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cobalt / cobalt / 50d4ee4d2d42567d196777b2b6c88fcb51217f8b / . / src / v8 / src / objects / module.cc
blob: b9d7697fb588a7e81dfe4163bd7c581a399bf9b7 [file] [log] [blame]
// 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 <unordered_map>
#include <unordered_set>
#include "src/objects/module.h"
#include "src/accessors.h"
#include "src/api.h"
#include "src/ast/modules.h"
#include "src/objects-inl.h"
namespace v8 {
namespace internal {
namespace {
struct ModuleHandleHash {
V8_INLINE size_t operator()(Handle<Module> module) const {
return module->hash();
}
};
struct ModuleHandleEqual {
V8_INLINE bool operator()(Handle<Module> lhs, Handle<Module> rhs) const {
return *lhs == *rhs;
}
};
struct StringHandleHash {
V8_INLINE size_t operator()(Handle<String> string) const {
return string->Hash();
}
};
struct StringHandleEqual {
V8_INLINE bool operator()(Handle<String> lhs, Handle<String> rhs) const {
return lhs->Equals(*rhs);
}
};
class UnorderedStringSet
: public std::unordered_set<Handle<String>, StringHandleHash,
StringHandleEqual,
ZoneAllocator<Handle<String>>> {
public:
explicit UnorderedStringSet(Zone* zone)
: std::unordered_set<Handle<String>, StringHandleHash, StringHandleEqual,
ZoneAllocator<Handle<String>>>(
2 /* bucket count */, StringHandleHash(), StringHandleEqual(),
ZoneAllocator<Handle<String>>(zone)) {}
};
class UnorderedModuleSet
: public std::unordered_set<Handle<Module>, ModuleHandleHash,
ModuleHandleEqual,
ZoneAllocator<Handle<Module>>> {
public:
explicit UnorderedModuleSet(Zone* zone)
: std::unordered_set<Handle<Module>, ModuleHandleHash, ModuleHandleEqual,
ZoneAllocator<Handle<Module>>>(
2 /* bucket count */, ModuleHandleHash(), ModuleHandleEqual(),
ZoneAllocator<Handle<Module>>(zone)) {}
};
class UnorderedStringMap
: public std::unordered_map<
Handle<String>, Handle<Object>, StringHandleHash, StringHandleEqual,
ZoneAllocator<std::pair<const Handle<String>, Handle<Object>>>> {
public:
explicit UnorderedStringMap(Zone* zone)
: std::unordered_map<
Handle<String>, Handle<Object>, StringHandleHash, StringHandleEqual,
ZoneAllocator<std::pair<const Handle<String>, Handle<Object>>>>(
2 /* bucket count */, StringHandleHash(), StringHandleEqual(),
ZoneAllocator<std::pair<const Handle<String>, Handle<Object>>>(
zone)) {}
};
} // anonymous namespace
class Module::ResolveSet
: public std::unordered_map<
Handle<Module>, UnorderedStringSet*, ModuleHandleHash,
ModuleHandleEqual,
ZoneAllocator<std::pair<const Handle<Module>, UnorderedStringSet*>>> {
public:
explicit ResolveSet(Zone* zone)
: std::unordered_map<Handle<Module>, UnorderedStringSet*,
ModuleHandleHash, ModuleHandleEqual,
ZoneAllocator<std::pair<const Handle<Module>,
UnorderedStringSet*>>>(
2 /* bucket count */, ModuleHandleHash(), ModuleHandleEqual(),
ZoneAllocator<std::pair<const Handle<Module>, UnorderedStringSet*>>(
zone)),
zone_(zone) {}
Zone* zone() const { return zone_; }
private:
Zone* zone_;
};
namespace {
int ExportIndex(int cell_index) {
DCHECK_EQ(ModuleDescriptor::GetCellIndexKind(cell_index),
ModuleDescriptor::kExport);
return cell_index - 1;
}
int ImportIndex(int cell_index) {
DCHECK_EQ(ModuleDescriptor::GetCellIndexKind(cell_index),
ModuleDescriptor::kImport);
return -cell_index - 1;
}
} // anonymous namespace
void Module::CreateIndirectExport(Handle<Module> module, Handle<String> name,
Handle<ModuleInfoEntry> entry) {
