/*
* 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/String.h>
#include <LibJS/Heap/Heap.h>
#include <LibJS/Interpreter.h>
#include <LibJS/Runtime/Accessor.h>
#include <LibJS/Runtime/Array.h>
#include <LibJS/Runtime/Error.h>
#include <LibJS/Runtime/GlobalObject.h>
#include <LibJS/Runtime/NativeFunction.h>
#include <LibJS/Runtime/NativeProperty.h>
#include <LibJS/Runtime/Object.h>
#include <LibJS/Runtime/Shape.h>
#include <LibJS/Runtime/StringObject.h>
#include <LibJS/Runtime/Value.h>
//#define OBJECT_DEBUG
namespace JS {
PropertyDescriptor PropertyDescriptor::from_dictionary(VM& vm, const Object& object)
{
PropertyAttributes attributes;
if (object.has_property("configurable")) {
attributes.set_has_configurable();
if (object.get("configurable").value_or(Value(false)).to_boolean())
attributes.set_configurable();
if (vm.exception())
return {};
}
if (object.has_property("enumerable")) {
attributes.set_has_enumerable();
if (object.get("enumerable").value_or(Value(false)).to_boolean())
attributes.set_enumerable();
if (vm.exception())
return {};
}
if (object.has_property("writable")) {
attributes.set_has_writable();
if (object.get("writable").value_or(Value(false)).to_boolean())
attributes.set_writable();
if (vm.exception())
return {};
}
PropertyDescriptor descriptor { attributes, object.get("value"), nullptr, nullptr };
if (vm.exception())
return {};
auto getter = object.get("get");
if (vm.exception())
return {};
if (getter.is_function())
descriptor.getter = &getter.as_function();
auto setter = object.get("set");
if (vm.exception())
return {};
if (setter.is_function())
descriptor.setter = &setter.as_function();
return descriptor;
}
Object* Object::create_empty(GlobalObject& global_object)
{
return global_object.heap().allocate<Object>(global_object, *global_object.object_prototype());
}
Object::Object(GlobalObjectTag)
{
// This is the global object
m_shape = heap().allocate<Shape>(static_cast<GlobalObject&>(*this), static_cast<GlobalObject&>(*this));
}
Object::Object(ConstructWithoutPrototypeTag, GlobalObject& global_object)
{
m_shape = heap().allocate<Shape>(global_object, global_object);
}
Object::Object(Object& prototype)
: Cell()
{
m_shape = prototype.global_object().empty_object_shape();
set_prototype(&prototype);
}
void Object::initialize(GlobalObject&)
{
}
Object::~Object()
{
}
Object* Object::prototype()
{
return shape().prototype();
}
const Object* Object::prototype() const
{
return shape().prototype();
}
bool Object::set_prototype(Object* new_prototype)
{
if (prototype() == new_prototype)
return true;
if (!m_is_extensible)
return false;
if (shape().is_unique()) {
shape().set_prototype_without_transition(new_prototype);
return true;
}
m_shape = m_shape->create_prototype_transition(new_prototype);
return true;
}
bool Object::has_prototype(const Object* prototype) const
{
for (auto* object = this->prototype(); object; object = object->prototype()) {
if (vm().exception())
return false;
if (object == prototype)
return true;
}
return false;
}
bool Object::prevent_extensions()
{
m_is_extensible = false;
return true;
}
Value Object::get_own_property(const Object& this_object, PropertyName property_name, Value receiver) const
{
Value value_here;
if (property_name.is_number()) {
auto existing_property = m_indexed_properties.get(nullptr, property_name.as_number(), false);
if (!existing_property.has_value())
return {};
value_here = existing_property.value().value.value_or(js_undefined());
} else {
auto metadata = shape().lookup(property_name.to_string_or_symbol());
if (!metadata.has_value())
return {};
value_here = m_storage[metadata.value().offset].value_or(js_undefined());
