src/third_party/v8/src/objects/module.cc - cobalt - Git at Google

 // Copyright 2017 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "src/objects/module.h"

 #include <unordered_map>
 #include <unordered_set>

 #include "src/api/api-inl.h"
 #include "src/ast/modules.h"
 #include "src/builtins/accessors.h"
 #include "src/heap/heap-inl.h"
 #include "src/objects/cell-inl.h"
 #include "src/objects/hash-table-inl.h"
 #include "src/objects/js-generator-inl.h"
 #include "src/objects/module-inl.h"
 #include "src/objects/objects-inl.h"
 #include "src/objects/synthetic-module-inl.h"
 #include "src/utils/ostreams.h"

 namespace v8 {
 namespace internal {

 namespace {
 #ifdef DEBUG
 void PrintModuleName(Module module, std::ostream& os) {
   if (module.IsSourceTextModule()) {
     SourceTextModule::cast(module).script().GetNameOrSourceURL().Print(os);
   } else {
     SyntheticModule::cast(module).name().Print(os);
   }
 #ifndef OBJECT_PRINT
   os << "\n";
 #endif  // OBJECT_PRINT
 }

 void PrintStatusTransition(Module module, Module::Status new_status) {
   if (!FLAG_trace_module_status) return;
   StdoutStream os;
   os << "Changing module status from " << module.status() << " to "
      << new_status << " for ";
   PrintModuleName(module, os);
 }

 void PrintStatusMessage(Module module, const char* message) {
   if (!FLAG_trace_module_status) return;
   StdoutStream os;
   os << "Instantiating module ";
   PrintModuleName(module, os);
 }
 #endif  // DEBUG

 void SetStatusInternal(Module module, Module::Status new_status) {
   DisallowHeapAllocation no_alloc;
 #ifdef DEBUG
   PrintStatusTransition(module, new_status);
 #endif  // DEBUG
   module.set_status(new_status);
 }

 }  // end namespace

 void Module::SetStatus(Status new_status) {
   DisallowHeapAllocation no_alloc;
   DCHECK_LE(status(), new_status);
   DCHECK_NE(new_status, Module::kErrored);
   SetStatusInternal(*this, new_status);
 }

 // static
 void Module::RecordErrorUsingPendingException(Isolate* isolate,
                                               Handle<Module> module) {
   Handle<Object> the_exception(isolate->pending_exception(), isolate);
   RecordError(isolate, module, the_exception);
 }

 // static
 void Module::RecordError(Isolate* isolate, Handle<Module> module,
                          Handle<Object> error) {
   DCHECK(module->exception().IsTheHole(isolate));
   DCHECK(!error->IsTheHole(isolate));
   if (module->IsSourceTextModule()) {
     Handle<SourceTextModule> self(SourceTextModule::cast(*module), isolate);
     self->set_code(self->info());
   }
   SetStatusInternal(*module, Module::kErrored);
   if (isolate->is_catchable_by_javascript(*error)) {
     module->set_exception(*error);
   } else {
     // v8::TryCatch uses `null` for termination exceptions.
     module->set_exception(*isolate->factory()->null_value());
   }
 }

 void Module::ResetGraph(Isolate* isolate, Handle<Module> module) {
   DCHECK_NE(module->status(), kEvaluating);
   if (module->status() != kPreInstantiating &&
       module->status() != kInstantiating) {
     return;
   }

