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ladybird/Userland/Libraries/LibJS/Runtime/VM.cpp
Andreas Kling 1d20380859 LibJS: Split the per-call-frame environment into lexical and variable 
To better follow the spec, we need to distinguish between the current
execution context's lexical environment and variable environment.

This patch moves us to having two record pointers, although both of
them point at the same environment records for now.
2021-06-22 18:44:53 +02:00

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/*
* Copyright (c) 2020-2021, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2020-2021, Linus Groh <linusg@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Debug.h>
#include <AK/ScopeGuard.h>
#include <AK/StringBuilder.h>
#include <LibJS/Interpreter.h>
#include <LibJS/Runtime/AbstractOperations.h>
#include <LibJS/Runtime/Array.h>
#include <LibJS/Runtime/Error.h>
#include <LibJS/Runtime/FinalizationRegistry.h>
#include <LibJS/Runtime/FunctionEnvironmentRecord.h>
#include <LibJS/Runtime/GlobalObject.h>
#include <LibJS/Runtime/IteratorOperations.h>
#include <LibJS/Runtime/NativeFunction.h>
#include <LibJS/Runtime/PromiseReaction.h>
#include <LibJS/Runtime/Reference.h>
#include <LibJS/Runtime/ScriptFunction.h>
#include <LibJS/Runtime/Symbol.h>
#include <LibJS/Runtime/TemporaryClearException.h>
#include <LibJS/Runtime/VM.h>
namespace JS {
NonnullRefPtr<VM> VM::create()
{
return adopt_ref(*new VM);
}
VM::VM()
: m_heap(*this)
{
m_empty_string = m_heap.allocate_without_global_object<PrimitiveString>(String::empty());
for (size_t i = 0; i < 128; ++i) {
m_single_ascii_character_strings[i] = m_heap.allocate_without_global_object<PrimitiveString>(String::formatted("{:c}", i));
}
m_environment_record_shape = m_heap.allocate_without_global_object<Shape>(Shape::ShapeWithoutGlobalObjectTag::Tag);
#define __JS_ENUMERATE(SymbolName, snake_name) \
m_well_known_symbol_##snake_name = js_symbol(*this, "Symbol." #SymbolName, false);
JS_ENUMERATE_WELL_KNOWN_SYMBOLS
#undef __JS_ENUMERATE
}
VM::~VM()
{
}
Interpreter& VM::interpreter()
{
VERIFY(!m_interpreters.is_empty());
return *m_interpreters.last();
}
Interpreter* VM::interpreter_if_exists()
{
if (m_interpreters.is_empty())
return nullptr;
return m_interpreters.last();
}
void VM::push_interpreter(Interpreter& interpreter)
{
m_interpreters.append(&interpreter);
}
void VM::pop_interpreter(Interpreter& interpreter)
{
VERIFY(!m_interpreters.is_empty());
auto* popped_interpreter = m_interpreters.take_last();
VERIFY(popped_interpreter == &interpreter);
}
VM::InterpreterExecutionScope::InterpreterExecutionScope(Interpreter& interpreter)
: m_interpreter(interpreter)
{
m_interpreter.vm().push_interpreter(m_interpreter);
}
VM::InterpreterExecutionScope::~InterpreterExecutionScope()
{
m_interpreter.vm().pop_interpreter(m_interpreter);
}
void VM::gather_roots(HashTable<Cell*>& roots)
{
roots.set(m_empty_string);
for (auto* string : m_single_ascii_character_strings)
roots.set(string);
roots.set(m_environment_record_shape);
roots.set(m_exception);
if (m_last_value.is_cell())
roots.set(&m_last_value.as_cell());
for (auto& call_frame : m_call_stack) {
if (call_frame->this_value.is_cell())
roots.set(&call_frame->this_value.as_cell());
roots.set(call_frame->arguments_object);
for (auto& argument : call_frame->arguments) {
if (argument.is_cell())
roots.set(&argument.as_cell());
}
roots.set(call_frame->lexical_environment);
}
#define __JS_ENUMERATE(SymbolName, snake_name) \
roots.set(well_known_symbol_##snake_name());
JS_ENUMERATE_WELL_KNOWN_SYMBOLS
#undef __JS_ENUMERATE