}
ASSERT(!value_here.is_empty());
if (value_here.is_accessor()) {
return value_here.as_accessor().call_getter(receiver);
}
if (value_here.is_native_property())
return call_native_property_getter(const_cast<Object*>(&this_object), value_here);
return value_here;
}
Value Object::get_own_properties(const Object& this_object, PropertyKind kind, bool only_enumerable_properties, GetOwnPropertyReturnType return_type) const
{
auto* properties_array = Array::create(global_object());
// FIXME: Support generic iterables
if (this_object.is_string_object()) {
auto str = static_cast<const StringObject&>(this_object).primitive_string().string();
for (size_t i = 0; i < str.length(); ++i) {
if (kind == PropertyKind::Key) {
properties_array->define_property(i, js_string(interpreter(), String::number(i)));
} else if (kind == PropertyKind::Value) {
properties_array->define_property(i, js_string(interpreter(), String::format("%c", str[i])));
} else {
auto* entry_array = Array::create(global_object());
entry_array->define_property(0, js_string(interpreter(), String::number(i)));
entry_array->define_property(1, js_string(interpreter(), String::format("%c", str[i])));
properties_array->define_property(i, entry_array);
}
if (vm().exception())
return {};
}
return properties_array;
}
size_t property_index = 0;
for (auto& entry : m_indexed_properties) {
auto value_and_attributes = entry.value_and_attributes(const_cast<Object*>(&this_object));
if (only_enumerable_properties && !value_and_attributes.attributes.is_enumerable())
continue;
if (kind == PropertyKind::Key) {
properties_array->define_property(property_index, js_string(interpreter(), String::number(entry.index())));
} else if (kind == PropertyKind::Value) {
properties_array->define_property(property_index, value_and_attributes.value);
} else {
auto* entry_array = Array::create(global_object());
entry_array->define_property(0, js_string(interpreter(), String::number(entry.index())));
entry_array->define_property(1, value_and_attributes.value);
properties_array->define_property(property_index, entry_array);
}
if (vm().exception())
return {};
++property_index;
}
for (auto& it : this_object.shape().property_table_ordered()) {
if (only_enumerable_properties && !it.value.attributes.is_enumerable())
continue;
if (return_type == GetOwnPropertyReturnType::StringOnly && it.key.is_symbol())
continue;
if (return_type == GetOwnPropertyReturnType::SymbolOnly && it.key.is_string())
continue;
if (kind == PropertyKind::Key) {
properties_array->define_property(property_index, it.key.to_value(interpreter()));
} else if (kind == PropertyKind::Value) {
properties_array->define_property(property_index, this_object.get(it.key));
} else {
auto* entry_array = Array::create(global_object());
entry_array->define_property(0, it.key.to_value(interpreter()));
entry_array->define_property(1, this_object.get(it.key));
properties_array->define_property(property_index, entry_array);
}
if (vm().exception())
return {};
++property_index;
}
return properties_array;
}
Optional<PropertyDescriptor> Object::get_own_property_descriptor(const PropertyName& property_name) const
{
Value value;
PropertyAttributes attributes;
if (property_name.is_number()) {
auto existing_value = m_indexed_properties.get(nullptr, property_name.as_number(), false);
if (!existing_value.has_value())
return {};
value = existing_value.value().value;
attributes = existing_value.value().attributes;
attributes = default_attributes;
} else {
auto metadata = shape().lookup(property_name.to_string_or_symbol());
if (!metadata.has_value())
return {};