Isolate* isolate = module->GetIsolate();
Handle<ObjectHashTable> exports(module->exports(), isolate);
DCHECK(exports->Lookup(name)->IsTheHole(isolate));
exports = ObjectHashTable::Put(exports, name, entry);
module->set_exports(*exports);
}
void Module::CreateExport(Handle<Module> module, int cell_index,
Handle<FixedArray> names) {
DCHECK_LT(0, names->length());
Isolate* isolate = module->GetIsolate();
Handle<Cell> cell =
isolate->factory()->NewCell(isolate->factory()->undefined_value());
module->regular_exports()->set(ExportIndex(cell_index), *cell);
Handle<ObjectHashTable> exports(module->exports(), isolate);
for (int i = 0, n = names->length(); i < n; ++i) {
Handle<String> name(String::cast(names->get(i)), isolate);
DCHECK(exports->Lookup(name)->IsTheHole(isolate));
exports = ObjectHashTable::Put(exports, name, cell);
}
module->set_exports(*exports);
}
Cell* Module::GetCell(int cell_index) {
DisallowHeapAllocation no_gc;
Object* cell;
switch (ModuleDescriptor::GetCellIndexKind(cell_index)) {
case ModuleDescriptor::kImport:
cell = regular_imports()->get(ImportIndex(cell_index));
break;
case ModuleDescriptor::kExport:
cell = regular_exports()->get(ExportIndex(cell_index));
break;
case ModuleDescriptor::kInvalid:
UNREACHABLE();
break;
}
return Cell::cast(cell);
}
Handle<Object> Module::LoadVariable(Handle<Module> module, int cell_index) {
Isolate* isolate = module->GetIsolate();
return handle(module->GetCell(cell_index)->value(), isolate);
}
void Module::StoreVariable(Handle<Module> module, int cell_index,
Handle<Object> value) {
DCHECK_EQ(ModuleDescriptor::GetCellIndexKind(cell_index),
ModuleDescriptor::kExport);
module->GetCell(cell_index)->set_value(*value);
}
#ifdef DEBUG
void Module::PrintStatusTransition(Status new_status) {
if (FLAG_trace_module_status) {
OFStream os(stdout);
os << "Changing module status from " << status() << " to " << new_status
<< " for ";
script()->GetNameOrSourceURL()->Print(os);
#ifndef OBJECT_PRINT
os << "\n";
#endif // OBJECT_PRINT
}
}
#endif // DEBUG
void Module::SetStatus(Status new_status) {
DisallowHeapAllocation no_alloc;
DCHECK_LE(status(), new_status);
DCHECK_NE(new_status, Module::kErrored);
#ifdef DEBUG
PrintStatusTransition(new_status);
#endif // DEBUG
set_status(new_status);
}
void Module::ResetGraph(Handle<Module> module) {
DCHECK_NE(module->status(), kInstantiating);
DCHECK_NE(module->status(), kEvaluating);
if (module->status() != kPreInstantiating) return;
Isolate* isolate = module->GetIsolate();
Handle<FixedArray> requested_modules(module->requested_modules(), isolate);
Reset(module);
for (int i = 0; i < requested_modules->length(); ++i) {
Handle<Object> descendant(requested_modules->get(i), isolate);
if (descendant->IsModule()) {
ResetGraph(Handle<Module>::cast(descendant));
} else {
DCHECK(descendant->IsUndefined(isolate));
}
}
}
void Module::Reset(Handle<Module> module) {
Isolate* isolate = module->GetIsolate();
Factory* factory = isolate->factory();
DCHECK(module->status() == kPreInstantiating ||
module->status() == kInstantiating);
DCHECK(module->exception()->IsTheHole(isolate));
DCHECK(module->import_meta()->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());
Handle<ObjectHashTable> exports =
ObjectHashTable::New(isolate, module->info()->RegularExportCount());
Handle<FixedArray> regular_exports =
factory->NewFixedArray(module->regular_exports()->length());
Handle<FixedArray> regular_imports =
factory->NewFixedArray(module->regular_imports()->length());