for (auto& symbol : m_global_symbol_map)
roots.set(symbol.value);
for (auto* job : m_promise_jobs)
roots.set(job);
}
Symbol* VM::get_global_symbol(const String& description)
{
auto result = m_global_symbol_map.get(description);
if (result.has_value())
return result.value();
auto new_global_symbol = js_symbol(*this, description, true);
m_global_symbol_map.set(description, new_global_symbol);
return new_global_symbol;
}
void VM::set_variable(const FlyString& name, Value value, GlobalObject& global_object, bool first_assignment, EnvironmentRecord* specific_scope)
{
Optional<Variable> possible_match;
if (!specific_scope && m_call_stack.size()) {
for (auto* environment_record = lexical_environment(); environment_record; environment_record = environment_record->outer_environment()) {
possible_match = environment_record->get_from_environment_record(name);
if (possible_match.has_value()) {
specific_scope = environment_record;
break;
}
}
}
if (specific_scope && possible_match.has_value()) {
if (!first_assignment && possible_match.value().declaration_kind == DeclarationKind::Const) {
throw_exception<TypeError>(global_object, ErrorType::InvalidAssignToConst);
return;
}
specific_scope->put_into_environment_record(name, { value, possible_match.value().declaration_kind });
return;
}
if (specific_scope) {
specific_scope->put_into_environment_record(name, { value, DeclarationKind::Var });
return;
}
global_object.put(name, value);
}
bool VM::delete_variable(FlyString const& name)
{
EnvironmentRecord* specific_scope = nullptr;
Optional<Variable> possible_match;
if (!m_call_stack.is_empty()) {
for (auto* environment_record = lexical_environment(); environment_record; environment_record = environment_record->outer_environment()) {
possible_match = environment_record->get_from_environment_record(name);
if (possible_match.has_value()) {
specific_scope = environment_record;
break;
}
}
}
if (!possible_match.has_value())
return false;
if (possible_match.value().declaration_kind == DeclarationKind::Const)
return false;
VERIFY(specific_scope);
return specific_scope->delete_from_environment_record(name);
}
void VM::assign(const FlyString& target, Value value, GlobalObject& global_object, bool first_assignment, EnvironmentRecord* specific_scope)
{
set_variable(target, move(value), global_object, first_assignment, specific_scope);
}
void VM::assign(const Variant<NonnullRefPtr<Identifier>, NonnullRefPtr<BindingPattern>>& target, Value value, GlobalObject& global_object, bool first_assignment, EnvironmentRecord* specific_scope)
{
if (auto id_ptr = target.get_pointer<NonnullRefPtr<Identifier>>())
return assign((*id_ptr)->string(), move(value), global_object, first_assignment, specific_scope);
assign(target.get<NonnullRefPtr<BindingPattern>>(), move(value), global_object, first_assignment, specific_scope);
}
void VM::assign(const NonnullRefPtr<BindingPattern>& target, Value value, GlobalObject& global_object, bool first_assignment, EnvironmentRecord* specific_scope)
{
auto& binding = *target;
switch (binding.kind) {
case BindingPattern::Kind::Array: {
auto iterator = get_iterator(global_object, value);
if (!iterator)
return;
for (size_t i = 0; i < binding.entries.size(); i++) {
if (exception())
return;
auto& entry = binding.entries[i];
if (entry.is_rest) {
VERIFY(i == binding.entries.size() - 1);
auto* array = Array::create(global_object);
for (;;) {
auto next_object = iterator_next(*iterator);
if (!next_object)
return;
auto done_property = next_object->get(names.done);
if (exception())
return;
if (!done_property.is_empty() && done_property.to_boolean())