value = m_storage[metadata.value().offset];
if (vm().exception())
return {};
attributes = metadata.value().attributes;
}
PropertyDescriptor descriptor { attributes, {}, nullptr, nullptr };
if (value.is_native_property()) {
auto result = call_native_property_getter(const_cast<Object*>(this), value);
descriptor.value = result.value_or(js_undefined());
} else if (value.is_accessor()) {
auto& pair = value.as_accessor();
if (pair.getter())
descriptor.getter = pair.getter();
if (pair.setter())
descriptor.setter = pair.setter();
} else {
descriptor.value = value.value_or(js_undefined());
}
return descriptor;
}
Value Object::get_own_property_descriptor_object(const PropertyName& property_name) const
{
auto descriptor_opt = get_own_property_descriptor(property_name);
if (!descriptor_opt.has_value())
return js_undefined();
auto descriptor = descriptor_opt.value();
auto* descriptor_object = Object::create_empty(global_object());
descriptor_object->define_property("enumerable", Value(descriptor.attributes.is_enumerable()));
if (vm().exception())
return {};
descriptor_object->define_property("configurable", Value(descriptor.attributes.is_configurable()));
if (vm().exception())
return {};
if (descriptor.is_data_descriptor()) {
descriptor_object->define_property("value", descriptor.value.value_or(js_undefined()));
if (vm().exception())
return {};
descriptor_object->define_property("writable", Value(descriptor.attributes.is_writable()));
if (vm().exception())
return {};
} else if (descriptor.is_accessor_descriptor()) {
if (descriptor.getter) {
descriptor_object->define_property("get", Value(descriptor.getter));
if (vm().exception())
return {};
}
if (descriptor.setter) {
descriptor_object->define_property("set", Value(descriptor.setter));
if (vm().exception())
return {};
}
}
return descriptor_object;
}
void Object::set_shape(Shape& new_shape)
{
m_storage.resize(new_shape.property_count());
m_shape = &new_shape;
}
bool Object::define_property(const StringOrSymbol& property_name, const Object& descriptor, bool throw_exceptions)
{
bool is_accessor_property = descriptor.has_property("get") || descriptor.has_property("set");
PropertyAttributes attributes;
if (descriptor.has_property("configurable")) {
attributes.set_has_configurable();
if (descriptor.get("configurable").value_or(Value(false)).to_boolean())
attributes.set_configurable();
if (vm().exception())
return false;
}
if (descriptor.has_property("enumerable")) {
attributes.set_has_enumerable();
if (descriptor.get("enumerable").value_or(Value(false)).to_boolean())
attributes.set_enumerable();
if (vm().exception())
return false;
}
if (is_accessor_property) {
if (descriptor.has_property("value") || descriptor.has_property("writable")) {
if (throw_exceptions)
interpreter().vm().throw_exception<TypeError>(global_object(), ErrorType::AccessorValueOrWritable);
return false;
}
auto getter = descriptor.get("get").value_or(js_undefined());
if (vm().exception())
return {};
auto setter = descriptor.get("set").value_or(js_undefined());
if (vm().exception())
return {};
Function* getter_function { nullptr };
Function* setter_function { nullptr };
if (getter.is_function()) {
getter_function = &getter.as_function();
} else if (!getter.is_undefined()) {
interpreter().vm().throw_exception<TypeError>(global_object(), ErrorType::AccessorBadField, "get");
return false;
}
if (setter.is_function()) {
setter_function = &setter.as_function();
} else if (!setter.is_undefined()) {
interpreter().vm().throw_exception<TypeError>(global_object(), ErrorType::AccessorBadField, "set");
return false;
}
#ifdef OBJECT_DEBUG
