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/*
* Copyright (c) 2020, Andreas Kling <kling@serenityos.org>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <AK/Badge.h>
#include <AK/StringBuilder.h>
#include <LibJS/AST.h>
#include <LibJS/Interpreter.h>
#include <LibJS/Runtime/Error.h>
#include <LibJS/Runtime/GlobalObject.h>
#include <LibJS/Runtime/LexicalEnvironment.h>
#include <LibJS/Runtime/MarkedValueList.h>
#include <LibJS/Runtime/NativeFunction.h>
#include <LibJS/Runtime/Object.h>
#include <LibJS/Runtime/Reference.h>
#include <LibJS/Runtime/ScriptFunction.h>
#include <LibJS/Runtime/Shape.h>
#include <LibJS/Runtime/SymbolObject.h>
#include <LibJS/Runtime/Value.h>
//#define INTERPRETER_DEBUG
namespace JS {
Interpreter::Interpreter(VM& vm)
: m_vm(vm)
, m_console(*this)
{
}
Interpreter::~Interpreter()
{
}
Value Interpreter::run(GlobalObject& global_object, const Program& program)
{
VM::InterpreterExecutionScope scope(*this);
ASSERT(!exception());
if (m_call_stack.is_empty()) {
CallFrame global_call_frame;
global_call_frame.this_value = &global_object;
global_call_frame.function_name = "(global execution context)";
global_call_frame.environment = heap().allocate<LexicalEnvironment>(global_object, LexicalEnvironment::EnvironmentRecordType::Global);
global_call_frame.environment->bind_this_value(&global_object);
if (exception())
return {};
m_call_stack.append(move(global_call_frame));
}
return program.execute(*this, global_object);
}
Value Interpreter::execute_statement(GlobalObject& global_object, const Statement& statement, ArgumentVector arguments, ScopeType scope_type)
{
if (!statement.is_scope_node())
return statement.execute(*this, global_object);
auto& block = static_cast<const ScopeNode&>(statement);
enter_scope(block, move(arguments), scope_type, global_object);
if (block.children().is_empty())
m_last_value = js_undefined();
for (auto& node : block.children()) {
m_last_value = node.execute(*this, global_object);
if (should_unwind()) {
if (!block.label().is_null() && should_unwind_until(ScopeType::Breakable, block.label()))
stop_unwind();
break;
}
}
bool did_return = m_unwind_until == ScopeType::Function;
if (m_unwind_until == scope_type)
m_unwind_until = ScopeType::None;
exit_scope(block);
return did_return ? m_last_value : js_undefined();
}
void Interpreter::enter_scope(const ScopeNode& scope_node, ArgumentVector arguments, ScopeType scope_type, GlobalObject& global_object)
{
for (auto& declaration : scope_node.functions()) {
auto* function = ScriptFunction::create(global_object, declaration.name(), declaration.body(), declaration.parameters(), declaration.function_length(), current_environment());
set_variable(declaration.name(), function, global_object);
}
if (scope_type == ScopeType::Function) {
m_scope_stack.append({ scope_type, scope_node, false });
return;
}
HashMap<FlyString, Variable> scope_variables_with_declaration_kind;
scope_variables_with_declaration_kind.ensure_capacity(16);
for (auto& declaration : scope_node.variables()) {
for (auto& declarator : declaration.declarations()) {
if (scope_node.is_program()) {
global_object.put(declarator.id().string(), js_undefined());
if (exception())
return;
} else {
scope_variables_with_declaration_kind.set(declarator.id().string(), { js_undefined(), declaration.declaration_kind() });
}
}
}
for (auto& argument : arguments) {
scope_variables_with_declaration_kind.set(argument.name, { argument.value, DeclarationKind::Var });
}
bool pushed_lexical_environment = false;
if (!scope_variables_with_declaration_kind.is_empty()) {
auto* block_lexical_environment = heap().allocate<LexicalEnvironment>(global_object, move(scope_variables_with_declaration_kind), current_environment());
m_call_stack.last().environment = block_lexical_environment;
pushed_lexical_environment = true;
}
m_scope_stack.append({ scope_type, scope_node, pushed_lexical_environment });
}
void Interpreter::exit_scope(const ScopeNode& scope_node)
{
while (!m_scope_stack.is_empty()) {
auto popped_scope = m_scope_stack.take_last();
if (popped_scope.pushed_environment)
m_call_stack.last().environment = m_call_stack.last().environment->parent();
if (popped_scope.scope_node.ptr() == &scope_node)
break;
}
// If we unwind all the way, just reset m_unwind_until so that future "return" doesn't break.