   Handle<FixedArray> requested_modules =
       module->IsSourceTextModule()
           ? Handle<FixedArray>(
                 SourceTextModule::cast(*module).requested_modules(), isolate)
           : Handle<FixedArray>();
   Reset(isolate, module);

   if (!module->IsSourceTextModule()) {
     DCHECK(module->IsSyntheticModule());
     return;
   }
   for (int i = 0; i < requested_modules->length(); ++i) {
     Handle<Object> descendant(requested_modules->get(i), isolate);
     if (descendant->IsModule()) {
       ResetGraph(isolate, Handle<Module>::cast(descendant));
     } else {
       DCHECK(descendant->IsUndefined(isolate));
     }
   }
 }

 void Module::Reset(Isolate* isolate, Handle<Module> module) {
   DCHECK(module->status() == kPreInstantiating ||
          module->status() == kInstantiating);
   DCHECK(module->exception().IsTheHole(isolate));
   // The namespace object cannot exist, because it would have been created
   // by RunInitializationCode, which is called only after this module's SCC
   // succeeds instantiation.
   DCHECK(!module->module_namespace().IsJSModuleNamespace());
   const int export_count =
       module->IsSourceTextModule()
           ? SourceTextModule::cast(*module).regular_exports().length()
           : SyntheticModule::cast(*module).export_names().length();
   Handle<ObjectHashTable> exports = ObjectHashTable::New(isolate, export_count);

   if (module->IsSourceTextModule()) {
     SourceTextModule::Reset(isolate, Handle<SourceTextModule>::cast(module));
   }

   module->set_exports(*exports);
   SetStatusInternal(*module, kUninstantiated);
 }

 Object Module::GetException() {
   DisallowHeapAllocation no_gc;
   DCHECK_EQ(status(), Module::kErrored);
   DCHECK(!exception().IsTheHole());
   return exception();
 }

 MaybeHandle<Cell> Module::ResolveExport(Isolate* isolate, Handle<Module> module,
                                         Handle<String> module_specifier,
                                         Handle<String> export_name,
                                         MessageLocation loc, bool must_resolve,
                                         Module::ResolveSet* resolve_set) {
   DCHECK_GE(module->status(), kPreInstantiating);
   DCHECK_NE(module->status(), kEvaluating);

   if (module->IsSourceTextModule()) {
     return SourceTextModule::ResolveExport(
         isolate, Handle<SourceTextModule>::cast(module), module_specifier,
         export_name, loc, must_resolve, resolve_set);
   } else {
     return SyntheticModule::ResolveExport(
         isolate, Handle<SyntheticModule>::cast(module), module_specifier,
         export_name, loc, must_resolve);
   }
 }

 bool Module::Instantiate(Isolate* isolate, Handle<Module> module,
                          v8::Local<v8::Context> context,
                          v8::Module::ResolveCallback callback) {
 #ifdef DEBUG
   PrintStatusMessage(*module, "Instantiating module ");
 #endif  // DEBUG

   if (!PrepareInstantiate(isolate, module, context, callback)) {
     ResetGraph(isolate, module);
     DCHECK_EQ(module->status(), kUninstantiated);
     return false;
   }
   Zone zone(isolate->allocator(), ZONE_NAME);
   ZoneForwardList<Handle<SourceTextModule>> stack(&zone);
   unsigned dfs_index = 0;
   if (!FinishInstantiate(isolate, module, &stack, &dfs_index, &zone)) {
     ResetGraph(isolate, module);
     DCHECK_EQ(module->status(), kUninstantiated);
     return false;
   }
   DCHECK(module->status() == kInstantiated || module->status() == kEvaluated ||
          module->status() == kErrored);
   DCHECK(stack.empty());
   return true;
 }

 bool Module::PrepareInstantiate(Isolate* isolate, Handle<Module> module,
                                 v8::Local<v8::Context> context,
                                 v8::Module::ResolveCallback callback) {
   DCHECK_NE(module->status(), kEvaluating);
   DCHECK_NE(module->status(), kInstantiating);
   if (module->status() >= kPreInstantiating) return true;
   module->SetStatus(kPreInstantiating);
   STACK_CHECK(isolate, false);

   if (module->IsSourceTextModule()) {
     return SourceTextModule::PrepareInstantiate(
         isolate, Handle<SourceTextModule>::cast(module), context, callback);
   } else {
     return SyntheticModule::PrepareInstantiate(
         isolate, Handle<SyntheticModule>::cast(module), context, callback);
   }
 }