dbg() << "Defining new property " << property_name.to_display_string() << " with accessor descriptor { attributes=" << attributes << ", "
<< "getter=" << getter.to_string_without_side_effects() << ", "
<< "setter=" << setter.to_string_without_side_effects() << "}";
#endif
return define_property(property_name, Accessor::create(interpreter(), getter_function, setter_function), attributes, throw_exceptions);
}
auto value = descriptor.get("value");
if (vm().exception())
return {};
if (descriptor.has_property("writable")) {
attributes.set_has_writable();
if (descriptor.get("writable").value_or(Value(false)).to_boolean())
attributes.set_writable();
if (vm().exception())
return false;
}
if (vm().exception())
return {};
#ifdef OBJECT_DEBUG
dbg() << "Defining new property " << property_name.to_display_string() << " with data descriptor { attributes=" << attributes
<< ", value=" << (value.is_empty() ? "<empty>" : value.to_string_without_side_effects()) << " }";
#endif
return define_property(property_name, value, attributes, throw_exceptions);
}
bool Object::define_property(const PropertyName& property_name, Value value, PropertyAttributes attributes, bool throw_exceptions)
{
if (property_name.is_number())
return put_own_property_by_index(*this, property_name.as_number(), value, attributes, PutOwnPropertyMode::DefineProperty, throw_exceptions);
if (property_name.is_string()) {
i32 property_index = property_name.as_string().to_int().value_or(-1);
if (property_index >= 0)
return put_own_property_by_index(*this, property_index, value, attributes, PutOwnPropertyMode::DefineProperty, throw_exceptions);
}
return put_own_property(*this, property_name.to_string_or_symbol(), value, attributes, PutOwnPropertyMode::DefineProperty, throw_exceptions);
}
bool Object::define_accessor(const PropertyName& property_name, Function& getter_or_setter, bool is_getter, PropertyAttributes attributes, bool throw_exceptions)
{
Accessor* accessor { nullptr };
auto property_metadata = shape().lookup(property_name.to_string_or_symbol());
if (property_metadata.has_value()) {
auto existing_property = get_direct(property_metadata.value().offset);
if (existing_property.is_accessor())
accessor = &existing_property.as_accessor();
}
if (!accessor) {
accessor = Accessor::create(interpreter(), nullptr, nullptr);
bool definition_success = define_property(property_name, accessor, attributes, throw_exceptions);
if (vm().exception())
return {};
if (!definition_success)
return false;
}
if (is_getter)
accessor->set_getter(&getter_or_setter);
else
accessor->set_setter(&getter_or_setter);
return true;
}
bool Object::put_own_property(Object& this_object, const StringOrSymbol& property_name, Value value, PropertyAttributes attributes, PutOwnPropertyMode mode, bool throw_exceptions)
{
ASSERT(!(mode == PutOwnPropertyMode::Put && value.is_accessor()));
auto metadata = shape().lookup(property_name);
bool new_property = !metadata.has_value();
if (!is_extensible() && new_property) {
#ifdef OBJECT_DEBUG
dbg() << "Disallow define_property of non-extensible object";
#endif
if (throw_exceptions && interpreter().in_strict_mode())
interpreter().vm().throw_exception<TypeError>(global_object(), ErrorType::NonExtensibleDefine, property_name.to_display_string().characters());
return false;
}
if (value.is_accessor()) {
auto& accessor = value.as_accessor();
if (accessor.getter())
attributes.set_has_getter();
if (accessor.setter())
attributes.set_has_setter();
}
if (new_property) {
if (!m_shape->is_unique() && shape().property_count() > 100) {
// If you add more than 100 properties to an object, let's stop doing
// transitions to avoid filling up the heap with shapes.
