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ladybird/Libraries/LibJS/Interpreter.cpp
Linus Groh 9ea6ef4ed1 LibJS: Make Interpreter::throw_exception() a void function 
The motivation for this change is twofold:

- Returning a JS::Value is misleading as one would expect it to carry
  some meaningful information, like maybe the error object that's being
  created, but in fact it is always empty. Supposedly to serve as a
  shortcut for the common case of "throw and return empty value", but
  that's just leading us to my second point.
- Inconsistent usage / coding style: as of this commit there are 114
  uses of throw_exception() discarding its return value and 55 uses
  directly returning the call result (in LibJS, not counting LibWeb);
  with the first style often having a more explicit empty value (or
  nullptr in some cases) return anyway.
  One more line to always make the return value obvious is should be
  worth it.

So now it's basically always these steps, which is already being used in
the majority of cases (as outlined above):

- Throw an exception. This mutates interpreter state by updating
  m_exception and unwinding, but doesn't return anything.
- Let the caller explicitly return an empty value, nullptr or anything
  else itself.
2020-08-25 18:30:31 +02:00

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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()
: m_heap(*this)
, m_console(*this)
{
#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
}
Interpreter::~Interpreter()
{
}
Value Interpreter::run(GlobalObject& global_object, const Statement& statement, ArgumentVector arguments, ScopeType scope_type)
{
ASSERT(!exception());
if (statement.is_program()) {
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));
}
}
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 (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 };
}
Symbol* Interpreter::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 Interpreter::gather_roots(Badge<Heap>, HashTable<Cell*>& roots)
{
roots.set(m_global_object);
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());
for (auto& argument : call_frame.arguments) {
if (argument.is_cell())
roots.set(argument.as_cell());
}
roots.set(call_frame.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);
}
Value Interpreter::call(Function& function, Value this_value, Optional<MarkedValueList> arguments)
{
ASSERT(!exception());
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
m_exception = exception;
unwind(ScopeType::Try);
}
GlobalObject& Interpreter::global_object()
{
return static_cast<GlobalObject&>(*m_global_object);
}
const GlobalObject& Interpreter::global_object() const
{
return static_cast<const GlobalObject&>(*m_global_object);
}
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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