Handle<FixedArray> requested_modules =
factory->NewFixedArray(module->requested_modules()->length());
if (module->status() == kInstantiating) {
module->set_code(JSFunction::cast(module->code())->shared());
}
#ifdef DEBUG
module->PrintStatusTransition(kUninstantiated);
#endif // DEBUG
module->set_status(kUninstantiated);
module->set_exports(*exports);
module->set_regular_exports(*regular_exports);
module->set_regular_imports(*regular_imports);
module->set_requested_modules(*requested_modules);
module->set_dfs_index(-1);
module->set_dfs_ancestor_index(-1);
}
void Module::RecordError() {
DisallowHeapAllocation no_alloc;
Isolate* isolate = GetIsolate();
DCHECK(exception()->IsTheHole(isolate));
Object* the_exception = isolate->pending_exception();
DCHECK(!the_exception->IsTheHole(isolate));
set_code(info());
#ifdef DEBUG
PrintStatusTransition(Module::kErrored);
#endif // DEBUG
set_status(Module::kErrored);
set_exception(the_exception);
}
Object* Module::GetException() {
DisallowHeapAllocation no_alloc;
DCHECK_EQ(status(), Module::kErrored);
DCHECK(!exception()->IsTheHole(GetIsolate()));
return exception();
}
MaybeHandle<Cell> Module::ResolveImport(Handle<Module> module,
Handle<String> name, int module_request,
MessageLocation loc, bool must_resolve,
Module::ResolveSet* resolve_set) {
Isolate* isolate = module->GetIsolate();
Handle<Module> requested_module(
Module::cast(module->requested_modules()->get(module_request)), isolate);
Handle<String> specifier(
String::cast(module->info()->module_requests()->get(module_request)),
isolate);
MaybeHandle<Cell> result = Module::ResolveExport(
requested_module, specifier, name, loc, must_resolve, resolve_set);
DCHECK_IMPLIES(isolate->has_pending_exception(), result.is_null());
return result;
}
MaybeHandle<Cell> Module::ResolveExport(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);
Isolate* isolate = module->GetIsolate();
Handle<Object> object(module->exports()->Lookup(export_name), isolate);
if (object->IsCell()) {
// Already resolved (e.g. because it's a local export).
return Handle<Cell>::cast(object);
}
// Check for cycle before recursing.
{
// Attempt insertion with a null string set.
auto result = resolve_set->insert({module, nullptr});
UnorderedStringSet*& name_set = result.first->second;
if (result.second) {
// |module| wasn't in the map previously, so allocate a new name set.
Zone* zone = resolve_set->zone();
name_set =
new (zone->New(sizeof(UnorderedStringSet))) UnorderedStringSet(zone);
} else if (name_set->count(export_name)) {
// Cycle detected.
if (must_resolve) {
return isolate->Throw<Cell>(
isolate->factory()->NewSyntaxError(
MessageTemplate::kCyclicModuleDependency, export_name,
module_specifier),
&loc);
}
return MaybeHandle<Cell>();
}
name_set->insert(export_name);
}
if (object->IsModuleInfoEntry()) {
// Not yet resolved indirect export.
Handle<ModuleInfoEntry> entry = Handle<ModuleInfoEntry>::cast(object);
Handle<String> import_name(String::cast(entry->import_name()), isolate);
Handle<Script> script(module->script(), isolate);
MessageLocation new_loc(script, entry->beg_pos(), entry->end_pos());
Handle<Cell> cell;
if (!ResolveImport(module, import_name, entry->module_request(), new_loc,
true, resolve_set)
.ToHandle(&cell)) {
DCHECK(isolate->has_pending_exception());
return MaybeHandle<Cell>();
}
// The export table may have changed but the entry in question should be
// unchanged.
