fixture::dumpErrors(const CheckResult& cr)
{
std::string error = getErrors(cr);
if (!error.empty())
MESSAGE(error);
}
void Fixture::dumpErrors(const ModulePtr& module)
{
std::stringstream ss;
dumpErrors(ss, module->errors);
if (!ss.str().empty())
MESSAGE(ss.str());
}
void Fixture::dumpErrors(const Module& module)
{
std::stringstream ss;
dumpErrors(ss, module.errors);
if (!ss.str().empty())
MESSAGE(ss.str());
}
std::string Fixture::getErrors(const CheckResult& cr)
{
std::stringstream ss;
dumpErrors(ss, cr.errors);
return ss.str();
}
void Fixture::validateErrors(const std::vector<Luau::TypeError>& errors)
{
std::ostringstream oss;
// This helps us validate that error stringification doesn't crash, using both user-facing and internal test-only representation
// Also we exercise error comparison to make sure it's at least able to compare the error equal to itself
for (const Luau::TypeError& e : errors)
{
oss.clear();
oss << e;
toString(e);
// CHECK(e == e); TODO: this doesn't work due to union/intersection type vars
}
}
LoadDefinitionFileResult Fixture::loadDefinition(const std::string& source)
{
unfreeze(frontend.globals.globalTypes);
LoadDefinitionFileResult result =
frontend.loadDefinitionFile(frontend.globals, frontend.globals.globalScope, source, "@test", /* captureComments */ false);
freeze(frontend.globals.globalTypes);
if (result.module)
dumpErrors(result.module);
REQUIRE_MESSAGE(result.success, "loadDefinition: unable to load definition file");
return result;
}
BuiltinsFixture::BuiltinsFixture(bool freeze, bool prepareAutocomplete)
: Fixture(freeze, prepareAutocomplete)
{
Luau::unfreeze(frontend.globals.globalTypes);
Luau::unfreeze(frontend.globalsForAutocomplete.globalTypes);
registerBuiltinGlobals(frontend, frontend.globals);
if (prepareAutocomplete)
registerBuiltinGlobals(frontend, frontend.globalsForAutocomplete, /*typeCheckForAutocomplete*/ true);
registerTestTypes();
Luau::freeze(frontend.globals.globalTypes);
Luau::freeze(frontend.globalsForAutocomplete.globalTypes);
}
static std::vector<std::string_view> parsePathExpr(const AstExpr& pathExpr)
{
const AstExprIndexName* indexName = pathExpr.as<AstExprIndexName>();
if (!indexName)
return {};
std::vector<std::string_view> segments{indexName->index.value};
while (true)
{
if (AstExprIndexName* in = indexName->expr->as<AstExprIndexName>())
{
segments.push_back(in->index.value);
indexName = in;
continue;
}
else if (AstExprGlobal* indexNameAsGlobal = indexName->expr->as<AstExprGlobal>())
{
segments.push_back(indexNameAsGlobal->name.value);
break;
}
else if (AstExprLocal* indexNameAsLocal = indexName->expr->as<AstExprLocal>())
{
segments.push_back(indexNameAsLocal->local->name.value);
break;
}
else
return {};
}
std::reverse(segments.begin(), segments.end());
return segments;
}
std::optional<std::string> pathExprToModuleName(const ModuleName& currentModuleName, const std::vector<std::string_view>& segments)
{
if (segments.empty())
return std::nullopt;
std::vector<std::string_view> result;
auto it = segments.begin();
if (*it == "script" && !currentModuleName.empty())
{
result = split(currentModuleName, '/');
++it;
}
for (; it != segments.end(); ++it)
{
if (result.size() > 1 && *it == "Parent")
result.pop_back();
else
result.push_back(*it);
}
return join(result, "/");
}
std::optional<std::string> pathExprToModuleName(const ModuleName& currentModuleName, const AstExpr& pathExpr)
{
std::vector<std::string_view> segments = parsePathExpr(pathExpr);
return pathExprToModuleName(currentModuleName, segments);
}
ModuleName fromString(std::string_view name)
{
return ModuleName(name);
}