ensure_shape_is_unique();
}
if (m_shape->is_unique()) {
m_shape->add_property_to_unique_shape(property_name, attributes);
m_storage.resize(m_shape->property_count());
} else {
set_shape(*m_shape->create_put_transition(property_name, attributes));
}
metadata = shape().lookup(property_name);
ASSERT(metadata.has_value());
}
if (!new_property && mode == PutOwnPropertyMode::DefineProperty && !metadata.value().attributes.is_configurable() && attributes != metadata.value().attributes) {
#ifdef OBJECT_DEBUG
dbg() << "Disallow reconfig of non-configurable property";
#endif
if (throw_exceptions)
interpreter().vm().throw_exception<TypeError>(global_object(), ErrorType::DescChangeNonConfigurable, property_name.to_display_string().characters());
return false;
}
if (mode == PutOwnPropertyMode::DefineProperty && attributes != metadata.value().attributes) {
if (m_shape->is_unique()) {
m_shape->reconfigure_property_in_unique_shape(property_name, attributes);
} else {
set_shape(*m_shape->create_configure_transition(property_name, attributes));
}
metadata = shape().lookup(property_name);
#ifdef OBJECT_DEBUG
dbg() << "Reconfigured property " << property_name.to_display_string() << ", new shape says offset is " << metadata.value().offset << " and my storage capacity is " << m_storage.size();
#endif
}
auto value_here = m_storage[metadata.value().offset];
if (!new_property && mode == PutOwnPropertyMode::Put && !value_here.is_accessor() && !metadata.value().attributes.is_writable()) {
#ifdef OBJECT_DEBUG
dbg() << "Disallow write to non-writable property";
#endif
return false;
}
if (value.is_empty())
return true;
if (value_here.is_native_property()) {
call_native_property_setter(const_cast<Object*>(&this_object), value_here, value);
} else {
m_storage[metadata.value().offset] = value;
}
return true;
}
bool Object::put_own_property_by_index(Object& this_object, u32 property_index, Value value, PropertyAttributes attributes, PutOwnPropertyMode mode, bool throw_exceptions)
{
ASSERT(!(mode == PutOwnPropertyMode::Put && value.is_accessor()));
auto existing_property = m_indexed_properties.get(nullptr, property_index, false);
auto new_property = !existing_property.has_value();
if (!is_extensible() && new_property) {
#ifdef OBJECT_DEBUG
dbg() << "Disallow define_property of non-extensible object";
#endif
if (throw_exceptions && interpreter().in_strict_mode())
interpreter().vm().throw_exception<TypeError>(global_object(), ErrorType::NonExtensibleDefine, property_index);
return false;
}
if (value.is_accessor()) {
auto& accessor = value.as_accessor();
if (accessor.getter())
attributes.set_has_getter();
if (accessor.setter())
attributes.set_has_setter();
}
PropertyAttributes existing_attributes = new_property ? 0 : existing_property.value().attributes;
if (!new_property && mode == PutOwnPropertyMode::DefineProperty && !existing_attributes.is_configurable() && attributes != existing_attributes) {
#ifdef OBJECT_DEBUG
dbg() << "Disallow reconfig of non-configurable property";
#endif
if (throw_exceptions)
interpreter().vm().throw_exception<TypeError>(global_object(), ErrorType::DescChangeNonConfigurable, property_index);
return false;
}
auto value_here = new_property ? Value() : existing_property.value().value;
if (!new_property && mode == PutOwnPropertyMode::Put && !value_here.is_accessor() && !existing_attributes.is_writable()) {
#ifdef OBJECT_DEBUG
dbg() << "Disallow write to non-writable property";
#endif
return false;
}
if (value.is_empty())
return true;
if (value_here.is_native_property()) {
call_native_property_setter(const_cast<Object*>(&this_object), value_here, value);
} else {
m_indexed_properties.put(&this_object, property_index, value, attributes, mode == PutOwnPropertyMode::Put);
}
return true;
}