Handle<ObjectHashTable> exports(module->exports(), isolate);
DCHECK(exports->Lookup(export_name)->IsModuleInfoEntry());
exports = ObjectHashTable::Put(exports, export_name, cell);
module->set_exports(*exports);
return cell;
}
DCHECK(object->IsTheHole(isolate));
return Module::ResolveExportUsingStarExports(
module, module_specifier, export_name, loc, must_resolve, resolve_set);
}
MaybeHandle<Cell> Module::ResolveExportUsingStarExports(
Handle<Module> module, Handle<String> module_specifier,
Handle<String> export_name, MessageLocation loc, bool must_resolve,
Module::ResolveSet* resolve_set) {
Isolate* isolate = module->GetIsolate();
if (!export_name->Equals(isolate->heap()->default_string())) {
// Go through all star exports looking for the given name. If multiple star
// exports provide the name, make sure they all map it to the same cell.
Handle<Cell> unique_cell;
Handle<FixedArray> special_exports(module->info()->special_exports(),
isolate);
for (int i = 0, n = special_exports->length(); i < n; ++i) {
i::Handle<i::ModuleInfoEntry> entry(
i::ModuleInfoEntry::cast(special_exports->get(i)), isolate);
if (!entry->export_name()->IsUndefined(isolate)) {
continue; // Indirect export.
}
Handle<Script> script(module->script(), isolate);
MessageLocation new_loc(script, entry->beg_pos(), entry->end_pos());
Handle<Cell> cell;
if (ResolveImport(module, export_name, entry->module_request(), new_loc,
false, resolve_set)
.ToHandle(&cell)) {
if (unique_cell.is_null()) unique_cell = cell;
if (*unique_cell != *cell) {
return isolate->Throw<Cell>(isolate->factory()->NewSyntaxError(
MessageTemplate::kAmbiguousExport,
module_specifier, export_name),
&loc);
}
} else if (isolate->has_pending_exception()) {
return MaybeHandle<Cell>();
}
}
if (!unique_cell.is_null()) {
// Found a unique star export for this name.
Handle<ObjectHashTable> exports(module->exports(), isolate);
DCHECK(exports->Lookup(export_name)->IsTheHole(isolate));
exports = ObjectHashTable::Put(exports, export_name, unique_cell);
module->set_exports(*exports);
return unique_cell;
}
}
// Unresolvable.
if (must_resolve) {
return isolate->Throw<Cell>(
isolate->factory()->NewSyntaxError(MessageTemplate::kUnresolvableExport,
module_specifier, export_name),
&loc);
}
return MaybeHandle<Cell>();
}
bool Module::Instantiate(Handle<Module> module, v8::Local<v8::Context> context,
v8::Module::ResolveCallback callback) {
#ifdef DEBUG
if (FLAG_trace_module_status) {
OFStream os(stdout);
os << "Instantiating module ";
module->script()->GetNameOrSourceURL()->Print(os);
#ifndef OBJECT_PRINT
os << "\n";
#endif // OBJECT_PRINT
}
#endif // DEBUG
if (!PrepareInstantiate(module, context, callback)) {
ResetGraph(module);
return false;
}
Isolate* isolate = module->GetIsolate();
Zone zone(isolate->allocator(), ZONE_NAME);
ZoneForwardList<Handle<Module>> stack(&zone);
unsigned dfs_index = 0;
if (!FinishInstantiate(module, &stack, &dfs_index, &zone)) {
for (auto& descendant : stack) {
Reset(descendant);
}
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(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);
// Obtain requested modules.