 bool Module::FinishInstantiate(Isolate* isolate, Handle<Module> module,
                                ZoneForwardList<Handle<SourceTextModule>>* stack,
                                unsigned* dfs_index, Zone* zone) {
   DCHECK_NE(module->status(), kEvaluating);
   if (module->status() >= kInstantiating) return true;
   DCHECK_EQ(module->status(), kPreInstantiating);
   STACK_CHECK(isolate, false);

   if (module->IsSourceTextModule()) {
     return SourceTextModule::FinishInstantiate(
         isolate, Handle<SourceTextModule>::cast(module), stack, dfs_index,
         zone);
   } else {
     return SyntheticModule::FinishInstantiate(
         isolate, Handle<SyntheticModule>::cast(module));
   }
 }

 MaybeHandle<Object> Module::Evaluate(Isolate* isolate, Handle<Module> module) {
 #ifdef DEBUG
   PrintStatusMessage(*module, "Evaluating module ");
 #endif  // DEBUG
   STACK_CHECK(isolate, MaybeHandle<Object>());
   if (FLAG_harmony_top_level_await && module->IsSourceTextModule()) {
     return SourceTextModule::EvaluateMaybeAsync(
         isolate, Handle<SourceTextModule>::cast(module));
   } else {
     return Module::InnerEvaluate(isolate, module);
   }
 }

 MaybeHandle<Object> Module::InnerEvaluate(Isolate* isolate,
                                           Handle<Module> module) {
   if (module->status() == kErrored) {
     isolate->Throw(module->GetException());
     return MaybeHandle<Object>();
   } else if (module->status() == kEvaluated) {
     return isolate->factory()->undefined_value();
   }

   // InnerEvaluate can be called both to evaluate top level modules without
   // the harmony_top_level_await flag and recursively to evaluate
   // SyntheticModules in the dependency graphs of SourceTextModules.
   //
   // However, SyntheticModules transition directly to 'Evaluated,' so we should
   // never see an 'Evaluating' module at this point.
   CHECK_EQ(module->status(), kInstantiated);

   if (module->IsSourceTextModule()) {
     return SourceTextModule::Evaluate(isolate,
                                       Handle<SourceTextModule>::cast(module));
   } else {
     return SyntheticModule::Evaluate(isolate,
                                      Handle<SyntheticModule>::cast(module));
   }
 }

 Handle<JSModuleNamespace> Module::GetModuleNamespace(Isolate* isolate,
                                                      Handle<Module> module) {
   Handle<HeapObject> object(module->module_namespace(), isolate);
   ReadOnlyRoots roots(isolate);
   if (!object->IsUndefined(roots)) {
     // Namespace object already exists.
     return Handle<JSModuleNamespace>::cast(object);
   }

   // Collect the export names.
   Zone zone(isolate->allocator(), ZONE_NAME);
   UnorderedModuleSet visited(&zone);

   if (module->IsSourceTextModule()) {
     SourceTextModule::FetchStarExports(
         isolate, Handle<SourceTextModule>::cast(module), &zone, &visited);
   }

   Handle<ObjectHashTable> exports(module->exports(), isolate);
   ZoneVector<Handle<String>> names(&zone);
   names.reserve(exports->NumberOfElements());
   for (InternalIndex i : exports->IterateEntries()) {
     Object key;
     if (!exports->ToKey(roots, i, &key)) continue;
     names.push_back(handle(String::cast(key), isolate));
   }
   DCHECK_EQ(static_cast<int>(names.size()), exports->NumberOfElements());

   // Sort them alphabetically.
   std::sort(names.begin(), names.end(),
             [&isolate](Handle<String> a, Handle<String> b) {
               return String::Compare(isolate, a, b) ==
                      ComparisonResult::kLessThan;
             });

   // Create the namespace object (initially empty).
   Handle<JSModuleNamespace> ns = isolate->factory()->NewJSModuleNamespace();
   ns->set_module(*module);
   module->set_module_namespace(*ns);

