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ladybird/Libraries/LibJS/Runtime/Object.cpp
mattco98 23ec578a01 LibJS: Implement correct attributes for (almost) all properties 
Added the ability to include a u8 attributes parameter with all of the
various put methods in the Object class. They can be omitted, in which
case it defaults to "Writable | Enumerable | Configurable", just like
before this commit.

All of the attribute values for each property were gathered from
SpiderMonkey in the Firefox console. Some properties (e.g. all of the
canvas element properties) have undefined property descriptors... not
quite sure what that means. Those were left as the default specified
above.
2020-04-28 09:29:50 +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/String.h>
#include <LibJS/Heap/Heap.h>
#include <LibJS/Interpreter.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/Value.h>
namespace JS {
Object* Object::create_empty(Interpreter&, GlobalObject& global_object)
{
return global_object.heap().allocate<Object>(global_object.object_prototype());
}
Object::Object(Object* prototype)
{
if (prototype) {
m_shape = interpreter().global_object().empty_object_shape();
set_prototype(prototype);
} else {
m_shape = interpreter().heap().allocate<Shape>();
}
}
Object::~Object()
{
}
Object* Object::prototype()
{
return shape().prototype();
}
const Object* Object::prototype() const
{
return shape().prototype();
}
void Object::set_prototype(Object* new_prototype)
{
if (prototype() == new_prototype)
return;
if (shape().is_unique()) {
shape().set_prototype_without_transition(new_prototype);
return;
}
m_shape = m_shape->create_prototype_transition(new_prototype);
}
bool Object::has_prototype(const Object* prototype) const
{
for (auto* object = this->prototype(); object; object = object->prototype()) {
if (object == prototype)
return true;
}
return false;
}
Value Object::get_own_property(const Object& this_object, const FlyString& property_name) const
{
auto metadata = shape().lookup(property_name);
if (!metadata.has_value())
return {};
auto value_here = m_storage[metadata.value().offset];
ASSERT(!value_here.is_empty());
if (value_here.is_object() && value_here.as_object().is_native_property()) {
auto& native_property = static_cast<const NativeProperty&>(value_here.as_object());
auto& interpreter = const_cast<Object*>(this)->interpreter();
auto& call_frame = interpreter.push_call_frame();
call_frame.this_value = const_cast<Object*>(&this_object);
auto result = native_property.get(interpreter);
interpreter.pop_call_frame();
return result;
}
return value_here;
}
void Object::set_shape(Shape& new_shape)
{
m_storage.resize(new_shape.property_count());
m_shape = &new_shape;
}
void Object::put_own_property(Object& this_object, const FlyString& property_name, u8 attributes, Value value, PutOwnPropertyMode mode)
{
auto metadata = shape().lookup(property_name);
bool new_property = !metadata.has_value();
if (new_property) {
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 & Attribute::Configurable) && attributes != metadata.value().attributes) {
dbg() << "Disallow reconfig of non-configurable property";
interpreter().throw_exception<TypeError>(String::format("Cannot redefine property '%s'", property_name.characters()));
return;
}
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);
dbg() << "Reconfigured property " << property_name << ", new shape says offset is " << metadata.value().offset << " and my storage capacity is " << m_storage.size();
}
if (!new_property && mode == PutOwnPropertyMode::Put && !(metadata.value().attributes & Attribute::Writable)) {
dbg() << "Disallow write to non-writable property";
return;
}
if (value.is_empty())
return;
auto value_here = m_storage[metadata.value().offset];
if (value_here.is_object() && value_here.as_object().is_native_property()) {
auto& native_property = static_cast<NativeProperty&>(value_here.as_object());
auto& interpreter = const_cast<Object*>(this)->interpreter();
auto& call_frame = interpreter.push_call_frame();
call_frame.this_value = &this_object;
native_property.set(interpreter, value);
interpreter.pop_call_frame();
} else {
m_storage[metadata.value().offset] = value;
}
}
Value Object::delete_property(PropertyName property_name)
{
ASSERT(property_name.is_valid());
if (property_name.is_number()) {
if (property_name.as_number() < static_cast<i32>(elements().size())) {
elements()[property_name.as_number()] = {};
return Value(true);
}
return Value(true);
}
auto metadata = shape().lookup(property_name.as_string());
if (!metadata.has_value())
return Value(true);