break;
auto next_value = next_object->get(names.value);
if (exception())
return;
array->indexed_properties().append(next_value);
}
value = array;
} else if (iterator) {
auto next_object = iterator_next(*iterator);
if (!next_object)
return;
auto done_property = next_object->get(names.done);
if (exception())
return;
if (!done_property.is_empty() && done_property.to_boolean()) {
iterator = nullptr;
value = js_undefined();
} else {
value = next_object->get(names.value);
if (exception())
return;
}
} else {
value = js_undefined();
}
if (value.is_undefined() && entry.initializer) {
value = entry.initializer->execute(interpreter(), global_object);
if (exception())
return;
}
entry.alias.visit(
[&](Empty) {},
[&](NonnullRefPtr<Identifier> const& identifier) {
set_variable(identifier->string(), value, global_object, first_assignment, specific_scope);
},
[&](NonnullRefPtr<BindingPattern> const& pattern) {
assign(pattern, value, global_object, first_assignment, specific_scope);
});
if (entry.is_rest)
break;
}
break;
}
case BindingPattern::Kind::Object: {
auto object = value.to_object(global_object);
HashTable<PropertyName, PropertyNameTraits> seen_names;
for (auto& property : binding.entries) {
VERIFY(!property.is_elision());
PropertyName assignment_name;
JS::Value value_to_assign;
if (property.is_rest) {
VERIFY(property.name.has<NonnullRefPtr<Identifier>>());
assignment_name = property.name.get<NonnullRefPtr<Identifier>>()->string();
auto* rest_object = Object::create(global_object, global_object.object_prototype());
for (auto& object_property : object->shape().property_table()) {
if (!object_property.value.attributes.has_enumerable())
continue;
if (seen_names.contains(object_property.key.to_display_string()))
continue;
rest_object->put(object_property.key, object->get(object_property.key));
if (exception())
return;
}
value_to_assign = rest_object;
} else {
property.name.visit(
[&](Empty) { VERIFY_NOT_REACHED(); },
[&](NonnullRefPtr<Identifier> const& identifier) {
assignment_name = identifier->string();
},
[&](NonnullRefPtr<Expression> const& expression) {
auto result = expression->execute(interpreter(), global_object);
if (exception())
return;
assignment_name = result.to_property_key(global_object);
});
if (exception())
break;
value_to_assign = object->get(assignment_name);
}
seen_names.set(assignment_name);
if (value_to_assign.is_empty())
value_to_assign = js_undefined();
if (value_to_assign.is_undefined() && property.initializer)
value_to_assign = property.initializer->execute(interpreter(), global_object);
if (exception())
break;
property.alias.visit(
[&](Empty) {
set_variable(assignment_name.to_string(), value_to_assign, global_object, first_assignment, specific_scope);
},
[&](NonnullRefPtr<Identifier> const& identifier) {
VERIFY(!property.is_rest);
set_variable(identifier->string(), value_to_assign, global_object, first_assignment, specific_scope);
},
[&](NonnullRefPtr<BindingPattern> const& pattern) {
VERIFY(!property.is_rest);
assign(pattern, value_to_assign, global_object, first_assignment, specific_scope);
});
if (property.is_rest)
break;
}
break;
}
}
}
Value VM::get_variable(const FlyString& name, GlobalObject& global_object)
{
if (!m_call_stack.is_empty()) {
if (name == names.arguments.as_string() && !call_frame().callee.is_empty()) {
// HACK: Special handling for the name "arguments":
// If the name "arguments" is defined in the current scope, for example via
// a function parameter, or by a local var declaration, we use that.
// Otherwise, we return a lazily constructed Array with all the argument values.