std::string rep(const std::string& s, size_t n)
{
std::string r;
r.reserve(s.length() * n);
for (size_t i = 0; i < n; ++i)
r += s;
return r;
}
bool isInArena(TypeId t, const TypeArena& arena)
{
return arena.types.contains(t);
}
void dumpErrors(const ModulePtr& module)
{
for (const auto& error : module->errors)
std::cout << "Error: " << error << std::endl;
}
void dump(const std::string& name, TypeId ty)
{
std::cout << name << '\t' << toString(ty, {true}) << std::endl;
}
std::optional<TypeId> lookupName(ScopePtr scope, const std::string& name)
{
auto binding = scope->linearSearchForBinding(name);
if (binding)
return binding->typeId;
else
return std::nullopt;
}
std::optional<TypeId> linearSearchForBinding(Scope* scope, const char* name)
{
while (scope)
{
for (const auto& [n, ty] : scope->bindings)
{
if (n.astName() == name)
return ty.typeId;
}
scope = scope->parent.get();
}
return std::nullopt;
}
void registerHiddenTypes(Frontend* frontend)
{
GlobalTypes& globals = frontend->globals;
unfreeze(globals.globalTypes);
TypeId t = globals.globalTypes.addType(GenericType{"T"});
GenericTypeDefinition genericT{t};
TypeId u = globals.globalTypes.addType(GenericType{"U"});
GenericTypeDefinition genericU{u};
ScopePtr globalScope = globals.globalScope;
globalScope->exportedTypeBindings["Not"] = TypeFun{{genericT}, globals.globalTypes.addType(NegationType{t})};
globalScope->exportedTypeBindings["Mt"] = TypeFun{{genericT, genericU}, globals.globalTypes.addType(MetatableType{t, u})};
globalScope->exportedTypeBindings["fun"] = TypeFun{{}, frontend->builtinTypes->functionType};
globalScope->exportedTypeBindings["cls"] = TypeFun{{}, frontend->builtinTypes->classType};
globalScope->exportedTypeBindings["err"] = TypeFun{{}, frontend->builtinTypes->errorType};
globalScope->exportedTypeBindings["tbl"] = TypeFun{{}, frontend->builtinTypes->tableType};
freeze(globals.globalTypes);
}
void createSomeClasses(Frontend* frontend)
{
GlobalTypes& globals = frontend->globals;
TypeArena& arena = globals.globalTypes;
unfreeze(arena);
ScopePtr moduleScope = globals.globalScope;
TypeId parentType = arena.addType(ClassType{"Parent", {}, frontend->builtinTypes->classType, std::nullopt, {}, nullptr, "Test", {}});
ClassType* parentClass = getMutable<ClassType>(parentType);
parentClass->props["method"] = {makeFunction(arena, parentType, {}, {})};
parentClass->props["virtual_method"] = {makeFunction(arena, parentType, {}, {})};
addGlobalBinding(globals, "Parent", {parentType});
moduleScope->exportedTypeBindings["Parent"] = TypeFun{{}, parentType};
TypeId childType = arena.addType(ClassType{"Child", {}, parentType, std::nullopt, {}, nullptr, "Test", {}});
addGlobalBinding(globals, "Child", {childType});
moduleScope->exportedTypeBindings["Child"] = TypeFun{{}, childType};
TypeId anotherChildType = arena.addType(ClassType{"AnotherChild", {}, parentType, std::nullopt, {}, nullptr, "Test", {}});
addGlobalBinding(globals, "AnotherChild", {anotherChildType});
moduleScope->exportedTypeBindings["AnotherChild"] = TypeFun{{}, anotherChildType};
TypeId unrelatedType = arena.addType(ClassType{"Unrelated", {}, frontend->builtinTypes->classType, std::nullopt, {}, nullptr, "Test", {}});
addGlobalBinding(globals, "Unrelated", {unrelatedType});
moduleScope->exportedTypeBindings["Unrelated"] = TypeFun{{}, unrelatedType};
for (const auto& [name, ty] : moduleScope->exportedTypeBindings)
persist(ty.type);
freeze(arena);
}
void dump(const std::vector<Constraint>& constraints)
{
ToStringOptions opts;
for (const auto& c : constraints)
printf("%s\n", toString(c, opts).c_str());
}
} // namespace Luau