   // Create the properties in the namespace object. Transition the object
   // to dictionary mode so that property addition is faster.
   PropertyAttributes attr = DONT_DELETE;
   JSObject::NormalizeProperties(isolate, ns, CLEAR_INOBJECT_PROPERTIES,
                                 static_cast<int>(names.size()),
                                 "JSModuleNamespace");
   for (const auto& name : names) {
     JSObject::SetNormalizedProperty(
         ns, name, Accessors::MakeModuleNamespaceEntryInfo(isolate, name),
         PropertyDetails(kAccessor, attr, PropertyCellType::kMutable));
   }
   JSObject::PreventExtensions(ns, kThrowOnError).ToChecked();

   // Optimize the namespace object as a prototype, for two reasons:
   // - The object's map is guaranteed not to be shared. ICs rely on this.
   // - We can store a pointer from the map back to the namespace object.
   //   Turbofan can use this for inlining the access.
   JSObject::OptimizeAsPrototype(ns);

   Handle<PrototypeInfo> proto_info =
       Map::GetOrCreatePrototypeInfo(Handle<JSObject>::cast(ns), isolate);
   proto_info->set_module_namespace(*ns);
   return ns;
 }

 MaybeHandle<Object> JSModuleNamespace::GetExport(Isolate* isolate,
                                                  Handle<String> name) {
   Handle<Object> object(module().exports().Lookup(name), isolate);
   if (object->IsTheHole(isolate)) {
     return isolate->factory()->undefined_value();
   }

   Handle<Object> value(Cell::cast(*object).value(), isolate);
   if (value->IsTheHole(isolate)) {
     THROW_NEW_ERROR(
         isolate, NewReferenceError(MessageTemplate::kNotDefined, name), Object);
   }

   return value;
 }

 Maybe<PropertyAttributes> JSModuleNamespace::GetPropertyAttributes(
     LookupIterator* it) {
   Handle<JSModuleNamespace> object = it->GetHolder<JSModuleNamespace>();
   Handle<String> name = Handle<String>::cast(it->GetName());
   DCHECK_EQ(it->state(), LookupIterator::ACCESSOR);

   Isolate* isolate = it->isolate();

   Handle<Object> lookup(object->module().exports().Lookup(name), isolate);
   if (lookup->IsTheHole(isolate)) return Just(ABSENT);

   Handle<Object> value(Handle<Cell>::cast(lookup)->value(), isolate);
   if (value->IsTheHole(isolate)) {
     isolate->Throw(*isolate->factory()->NewReferenceError(
         MessageTemplate::kNotDefined, name));
     return Nothing<PropertyAttributes>();
   }

   return Just(it->property_attributes());
 }

 bool Module::IsGraphAsync(Isolate* isolate) const {
   DisallowGarbageCollection no_gc;

   // Only SourceTextModules may be async.
   if (!IsSourceTextModule()) return false;
   SourceTextModule root = SourceTextModule::cast(*this);

   Zone zone(isolate->allocator(), ZONE_NAME);
   const size_t bucket_count = 2;
   ZoneUnorderedSet<Module, Module::Hash> visited(&zone, bucket_count);
   ZoneVector<SourceTextModule> worklist(&zone);
   visited.insert(root);
   worklist.push_back(root);

   do {
     SourceTextModule current = worklist.back();
     worklist.pop_back();
     DCHECK_GE(current.status(), kInstantiated);

     if (current.async()) return true;
     FixedArray requested_modules = current.requested_modules();
     for (int i = 0, length = requested_modules.length(); i < length; ++i) {
       Module descendant = Module::cast(requested_modules.get(i));
       if (descendant.IsSourceTextModule()) {
         const bool cycle = !visited.insert(descendant).second;
         if (!cycle) worklist.push_back(SourceTextModule::cast(descendant));
       }
     }
   } while (!worklist.empty());

   return false;
 }

 }  // namespace internal
 }  // namespace v8
	// Copyright 2017 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "src/objects/module.h"