if (m_scope_stack.is_empty())
m_unwind_until = ScopeType::None;
}
void Interpreter::set_variable(const FlyString& name, Value value, GlobalObject& global_object, bool first_assignment)
{
if (m_call_stack.size()) {
for (auto* environment = current_environment(); environment; environment = environment->parent()) {
auto possible_match = environment->get(name);
if (possible_match.has_value()) {
if (!first_assignment && possible_match.value().declaration_kind == DeclarationKind::Const) {
throw_exception<TypeError>(ErrorType::InvalidAssignToConst);
return;
}
environment->set(name, { value, possible_match.value().declaration_kind });
return;
}
}
}
global_object.put(move(name), move(value));
}
Value Interpreter::get_variable(const FlyString& name, GlobalObject& global_object)
{
if (m_call_stack.size()) {
for (auto* environment = current_environment(); environment; environment = environment->parent()) {
auto possible_match = environment->get(name);
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 Interpreter::get_reference(const FlyString& name)
{
if (m_call_stack.size()) {
for (auto* environment = current_environment(); environment; environment = environment->parent()) {
auto possible_match = environment->get(name);
if (possible_match.has_value())
return { Reference::LocalVariable, name };
}
}
return { Reference::GlobalVariable, name };
}
void Interpreter::gather_roots(HashTable<Cell*>& roots)
{
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());
for (auto& argument : call_frame.arguments) {
if (argument.is_cell())
roots.set(argument.as_cell());
}
roots.set(call_frame.environment);
}
}
Value Interpreter::call_internal(Function& function, Value this_value, Optional<MarkedValueList> arguments)
{
ASSERT(!exception());
VM::InterpreterExecutionScope scope(*this);
auto& call_frame = push_call_frame();
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.append(arguments.value().values());
call_frame.environment = function.create_environment();
ASSERT(call_frame.environment->this_binding_status() == LexicalEnvironment::ThisBindingStatus::Uninitialized);
call_frame.environment->bind_this_value(call_frame.this_value);
auto result = function.call(*this);
pop_call_frame();
return result;
}
Value Interpreter::construct(Function& function, Function& new_target, Optional<MarkedValueList> arguments, GlobalObject& global_object)
{
auto& call_frame = push_call_frame();
call_frame.function_name = function.name();
call_frame.arguments = function.bound_arguments();
if (arguments.has_value())
call_frame.arguments.append(arguments.value().values());
call_frame.environment = function.create_environment();
current_environment()->set_new_target(&new_target);
Object* new_object = nullptr;
if (function.constructor_kind() == Function::ConstructorKind::Base) {
new_object = Object::create_empty(global_object);
current_environment()->bind_this_value(new_object);
if (exception())
return {};
auto prototype = new_target.get("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(*this, new_target);
this_value = current_environment()->get_this_binding();
pop_call_frame();
// 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()) {
current_environment()->replace_this_binding(result);
auto prototype = new_target.get("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 Interpreter::throw_exception(Exception* exception)
{
#ifdef INTERPRETER_DEBUG
if (exception->value().is_object() && exception->value().as_object().is_error()) {
auto& error = static_cast<Error&>(exception->value().as_object());
dbg() << "Throwing JavaScript Error: " << error.name() << ", " << error.message();
for (ssize_t i = m_call_stack.size() - 1; i >= 0; --i) {
auto function_name = m_call_stack[i].function_name;
if (function_name.is_empty())
function_name = "<anonymous>";
dbg() << " " << function_name;
}
}
#endif
vm().set_exception({}, exception);
unwind(ScopeType::Try);
}
GlobalObject& Interpreter::global_object()
{
return static_cast<GlobalObject&>(*m_global_object.cell());
}
const GlobalObject& Interpreter::global_object() const
{
return static_cast<const GlobalObject&>(*m_global_object.cell());
}
String Interpreter::join_arguments() const
{
StringBuilder joined_arguments;
for (size_t i = 0; 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 Interpreter::resolve_this_binding() const
{
return get_this_environment()->get_this_binding();
}
const LexicalEnvironment* Interpreter::get_this_environment() const
{
// We will always return because the Global environment will always be reached, which has a |this| binding.
for (const LexicalEnvironment* environment = current_environment(); environment; environment = environment->parent()) {
if (environment->has_this_binding())
return environment;
}
ASSERT_NOT_REACHED();
}
Value Interpreter::get_new_target() const
{
return get_this_environment()->new_target();
}
}
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