Isolate* isolate = module->GetIsolate();
Handle<ModuleInfo> module_info(module->info(), isolate);
Handle<FixedArray> module_requests(module_info->module_requests(), isolate);
Handle<FixedArray> requested_modules(module->requested_modules(), isolate);
for (int i = 0, length = module_requests->length(); i < length; ++i) {
Handle<String> specifier(String::cast(module_requests->get(i)), isolate);
v8::Local<v8::Module> api_requested_module;
if (!callback(context, v8::Utils::ToLocal(specifier),
v8::Utils::ToLocal(module))
.ToLocal(&api_requested_module)) {
isolate->PromoteScheduledException();
return false;
}
Handle<Module> requested_module = Utils::OpenHandle(*api_requested_module);
requested_modules->set(i, *requested_module);
}
// Recurse.
for (int i = 0, length = requested_modules->length(); i < length; ++i) {
Handle<Module> requested_module(Module::cast(requested_modules->get(i)),
isolate);
if (!PrepareInstantiate(requested_module, context, callback)) {
return false;
}
}
// Set up local exports.
// TODO(neis): Create regular_exports array here instead of in factory method?
for (int i = 0, n = module_info->RegularExportCount(); i < n; ++i) {
int cell_index = module_info->RegularExportCellIndex(i);
Handle<FixedArray> export_names(module_info->RegularExportExportNames(i),
isolate);
CreateExport(module, cell_index, export_names);
}
// Partially set up indirect exports.
// For each indirect export, we create the appropriate slot in the export
// table and store its ModuleInfoEntry there. When we later find the correct
// Cell in the module that actually provides the value, we replace the
// ModuleInfoEntry by that Cell (see ResolveExport).
Handle<FixedArray> special_exports(module_info->special_exports(), isolate);
for (int i = 0, n = special_exports->length(); i < n; ++i) {
Handle<ModuleInfoEntry> entry(
ModuleInfoEntry::cast(special_exports->get(i)), isolate);
Handle<Object> export_name(entry->export_name(), isolate);
if (export_name->IsUndefined(isolate)) continue; // Star export.
CreateIndirectExport(module, Handle<String>::cast(export_name), entry);
}
DCHECK_EQ(module->status(), kPreInstantiating);
return true;
}
void Module::RunInitializationCode(Handle<Module> module) {
DCHECK_EQ(module->status(), kInstantiating);
Isolate* isolate = module->GetIsolate();
Handle<JSFunction> function(JSFunction::cast(module->code()), isolate);
DCHECK_EQ(MODULE_SCOPE, function->shared()->scope_info()->scope_type());
Handle<Object> receiver = isolate->factory()->undefined_value();
Handle<Object> argv[] = {module};
Handle<Object> generator =
Execution::Call(isolate, function, receiver, arraysize(argv), argv)
.ToHandleChecked();
DCHECK_EQ(*function, Handle<JSGeneratorObject>::cast(generator)->function());
module->set_code(*generator);
}
void Module::MaybeTransitionComponent(Handle<Module> module,
ZoneForwardList<Handle<Module>>* stack,
Status new_status) {
DCHECK(new_status == kInstantiated || new_status == kEvaluated);
SLOW_DCHECK(
// {module} is on the {stack}.
std::count_if(stack->begin(), stack->end(),
[&](Handle<Module> m) { return *m == *module; }) == 1);
DCHECK_LE(module->dfs_ancestor_index(), module->dfs_index());
if (module->dfs_ancestor_index() == module->dfs_index()) {
// This is the root of its strongly connected component.
Handle<Module> ancestor;
do {
ancestor = stack->front();
stack->pop_front();
DCHECK_EQ(ancestor->status(),
new_status == kInstantiated ? kInstantiating : kEvaluating);
if (new_status == kInstantiated) RunInitializationCode(ancestor);
ancestor->SetStatus(new_status);
} while (*ancestor != *module);
}
}
bool Module::FinishInstantiate(Handle<Module> module,
ZoneForwardList<Handle<Module>>* stack,
unsigned* dfs_index, Zone* zone) {
DCHECK_NE(module->status(), kEvaluating);
if (module->status() >= kInstantiating) return true;
DCHECK_EQ(module->status(), kPreInstantiating);
// Instantiate SharedFunctionInfo and mark module as instantiating for
// the recursion.