	#include <unordered_map>
	#include <unordered_set>

	#include "src/api/api-inl.h"
	#include "src/ast/modules.h"
	#include "src/builtins/accessors.h"
	#include "src/heap/heap-inl.h"
	#include "src/objects/cell-inl.h"
	#include "src/objects/hash-table-inl.h"
	#include "src/objects/js-generator-inl.h"
	#include "src/objects/module-inl.h"
	#include "src/objects/objects-inl.h"
	#include "src/objects/synthetic-module-inl.h"
	#include "src/utils/ostreams.h"

	namespace v8 {
	namespace internal {

	namespace {
	#ifdef DEBUG
	void PrintModuleName(Module module, std::ostream& os) {
	if (module.IsSourceTextModule()) {
	SourceTextModule::cast(module).script().GetNameOrSourceURL().Print(os);
	} else {
	SyntheticModule::cast(module).name().Print(os);
	}
	#ifndef OBJECT_PRINT
	os << "\n";
	#endif // OBJECT_PRINT
	}

	void PrintStatusTransition(Module module, Module::Status new_status) {
	if (!FLAG_trace_module_status) return;
	StdoutStream os;
	os << "Changing module status from " << module.status() << " to "
	<< new_status << " for ";
	PrintModuleName(module, os);
	}

	void PrintStatusMessage(Module module, const char* message) {
	if (!FLAG_trace_module_status) return;
	StdoutStream os;
	os << "Instantiating module ";
	PrintModuleName(module, os);
	}
	#endif // DEBUG

	void SetStatusInternal(Module module, Module::Status new_status) {
	DisallowHeapAllocation no_alloc;
	#ifdef DEBUG
	PrintStatusTransition(module, new_status);
	#endif // DEBUG
	module.set_status(new_status);
	}

	} // end namespace

	void Module::SetStatus(Status new_status) {
	DisallowHeapAllocation no_alloc;
	DCHECK_LE(status(), new_status);
	DCHECK_NE(new_status, Module::kErrored);
	SetStatusInternal(*this, new_status);
	}

	// static
	void Module::RecordErrorUsingPendingException(Isolate* isolate,
	Handle<Module> module) {
	Handle<Object> the_exception(isolate->pending_exception(), isolate);
	RecordError(isolate, module, the_exception);
	}

	// static
	void Module::RecordError(Isolate* isolate, Handle<Module> module,
	Handle<Object> error) {
	DCHECK(module->exception().IsTheHole(isolate));
	DCHECK(!error->IsTheHole(isolate));
	if (module->IsSourceTextModule()) {
	Handle<SourceTextModule> self(SourceTextModule::cast(*module), isolate);
	self->set_code(self->info());
	}
	SetStatusInternal(*module, Module::kErrored);
	if (isolate->is_catchable_by_javascript(*error)) {
	module->set_exception(*error);
	} else {
	// v8::TryCatch uses `null` for termination exceptions.
	module->set_exception(*isolate->factory()->null_value());
	}
	}

	void Module::ResetGraph(Isolate* isolate, Handle<Module> module) {
	DCHECK_NE(module->status(), kEvaluating);
	if (module->status() != kPreInstantiating &&
	module->status() != kInstantiating) {
	return;
	}