// FIXME: Do something much more spec-compliant.
auto possible_match = lexical_environment()->get_from_environment_record(name);
if (possible_match.has_value())
return possible_match.value().value;
if (!call_frame().arguments_object) {
call_frame().arguments_object = Array::create(global_object);
call_frame().arguments_object->put(names.callee, call_frame().callee);
for (auto argument : call_frame().arguments) {
call_frame().arguments_object->indexed_properties().append(argument);
}
}
return call_frame().arguments_object;
}
for (auto* environment_record = lexical_environment(); environment_record; environment_record = environment_record->outer_environment()) {
auto possible_match = environment_record->get_from_environment_record(name);
if (exception())
return {};
if (possible_match.has_value())
return possible_match.value().value;
}
}
auto value = global_object.get(name);
if (m_underscore_is_last_value && name == "_" && value.is_empty())
return m_last_value;
return value;
}
Reference VM::get_reference(const FlyString& name)
{
if (m_call_stack.size()) {
for (auto* environment_record = lexical_environment(); environment_record; environment_record = environment_record->outer_environment()) {
if (is<GlobalObject>(environment_record))
break;
auto possible_match = environment_record->get_from_environment_record(name);
if (possible_match.has_value())
return { Reference::LocalVariable, name };
}
}
return { Reference::GlobalVariable, name };
}
Value VM::construct(Function& function, Function& new_target, Optional<MarkedValueList> arguments)
{
auto& global_object = function.global_object();
CallFrame call_frame;
call_frame.callee = &function;
if (auto* interpreter = interpreter_if_exists())
call_frame.current_node = interpreter->current_node();
call_frame.is_strict_mode = function.is_strict_mode();
push_call_frame(call_frame, global_object);
if (exception())
return {};
ArmedScopeGuard call_frame_popper = [&] {
pop_call_frame();
};
call_frame.function_name = function.name();
call_frame.arguments = function.bound_arguments();
if (arguments.has_value())
call_frame.arguments.extend(arguments.value().values());
auto* environment = function.create_environment_record();
call_frame.lexical_environment = environment;
call_frame.variable_environment = environment;
if (environment)
environment->set_new_target(&new_target);
Object* new_object = nullptr;
if (function.constructor_kind() == Function::ConstructorKind::Base) {
new_object = Object::create(global_object, nullptr);
if (environment)
environment->bind_this_value(global_object, new_object);
if (exception())
return {};
auto prototype = new_target.get(names.prototype);
if (exception())
return {};
if (prototype.is_object()) {
new_object->set_prototype(&prototype.as_object());
if (exception())
return {};
}
}
// If we are a Derived constructor, |this| has not been constructed before super is called.
Value this_value = function.constructor_kind() == Function::ConstructorKind::Base ? new_object : Value {};
call_frame.this_value = this_value;
auto result = function.construct(new_target);
if (environment)
this_value = environment->get_this_binding(global_object);
pop_call_frame();
call_frame_popper.disarm();
// If we are constructing an instance of a derived class,
// set the prototype on objects created by constructors that return an object (i.e. NativeFunction subclasses).
if (function.constructor_kind() == Function::ConstructorKind::Base && new_target.constructor_kind() == Function::ConstructorKind::Derived && result.is_object()) {
if (environment) {
VERIFY(is<FunctionEnvironmentRecord>(lexical_environment()));
static_cast<FunctionEnvironmentRecord*>(lexical_environment())->replace_this_binding(result);
}
auto prototype = new_target.get(names.prototype);
if (exception())
return {};
if (prototype.is_object()) {
result.as_object().set_prototype(&prototype.as_object());
if (exception())
return {};
}
return result;
}
if (exception())
return {};
if (result.is_object())
return result;
return this_value;
}
void VM::throw_exception(Exception& exception)
{
set_exception(exception);
unwind(ScopeType::Try);
}
String VM::join_arguments(size_t start_index) const
{
StringBuilder joined_arguments;
for (size_t i = start_index; i < argument_count(); ++i) {