if (!(metadata.value().attributes & Attribute::Configurable))
return Value(false);
size_t deleted_offset = metadata.value().offset;
ensure_shape_is_unique();
shape().remove_property_from_unique_shape(property_name.as_string(), 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(i32 property_index) const
{
if (property_index < 0)
return get(String::number(property_index));
const Object* object = this;
while (object) {
if (static_cast<size_t>(property_index) < object->m_elements.size()) {
auto value = object->m_elements[property_index];
if (value.is_empty())
return {};
return value;
}
object = object->prototype();
}
return {};
}
Value Object::get(const FlyString& property_name) const
{
bool ok;
i32 property_index = property_name.to_int(ok);
if (ok && property_index >= 0)
return get_by_index(property_index);
const Object* object = this;
while (object) {
auto value = object->get_own_property(*this, property_name);
if (!value.is_empty())
return value;
object = object->prototype();
}
return {};
}
Value Object::get(PropertyName property_name) const
{
if (property_name.is_number())
return get_by_index(property_name.as_number());
return get(property_name.as_string());
}
void Object::put_by_index(i32 property_index, Value value, u8 attributes)
{
ASSERT(!value.is_empty());
if (property_index < 0)
return put(String::number(property_index), value, attributes);
// FIXME: Implement some kind of sparse storage for arrays with huge indices.
// Also: Take attributes into account here
if (static_cast<size_t>(property_index) >= m_elements.size())
m_elements.resize(property_index + 1);
m_elements[property_index] = value;
}
void Object::put(const FlyString& property_name, Value value, u8 attributes)
{
ASSERT(!value.is_empty());
bool ok;
i32 property_index = property_name.to_int(ok);
if (ok && property_index >= 0)
return put_by_index(property_index, value, attributes);
// 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(property_name);
if (metadata.has_value()) {
auto value_here = object->m_storage[metadata.value().offset];
if (value_here.is_object() && value_here.as_object().is_native_property()) {
auto& native_property = static_cast<NativeProperty&>(value_here.as_object());
auto& interpreter = const_cast<Object*>(this)->interpreter();
auto& call_frame = interpreter.push_call_frame();
call_frame.this_value = this;
native_property.set(interpreter, value);
interpreter.pop_call_frame();
return;
}
}
object = object->prototype();
}
put_own_property(*this, property_name, attributes, value, PutOwnPropertyMode::Put);
}
void Object::put(PropertyName property_name, Value value, u8 attributes)
{
if (property_name.is_number())
return put_by_index(property_name.as_number(), value, attributes);
return put(property_name.as_string(), value, attributes);
}
void Object::put_native_function(const FlyString& property_name, AK::Function<Value(Interpreter&)> native_function, i32 length, u8 attributes)
{
auto* function = NativeFunction::create(interpreter(), interpreter().global_object(), property_name, move(native_function));
function->put("length", Value(length), Attribute::Configurable);
put(property_name, function, attributes);
}
void Object::put_native_property(const FlyString& property_name, AK::Function<Value(Interpreter&)> getter, AK::Function<void(Interpreter&, Value)> setter, u8 attributes)
{
put(property_name, heap().allocate<NativeProperty>(move(getter), move(setter)), attributes);
}
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_elements)
visitor.visit(value);
}
bool Object::has_own_property(const FlyString& property_name) const
{
bool ok;
i32 property_index = property_name.to_int(ok);
if (ok && property_index >= 0) {
if (static_cast<size_t>(property_index) >= m_elements.size())
return false;
return !m_elements[property_index].is_empty();
}
return shape().lookup(property_name).has_value();
}
Value Object::to_primitive(PreferredType preferred_type) const
{
Value result = js_undefined();
switch (preferred_type) {
case PreferredType::Default:
case PreferredType::Number: {
result = value_of();
if (result.is_object()) {
result = to_string();
}
break;
}
case 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_empty()
&& to_string_property.is_object()
&& to_string_property.as_object().is_function()) {
auto& to_string_function = static_cast<Function&>(to_string_property.as_object());
return const_cast<Object*>(this)->interpreter().call(&to_string_function, const_cast<Object*>(this));
}
return js_string(heap(), String::format("[object %s]", class_name()));
}
}
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