	Handle<FixedArray> requested_modules =
	module->IsSourceTextModule()
	? Handle<FixedArray>(
	SourceTextModule::cast(*module).requested_modules(), isolate)
	: Handle<FixedArray>();
	Reset(isolate, module);

	if (!module->IsSourceTextModule()) {
	DCHECK(module->IsSyntheticModule());
	return;
	}
	for (int i = 0; i < requested_modules->length(); ++i) {
	Handle<Object> descendant(requested_modules->get(i), isolate);
	if (descendant->IsModule()) {
	ResetGraph(isolate, Handle<Module>::cast(descendant));
	} else {
	DCHECK(descendant->IsUndefined(isolate));
	}
	}
	}

	void Module::Reset(Isolate* isolate, Handle<Module> module) {
	DCHECK(module->status() == kPreInstantiating \|\|
	module->status() == kInstantiating);
	DCHECK(module->exception().IsTheHole(isolate));
	// The namespace object cannot exist, because it would have been created
	// by RunInitializationCode, which is called only after this module's SCC
	// succeeds instantiation.
	DCHECK(!module->module_namespace().IsJSModuleNamespace());
	const int export_count =
	module->IsSourceTextModule()
	? SourceTextModule::cast(*module).regular_exports().length()
	: SyntheticModule::cast(*module).export_names().length();
	Handle<ObjectHashTable> exports = ObjectHashTable::New(isolate, export_count);

	if (module->IsSourceTextModule()) {
	SourceTextModule::Reset(isolate, Handle<SourceTextModule>::cast(module));
	}

	module->set_exports(*exports);
	SetStatusInternal(*module, kUninstantiated);
	}

	Object Module::GetException() {
	DisallowHeapAllocation no_gc;
	DCHECK_EQ(status(), Module::kErrored);
	DCHECK(!exception().IsTheHole());
	return exception();
	}

	MaybeHandle<Cell> Module::ResolveExport(Isolate* isolate, Handle<Module> module,
	Handle<String> module_specifier,
	Handle<String> export_name,
	MessageLocation loc, bool must_resolve,
	Module::ResolveSet* resolve_set) {
	DCHECK_GE(module->status(), kPreInstantiating);
	DCHECK_NE(module->status(), kEvaluating);

	if (module->IsSourceTextModule()) {
	return SourceTextModule::ResolveExport(
	isolate, Handle<SourceTextModule>::cast(module), module_specifier,
	export_name, loc, must_resolve, resolve_set);
	} else {
	return SyntheticModule::ResolveExport(
	isolate, Handle<SyntheticModule>::cast(module), module_specifier,
	export_name, loc, must_resolve);
	}
	}

	bool Module::Instantiate(Isolate* isolate, Handle<Module> module,
	v8::Local<v8::Context> context,
	v8::Module::ResolveCallback callback) {
	#ifdef DEBUG
	PrintStatusMessage(*module, "Instantiating module ");
	#endif // DEBUG

	if (!PrepareInstantiate(isolate, module, context, callback)) {
	ResetGraph(isolate, module);
	DCHECK_EQ(module->status(), kUninstantiated);
	return false;
	}
	Zone zone(isolate->allocator(), ZONE_NAME);
	ZoneForwardList<Handle<SourceTextModule>> stack(&zone);
	unsigned dfs_index = 0;
	if (!FinishInstantiate(isolate, module, &stack, &dfs_index, &zone)) {
	ResetGraph(isolate, module);
	DCHECK_EQ(module->status(), kUninstantiated);
	return false;
	}
	DCHECK(module->status() == kInstantiated \|\| module->status() == kEvaluated \|\|
	module->status() == kErrored);
	DCHECK(stack.empty());
	return true;
	}

	bool Module::PrepareInstantiate(Isolate* isolate, Handle<Module> module,
	v8::Local<v8::Context> context,
	v8::Module::ResolveCallback callback) {
	DCHECK_NE(module->status(), kEvaluating);
	DCHECK_NE(module->status(), kInstantiating);
	if (module->status() >= kPreInstantiating) return true;
	module->SetStatus(kPreInstantiating);
	STACK_CHECK(isolate, false);

	if (module->IsSourceTextModule()) {
	return SourceTextModule::PrepareInstantiate(
	isolate, Handle<SourceTextModule>::cast(module), context, callback);
	} else {
	return SyntheticModule::PrepareInstantiate(
	isolate, Handle<SyntheticModule>::cast(module), context, callback);
	}
	}