Isolate* isolate = module->GetIsolate();
Handle<SharedFunctionInfo> shared(SharedFunctionInfo::cast(module->code()),
isolate);
Handle<JSFunction> function =
isolate->factory()->NewFunctionFromSharedFunctionInfo(
shared, isolate->native_context());
module->set_code(*function);
module->SetStatus(kInstantiating);
module->set_dfs_index(*dfs_index);
module->set_dfs_ancestor_index(*dfs_index);
stack->push_front(module);
(*dfs_index)++;
// Recurse.
Handle<FixedArray> requested_modules(module->requested_modules(), isolate);
for (int i = 0, length = requested_modules->length(); i < length; ++i) {
Handle<Module> requested_module(Module::cast(requested_modules->get(i)),
isolate);
if (!FinishInstantiate(requested_module, stack, dfs_index, zone)) {
return false;
}
DCHECK_NE(requested_module->status(), kEvaluating);
DCHECK_GE(requested_module->status(), kInstantiating);
SLOW_DCHECK(
// {requested_module} is instantiating iff it's on the {stack}.
(requested_module->status() == kInstantiating) ==
std::count_if(stack->begin(), stack->end(), [&](Handle<Module> m) {
return *m == *requested_module;
}));
if (requested_module->status() == kInstantiating) {
module->set_dfs_ancestor_index(
std::min(module->dfs_ancestor_index(),
requested_module->dfs_ancestor_index()));
}
}
Handle<Script> script(module->script(), isolate);
Handle<ModuleInfo> module_info(module->info(), isolate);
// Resolve imports.
Handle<FixedArray> regular_imports(module_info->regular_imports(), isolate);
for (int i = 0, n = regular_imports->length(); i < n; ++i) {
Handle<ModuleInfoEntry> entry(
ModuleInfoEntry::cast(regular_imports->get(i)), isolate);
Handle<String> name(String::cast(entry->import_name()), isolate);
MessageLocation loc(script, entry->beg_pos(), entry->end_pos());
ResolveSet resolve_set(zone);
Handle<Cell> cell;
if (!ResolveImport(module, name, entry->module_request(), loc, true,
&resolve_set)
.ToHandle(&cell)) {
return false;
}
module->regular_imports()->set(ImportIndex(entry->cell_index()), *cell);
}
// Resolve indirect exports.
Handle<FixedArray> special_exports(module_info->special_exports(), isolate);
for (int i = 0, n = special_exports->length(); i < n; ++i) {
Handle<ModuleInfoEntry> entry(
ModuleInfoEntry::cast(special_exports->get(i)), isolate);
Handle<Object> name(entry->export_name(), isolate);
if (name->IsUndefined(isolate)) continue; // Star export.
MessageLocation loc(script, entry->beg_pos(), entry->end_pos());
ResolveSet resolve_set(zone);
if (ResolveExport(module, Handle<String>(), Handle<String>::cast(name), loc,
true, &resolve_set)
.is_null()) {
return false;
}
}
MaybeTransitionComponent(module, stack, kInstantiated);
return true;
}
MaybeHandle<Object> Module::Evaluate(Handle<Module> module) {
#ifdef DEBUG
if (FLAG_trace_module_status) {
OFStream os(stdout);
os << "Evaluating module ";
module->script()->GetNameOrSourceURL()->Print(os);
#ifndef OBJECT_PRINT
os << "\n";
#endif // OBJECT_PRINT
}
#endif // DEBUG
Isolate* isolate = module->GetIsolate();
if (module->status() == kErrored) {
isolate->Throw(module->GetException());
return MaybeHandle<Object>();
}
DCHECK_NE(module->status(), kEvaluating);
DCHECK_GE(module->status(), kInstantiated);
Zone zone(isolate->allocator(), ZONE_NAME);
ZoneForwardList<Handle<Module>> stack(&zone);
unsigned dfs_index = 0;
Handle<Object> result;
if (!Evaluate(module, &stack, &dfs_index).ToHandle(&result)) {