Value Object::delete_property(const PropertyName& property_name)
{
ASSERT(property_name.is_valid());
if (property_name.is_number())
return Value(m_indexed_properties.remove(property_name.as_number()));
int property_index = property_name.as_string().to_int().value_or(-1);
if (property_index >= 0)
return Value(m_indexed_properties.remove(property_name.as_number()));
auto metadata = shape().lookup(property_name.to_string_or_symbol());
if (!metadata.has_value())
return Value(true);
if (!metadata.value().attributes.is_configurable())
return Value(false);
size_t deleted_offset = metadata.value().offset;
ensure_shape_is_unique();
shape().remove_property_from_unique_shape(property_name.to_string_or_symbol(), deleted_offset);
m_storage.remove(deleted_offset);
return Value(true);
}
void Object::ensure_shape_is_unique()
{
if (shape().is_unique())
return;
m_shape = m_shape->create_unique_clone();
}
Value Object::get_by_index(u32 property_index) const
{
const Object* object = this;
while (object) {
if (is_string_object()) {
auto& string = static_cast<const StringObject*>(this)->primitive_string().string();
if (property_index < string.length())
return js_string(heap(), string.substring(property_index, 1));
return js_undefined();
}
if (static_cast<size_t>(property_index) < object->m_indexed_properties.array_like_size()) {
auto result = object->m_indexed_properties.get(const_cast<Object*>(this), property_index);
if (vm().exception())
return {};
if (result.has_value() && !result.value().value.is_empty())
return result.value().value;
return {};
}
object = object->prototype();
if (vm().exception())
return {};
}
return {};
}
Value Object::get(const PropertyName& property_name, Value receiver) const
{
if (property_name.is_number())
return get_by_index(property_name.as_number());
if (property_name.is_string()) {
auto property_string = property_name.to_string();
i32 property_index = property_string.to_int().value_or(-1);
if (property_index >= 0)
return get_by_index(property_index);
}
const Object* object = this;
while (object) {
if (receiver.is_empty())
receiver = Value(const_cast<Object*>(this));
auto value = object->get_own_property(*this, property_name, receiver);
if (vm().exception())
return {};
if (!value.is_empty())
return value;
object = object->prototype();
if (vm().exception())
return {};
}
return {};
}
bool Object::put_by_index(u32 property_index, Value value)
{
ASSERT(!value.is_empty());
// If there's a setter in the prototype chain, we go to the setter.
// Otherwise, it goes in the own property storage.
Object* object = this;
while (object) {
auto existing_value = object->m_indexed_properties.get(nullptr, property_index, false);
if (existing_value.has_value()) {
auto value_here = existing_value.value();
if (value_here.value.is_accessor()) {
value_here.value.as_accessor().call_setter(object, value);
return true;
}
if (value_here.value.is_native_property()) {
call_native_property_setter(const_cast<Object*>(this), value_here.value, value);
return true;
}
}
object = object->prototype();
if (vm().exception())
return {};
}
return put_own_property_by_index(*this, property_index, value, default_attributes, PutOwnPropertyMode::Put);
}
bool Object::put(const PropertyName& property_name, Value value, Value receiver)
{
if (property_name.is_number())
return put_by_index(property_name.as_number(), value);
ASSERT(!value.is_empty());
if (property_name.is_string()) {
auto& property_string = property_name.as_string();
i32 property_index = property_string.to_int().value_or(-1);
if (property_index >= 0)
return put_by_index(property_index, value);
}
auto string_or_symbol = property_name.to_string_or_symbol();
// If there's a setter in the prototype chain, we go to the setter.
// Otherwise, it goes in the own property storage.