joined_arguments.append(argument(i).to_string_without_side_effects().characters());
if (i != argument_count() - 1)
joined_arguments.append(' ');
}
return joined_arguments.build();
}
Value VM::get_new_target()
{
auto& env = get_this_environment(*this);
VERIFY(is<FunctionEnvironmentRecord>(env));
return static_cast<FunctionEnvironmentRecord&>(env).new_target();
}
Value VM::call_internal(Function& function, Value this_value, Optional<MarkedValueList> arguments)
{
VERIFY(!exception());
VERIFY(!this_value.is_empty());
CallFrame call_frame;
call_frame.callee = &function;
if (auto* interpreter = interpreter_if_exists())
call_frame.current_node = interpreter->current_node();
call_frame.is_strict_mode = function.is_strict_mode();
call_frame.function_name = function.name();
call_frame.this_value = function.bound_this().value_or(this_value);
call_frame.arguments = function.bound_arguments();
if (arguments.has_value())
call_frame.arguments.extend(arguments.value().values());
auto* environment = function.create_environment_record();
call_frame.lexical_environment = environment;
call_frame.variable_environment = environment;
if (environment) {
VERIFY(environment->this_binding_status() == FunctionEnvironmentRecord::ThisBindingStatus::Uninitialized);
environment->bind_this_value(function.global_object(), call_frame.this_value);
}
if (exception())
return {};
push_call_frame(call_frame, function.global_object());
if (exception())
return {};
auto result = function.call();
pop_call_frame();
return result;
}
bool VM::in_strict_mode() const
{
if (call_stack().is_empty())
return false;
return call_frame().is_strict_mode;
}
void VM::run_queued_promise_jobs()
{
dbgln_if(PROMISE_DEBUG, "Running queued promise jobs");
// Temporarily get rid of the exception, if any - job functions must be called
// either way, and that can't happen if we already have an exception stored.
TemporaryClearException clear_exception(*this);
while (!m_promise_jobs.is_empty()) {
auto* job = m_promise_jobs.take_first();
dbgln_if(PROMISE_DEBUG, "Calling promise job function @ {}", job);
[[maybe_unused]] auto result = call(*job, js_undefined());
}
// Ensure no job has created a new exception, they must clean up after themselves.
VERIFY(!m_exception);
}
// 9.5.4 HostEnqueuePromiseJob ( job, realm ), https://tc39.es/ecma262/#sec-hostenqueuepromisejob
void VM::enqueue_promise_job(NativeFunction& job)
{
m_promise_jobs.append(&job);
}
void VM::run_queued_finalization_registry_cleanup_jobs()
{
while (!m_finalization_registry_cleanup_jobs.is_empty()) {
auto* registry = m_finalization_registry_cleanup_jobs.take_first();
registry->cleanup();
}
}
// 9.10.4.1 HostEnqueueFinalizationRegistryCleanupJob ( finalizationRegistry ), https://tc39.es/ecma262/#sec-host-cleanup-finalization-registry
void VM::enqueue_finalization_registry_cleanup_job(FinalizationRegistry& registry)
{
m_finalization_registry_cleanup_jobs.append(&registry);
}
// 27.2.1.9 HostPromiseRejectionTracker ( promise, operation ), https://tc39.es/ecma262/#sec-host-promise-rejection-tracker
void VM::promise_rejection_tracker(const Promise& promise, Promise::RejectionOperation operation) const
{
switch (operation) {
case Promise::RejectionOperation::Reject:
// A promise was rejected without any handlers
if (on_promise_unhandled_rejection)
on_promise_unhandled_rejection(promise);
break;
case Promise::RejectionOperation::Handle:
// A handler was added to an already rejected promise
if (on_promise_rejection_handled)
on_promise_rejection_handled(promise);
break;
default:
VERIFY_NOT_REACHED();
}
}
void VM::dump_backtrace() const
{
for (ssize_t i = m_call_stack.size() - 1; i >= 0; --i)
dbgln("-> {}", m_call_stack[i]->function_name);
}
void VM::dump_environment_record_chain() const
{
for (auto* environment_record = lexical_environment(); environment_record; environment_record = environment_record->outer_environment()) {
dbgln("+> {} ({:p})", environment_record->class_name(), environment_record);
if (is<DeclarativeEnvironmentRecord>(*environment_record)) {
auto& declarative_environment_record = static_cast<DeclarativeEnvironmentRecord const&>(*environment_record);
for (auto& variable : declarative_environment_record.variables()) {
dbgln(" {}", variable.key);
}
}
}
}
}
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