for (auto& descendant : stack) {
DCHECK_EQ(descendant->status(), kEvaluating);
descendant->RecordError();
}
DCHECK_EQ(module->GetException(), isolate->pending_exception());
return MaybeHandle<Object>();
}
DCHECK_EQ(module->status(), kEvaluated);
DCHECK(stack.empty());
return result;
}
MaybeHandle<Object> Module::Evaluate(Handle<Module> module,
ZoneForwardList<Handle<Module>>* stack,
unsigned* dfs_index) {
Isolate* isolate = module->GetIsolate();
if (module->status() == kErrored) {
isolate->Throw(module->GetException());
return MaybeHandle<Object>();
}
if (module->status() >= kEvaluating) {
return isolate->factory()->undefined_value();
}
DCHECK_EQ(module->status(), kInstantiated);
Handle<JSGeneratorObject> generator(JSGeneratorObject::cast(module->code()),
isolate);
module->set_code(
generator->function()->shared()->scope_info()->ModuleDescriptorInfo());
module->SetStatus(kEvaluating);
module->set_dfs_index(*dfs_index);
module->set_dfs_ancestor_index(*dfs_index);
stack->push_front(module);
(*dfs_index)++;
// Recursion.
Handle<FixedArray> requested_modules(module->requested_modules(), isolate);
for (int i = 0, length = requested_modules->length(); i < length; ++i) {
Handle<Module> requested_module(Module::cast(requested_modules->get(i)),
isolate);
RETURN_ON_EXCEPTION(isolate, Evaluate(requested_module, stack, dfs_index),
Object);
DCHECK_GE(requested_module->status(), kEvaluating);
DCHECK_NE(requested_module->status(), kErrored);
SLOW_DCHECK(
// {requested_module} is evaluating iff it's on the {stack}.
(requested_module->status() == kEvaluating) ==
std::count_if(stack->begin(), stack->end(), [&](Handle<Module> m) {
return *m == *requested_module;
}));
if (requested_module->status() == kEvaluating) {
module->set_dfs_ancestor_index(
std::min(module->dfs_ancestor_index(),
requested_module->dfs_ancestor_index()));
}
}
// Evaluation of module body.
Handle<JSFunction> resume(
isolate->native_context()->generator_next_internal(), isolate);
Handle<Object> result;
ASSIGN_RETURN_ON_EXCEPTION(
isolate, result, Execution::Call(isolate, resume, generator, 0, nullptr),
Object);
DCHECK(static_cast<JSIteratorResult*>(JSObject::cast(*result))
->done()
->BooleanValue());
MaybeTransitionComponent(module, stack, kEvaluated);
return handle(
static_cast<JSIteratorResult*>(JSObject::cast(*result))->value(),
isolate);
}
namespace {
void FetchStarExports(Handle<Module> module, Zone* zone,
UnorderedModuleSet* visited) {
DCHECK_GE(module->status(), Module::kInstantiating);
if (module->module_namespace()->IsJSModuleNamespace()) return; // Shortcut.
bool cycle = !visited->insert(module).second;
if (cycle) return;
Isolate* isolate = module->GetIsolate();
Handle<ObjectHashTable> exports(module->exports(), isolate);
UnorderedStringMap more_exports(zone);
// TODO(neis): Only allocate more_exports if there are star exports.
// Maybe split special_exports into indirect_exports and star_exports.
Handle<FixedArray> special_exports(module->info()->special_exports(),
isolate);
for (int i = 0, n = special_exports->length(); i < n; ++i) {
Handle<ModuleInfoEntry> entry(
ModuleInfoEntry::cast(special_exports->get(i)), isolate);
if (!entry->export_name()->IsUndefined(isolate)) {
continue; // Indirect export.
}
Handle<Module> requested_module(
Module::cast(module->requested_modules()->get(entry->module_request())),
isolate);
// Recurse.