Object* object = this;
while (object) {
auto metadata = object->shape().lookup(string_or_symbol);
if (metadata.has_value()) {
auto value_here = object->m_storage[metadata.value().offset];
if (value_here.is_accessor()) {
if (receiver.is_empty())
receiver = Value(this);
value_here.as_accessor().call_setter(receiver, value);
return true;
}
if (value_here.is_native_property()) {
call_native_property_setter(const_cast<Object*>(this), value_here, value);
return true;
}
}
object = object->prototype();
if (vm().exception())
return false;
}
return put_own_property(*this, string_or_symbol, value, default_attributes, PutOwnPropertyMode::Put);
}
bool Object::define_native_function(const StringOrSymbol& property_name, AK::Function<Value(Interpreter&, GlobalObject&)> native_function, i32 length, PropertyAttributes attribute)
{
String function_name;
if (property_name.is_string()) {
function_name = property_name.as_string();
} else {
function_name = String::format("[%s]", property_name.as_symbol()->description().characters());
}
auto* function = NativeFunction::create(global_object(), function_name, move(native_function));
function->define_property("length", Value(length), Attribute::Configurable);
if (vm().exception())
return {};
function->define_property("name", js_string(heap(), function_name), Attribute::Configurable);
if (vm().exception())
return {};
return define_property(property_name, function, attribute);
}
bool Object::define_native_property(const StringOrSymbol& property_name, AK::Function<Value(Interpreter&, GlobalObject&)> getter, AK::Function<void(Interpreter&, GlobalObject&, Value)> setter, PropertyAttributes attribute)
{
return define_property(property_name, heap().allocate_without_global_object<NativeProperty>(move(getter), move(setter)), attribute);
}
void Object::visit_children(Cell::Visitor& visitor)
{
Cell::visit_children(visitor);
visitor.visit(m_shape);
for (auto& value : m_storage)
visitor.visit(value);
for (auto& value : m_indexed_properties.values_unordered())
visitor.visit(value.value);
}
bool Object::has_property(const PropertyName& property_name) const
{
const Object* object = this;
while (object) {
if (object->has_own_property(property_name))
return true;
object = object->prototype();
if (vm().exception())
return false;
}
return false;
}
bool Object::has_own_property(const PropertyName& property_name) const
{
auto has_indexed_property = [&](u32 index) -> bool {
if (is_string_object())
return index < static_cast<const StringObject*>(this)->primitive_string().string().length();
return m_indexed_properties.has_index(index);
};
if (property_name.is_number())
return has_indexed_property(property_name.as_number());
if (property_name.is_string()) {
i32 property_index = property_name.as_string().to_int().value_or(-1);
if (property_index >= 0)
return has_indexed_property(property_index);
}
return shape().lookup(property_name.to_string_or_symbol()).has_value();
}
Value Object::to_primitive(Value::PreferredType preferred_type) const
{
Value result = js_undefined();
switch (preferred_type) {
case Value::PreferredType::Default:
case Value::PreferredType::Number: {
result = value_of();
if (result.is_object()) {
result = to_string();
}
break;
}
case Value::PreferredType::String: {
result = to_string();
if (result.is_object())
result = value_of();
break;
}
}
ASSERT(!result.is_object());
return result;
}
Value Object::to_string() const
{
auto to_string_property = get("toString");
if (to_string_property.is_function()) {
auto& to_string_function = to_string_property.as_function();
auto& interpreter = const_cast<Object*>(this)->interpreter();
auto to_string_result = interpreter.call(to_string_function, const_cast<Object*>(this));
if (to_string_result.is_object())
interpreter.vm().throw_exception<TypeError>(global_object(), ErrorType::Convert, "object", "string");
if (interpreter.exception())
return {};
auto* string = to_string_result.to_primitive_string(interpreter);
if (interpreter.exception())
return {};
return string;
}
return js_string(heap(), String::format("[object %s]", class_name()));
}
Value Object::invoke(const StringOrSymbol& property_name, Optional<MarkedValueList> arguments)
{
auto& interpreter = this->interpreter();
auto property = get(property_name).value_or(js_undefined());
if (interpreter.exception())
return {};
if (!property.is_function()) {
interpreter.vm().throw_exception<TypeError>(global_object(), ErrorType::NotAFunction, property.to_string_without_side_effects().characters());
return {};
}
return interpreter.call(property.as_function(), this, move(arguments));
}
Value Object::call_native_property_getter(Object* this_object, Value property) const
{
ASSERT(property.is_native_property());
auto& call_frame = vm().push_call_frame();
call_frame.this_value = this_object;
auto result = property.as_native_property().get(interpreter(), global_object());
vm().pop_call_frame();
return result;
}
void Object::call_native_property_setter(Object* this_object, Value property, Value value) const
{
ASSERT(property.is_native_property());
auto& call_frame = vm().push_call_frame();
call_frame.this_value = this_object;
property.as_native_property().set(interpreter(), global_object(), value);
vm().pop_call_frame();
}
}