	bool Module::FinishInstantiate(Isolate* isolate, Handle<Module> module,
	ZoneForwardList<Handle<SourceTextModule>>* stack,
	unsigned* dfs_index, Zone* zone) {
	DCHECK_NE(module->status(), kEvaluating);
	if (module->status() >= kInstantiating) return true;
	DCHECK_EQ(module->status(), kPreInstantiating);
	STACK_CHECK(isolate, false);

	if (module->IsSourceTextModule()) {
	return SourceTextModule::FinishInstantiate(
	isolate, Handle<SourceTextModule>::cast(module), stack, dfs_index,
	zone);
	} else {
	return SyntheticModule::FinishInstantiate(
	isolate, Handle<SyntheticModule>::cast(module));
	}
	}

	MaybeHandle<Object> Module::Evaluate(Isolate* isolate, Handle<Module> module) {
	#ifdef DEBUG
	PrintStatusMessage(*module, "Evaluating module ");
	#endif // DEBUG
	STACK_CHECK(isolate, MaybeHandle<Object>());
	if (FLAG_harmony_top_level_await && module->IsSourceTextModule()) {
	return SourceTextModule::EvaluateMaybeAsync(
	isolate, Handle<SourceTextModule>::cast(module));
	} else {
	return Module::InnerEvaluate(isolate, module);
	}
	}

	MaybeHandle<Object> Module::InnerEvaluate(Isolate* isolate,
	Handle<Module> module) {
	if (module->status() == kErrored) {
	isolate->Throw(module->GetException());
	return MaybeHandle<Object>();
	} else if (module->status() == kEvaluated) {
	return isolate->factory()->undefined_value();
	}

	// InnerEvaluate can be called both to evaluate top level modules without
	// the harmony_top_level_await flag and recursively to evaluate
	// SyntheticModules in the dependency graphs of SourceTextModules.
	//
	// However, SyntheticModules transition directly to 'Evaluated,' so we should
	// never see an 'Evaluating' module at this point.
	CHECK_EQ(module->status(), kInstantiated);

	if (module->IsSourceTextModule()) {
	return SourceTextModule::Evaluate(isolate,
	Handle<SourceTextModule>::cast(module));
	} else {
	return SyntheticModule::Evaluate(isolate,
	Handle<SyntheticModule>::cast(module));
	}
	}

	Handle<JSModuleNamespace> Module::GetModuleNamespace(Isolate* isolate,
	Handle<Module> module) {
	Handle<HeapObject> object(module->module_namespace(), isolate);
	ReadOnlyRoots roots(isolate);
	if (!object->IsUndefined(roots)) {
	// Namespace object already exists.
	return Handle<JSModuleNamespace>::cast(object);
	}

	// Collect the export names.
	Zone zone(isolate->allocator(), ZONE_NAME);
	UnorderedModuleSet visited(&zone);

	if (module->IsSourceTextModule()) {
	SourceTextModule::FetchStarExports(
	isolate, Handle<SourceTextModule>::cast(module), &zone, &visited);
	}

	Handle<ObjectHashTable> exports(module->exports(), isolate);
	ZoneVector<Handle<String>> names(&zone);
	names.reserve(exports->NumberOfElements());
	for (InternalIndex i : exports->IterateEntries()) {
	Object key;
	if (!exports->ToKey(roots, i, &key)) continue;
	names.push_back(handle(String::cast(key), isolate));
	}
	DCHECK_EQ(static_cast<int>(names.size()), exports->NumberOfElements());

	// Sort them alphabetically.
	std::sort(names.begin(), names.end(),
	[&isolate](Handle<String> a, Handle<String> b) {
	return String::Compare(isolate, a, b) ==
	ComparisonResult::kLessThan;
	});

	// Create the namespace object (initially empty).
	Handle<JSModuleNamespace> ns = isolate->factory()->NewJSModuleNamespace();
	ns->set_module(*module);
	module->set_module_namespace(*ns);