FetchStarExports(requested_module, zone, visited);
// Collect all of [requested_module]'s exports that must be added to
// [module]'s exports (i.e. to [exports]). We record these in
// [more_exports]. Ambiguities (conflicting exports) are marked by mapping
// the name to undefined instead of a Cell.
Handle<ObjectHashTable> requested_exports(requested_module->exports(),
isolate);
for (int i = 0, n = requested_exports->Capacity(); i < n; ++i) {
Object* key;
if (!requested_exports->ToKey(isolate, i, &key)) continue;
Handle<String> name(String::cast(key), isolate);
if (name->Equals(isolate->heap()->default_string())) continue;
if (!exports->Lookup(name)->IsTheHole(isolate)) continue;
Handle<Cell> cell(Cell::cast(requested_exports->ValueAt(i)), isolate);
auto insert_result = more_exports.insert(std::make_pair(name, cell));
if (!insert_result.second) {
auto it = insert_result.first;
if (*it->second == *cell || it->second->IsUndefined(isolate)) {
// We already recorded this mapping before, or the name is already
// known to be ambiguous. In either case, there's nothing to do.
} else {
DCHECK(it->second->IsCell());
// Different star exports provide different cells for this name, hence
// mark the name as ambiguous.
it->second = isolate->factory()->undefined_value();
}
}
}
}
// Copy [more_exports] into [exports].
for (const auto& elem : more_exports) {
if (elem.second->IsUndefined(isolate)) continue; // Ambiguous export.
DCHECK(!elem.first->Equals(isolate->heap()->default_string()));
DCHECK(elem.second->IsCell());
exports = ObjectHashTable::Put(exports, elem.first, elem.second);
}
module->set_exports(*exports);
}
} // anonymous namespace
Handle<JSModuleNamespace> Module::GetModuleNamespace(Handle<Module> module,
int module_request) {
Isolate* isolate = module->GetIsolate();
Handle<Module> requested_module(
Module::cast(module->requested_modules()->get(module_request)), isolate);
return Module::GetModuleNamespace(requested_module);
}
Handle<JSModuleNamespace> Module::GetModuleNamespace(Handle<Module> module) {
Isolate* isolate = module->GetIsolate();
Handle<HeapObject> object(module->module_namespace(), isolate);
if (!object->IsUndefined(isolate)) {
// Namespace object already exists.
return Handle<JSModuleNamespace>::cast(object);
}
// Collect the export names.
Zone zone(isolate->allocator(), ZONE_NAME);
UnorderedModuleSet visited(&zone);
FetchStarExports(module, &zone, &visited);
Handle<ObjectHashTable> exports(module->exports(), isolate);
ZoneVector<Handle<String>> names(&zone);
names.reserve(exports->NumberOfElements());
for (int i = 0, n = exports->Capacity(); i < n; ++i) {
Object* key;
if (!exports->ToKey(isolate, i, &key)) continue;
names.push_back(handle(String::cast(key), isolate));
}
DCHECK_EQ(static_cast<int>(names.size()), exports->NumberOfElements());
// Sort them alphabetically.
struct {
bool operator()(Handle<String> a, Handle<String> b) {
return String::Compare(a, b) == ComparisonResult::kLessThan;
}
} StringLess;
std::sort(names.begin(), names.end(), StringLess);
// 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(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);
Map::GetOrCreatePrototypeWeakCell(ns, isolate);
return ns;
}
MaybeHandle<Object> JSModuleNamespace::GetExport(Handle<String> name) {
Isolate* isolate = name->GetIsolate();
Handle<Object> object(module()->exports()->Lookup(name), isolate);
if (object->IsTheHole(isolate)) {
return isolate->factory()->undefined_value();
}
Handle<Object> value(Handle<Cell>::cast(object)->value(), isolate);
if (value->IsTheHole(isolate)) {
THROW_NEW_ERROR(
isolate, NewReferenceError(MessageTemplate::kNotDefined, name), Object);
}
return value;
}
} // namespace internal
} // namespace v8