	// Create the properties in the namespace object. Transition the object
	// to dictionary mode so that property addition is faster.
	PropertyAttributes attr = DONT_DELETE;
	JSObject::NormalizeProperties(isolate, ns, CLEAR_INOBJECT_PROPERTIES,
	static_cast<int>(names.size()),
	"JSModuleNamespace");
	for (const auto& name : names) {
	JSObject::SetNormalizedProperty(
	ns, name, Accessors::MakeModuleNamespaceEntryInfo(isolate, name),
	PropertyDetails(kAccessor, attr, PropertyCellType::kMutable));
	}
	JSObject::PreventExtensions(ns, kThrowOnError).ToChecked();

	// Optimize the namespace object as a prototype, for two reasons:
	// - The object's map is guaranteed not to be shared. ICs rely on this.
	// - We can store a pointer from the map back to the namespace object.
	// Turbofan can use this for inlining the access.
	JSObject::OptimizeAsPrototype(ns);

	Handle<PrototypeInfo> proto_info =
	Map::GetOrCreatePrototypeInfo(Handle<JSObject>::cast(ns), isolate);
	proto_info->set_module_namespace(*ns);
	return ns;
	}

	MaybeHandle<Object> JSModuleNamespace::GetExport(Isolate* isolate,
	Handle<String> name) {
	Handle<Object> object(module().exports().Lookup(name), isolate);
	if (object->IsTheHole(isolate)) {
	return isolate->factory()->undefined_value();
	}

	Handle<Object> value(Cell::cast(*object).value(), isolate);
	if (value->IsTheHole(isolate)) {
	THROW_NEW_ERROR(
	isolate, NewReferenceError(MessageTemplate::kNotDefined, name), Object);
	}

	return value;
	}

	Maybe<PropertyAttributes> JSModuleNamespace::GetPropertyAttributes(
	LookupIterator* it) {
	Handle<JSModuleNamespace> object = it->GetHolder<JSModuleNamespace>();
	Handle<String> name = Handle<String>::cast(it->GetName());
	DCHECK_EQ(it->state(), LookupIterator::ACCESSOR);

	Isolate* isolate = it->isolate();

	Handle<Object> lookup(object->module().exports().Lookup(name), isolate);
	if (lookup->IsTheHole(isolate)) return Just(ABSENT);

	Handle<Object> value(Handle<Cell>::cast(lookup)->value(), isolate);
	if (value->IsTheHole(isolate)) {
	isolate->Throw(*isolate->factory()->NewReferenceError(
	MessageTemplate::kNotDefined, name));
	return Nothing<PropertyAttributes>();
	}

	return Just(it->property_attributes());
	}

	bool Module::IsGraphAsync(Isolate* isolate) const {
	DisallowGarbageCollection no_gc;

	// Only SourceTextModules may be async.
	if (!IsSourceTextModule()) return false;
	SourceTextModule root = SourceTextModule::cast(*this);

	Zone zone(isolate->allocator(), ZONE_NAME);
	const size_t bucket_count = 2;
	ZoneUnorderedSet<Module, Module::Hash> visited(&zone, bucket_count);
	ZoneVector<SourceTextModule> worklist(&zone);
	visited.insert(root);
	worklist.push_back(root);

	do {
	SourceTextModule current = worklist.back();
	worklist.pop_back();
	DCHECK_GE(current.status(), kInstantiated);

	if (current.async()) return true;
	FixedArray requested_modules = current.requested_modules();
	for (int i = 0, length = requested_modules.length(); i < length; ++i) {
	Module descendant = Module::cast(requested_modules.get(i));
	if (descendant.IsSourceTextModule()) {
	const bool cycle = !visited.insert(descendant).second;
	if (!cycle) worklist.push_back(SourceTextModule::cast(descendant));
	}
	}
	} while (!worklist.empty());

	return false;
	}

	} // namespace internal
	} // namespace v8