mirror of
https://github.com/LadybirdBrowser/ladybird.git
synced 2024-11-25 09:00:22 +00:00
f87041bf3a
Resulting in a massive rename across almost everywhere! Alongside the namespace change, we now have the following names: * JS::NonnullGCPtr -> GC::Ref * JS::GCPtr -> GC::Ptr * JS::HeapFunction -> GC::Function * JS::CellImpl -> GC::Cell * JS::Handle -> GC::Root
395 lines
14 KiB
C++
395 lines
14 KiB
C++
/*
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* Copyright (c) 2020-2024, Andreas Kling <andreas@ladybird.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <LibGC/DeferGC.h>
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#include <LibJS/Runtime/Shape.h>
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#include <LibJS/Runtime/VM.h>
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namespace JS {
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GC_DEFINE_ALLOCATOR(Shape);
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GC_DEFINE_ALLOCATOR(PrototypeChainValidity);
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static HashTable<GC::Ptr<Shape>> s_all_prototype_shapes;
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Shape::~Shape()
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{
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if (m_is_prototype_shape)
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s_all_prototype_shapes.remove(this);
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}
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GC::Ref<Shape> Shape::create_cacheable_dictionary_transition()
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{
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auto new_shape = heap().allocate<Shape>(m_realm);
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new_shape->m_dictionary = true;
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new_shape->m_cacheable = true;
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new_shape->m_prototype = m_prototype;
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invalidate_prototype_if_needed_for_new_prototype(new_shape);
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ensure_property_table();
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new_shape->ensure_property_table();
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(*new_shape->m_property_table) = *m_property_table;
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new_shape->m_property_count = new_shape->m_property_table->size();
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return new_shape;
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}
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GC::Ref<Shape> Shape::create_uncacheable_dictionary_transition()
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{
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auto new_shape = heap().allocate<Shape>(m_realm);
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new_shape->m_dictionary = true;
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new_shape->m_cacheable = true;
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new_shape->m_prototype = m_prototype;
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invalidate_prototype_if_needed_for_new_prototype(new_shape);
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ensure_property_table();
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new_shape->ensure_property_table();
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(*new_shape->m_property_table) = *m_property_table;
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new_shape->m_property_count = new_shape->m_property_table->size();
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return new_shape;
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}
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GC::Ptr<Shape> Shape::get_or_prune_cached_forward_transition(TransitionKey const& key)
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{
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if (m_is_prototype_shape)
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return nullptr;
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if (!m_forward_transitions)
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return nullptr;
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auto it = m_forward_transitions->find(key);
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if (it == m_forward_transitions->end())
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return nullptr;
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if (!it->value) {
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// The cached forward transition has gone stale (from garbage collection). Prune it.
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m_forward_transitions->remove(it);
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return nullptr;
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}
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return it->value.ptr();
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}
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GC::Ptr<Shape> Shape::get_or_prune_cached_delete_transition(StringOrSymbol const& key)
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{
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if (m_is_prototype_shape)
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return nullptr;
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if (!m_delete_transitions)
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return nullptr;
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auto it = m_delete_transitions->find(key);
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if (it == m_delete_transitions->end())
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return nullptr;
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if (!it->value) {
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// The cached delete transition has gone stale (from garbage collection). Prune it.
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m_delete_transitions->remove(it);
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return nullptr;
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}
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return it->value.ptr();
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}
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GC::Ptr<Shape> Shape::get_or_prune_cached_prototype_transition(Object* prototype)
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{
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if (m_is_prototype_shape)
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return nullptr;
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if (!m_prototype_transitions)
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return nullptr;
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auto it = m_prototype_transitions->find(prototype);
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if (it == m_prototype_transitions->end())
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return nullptr;
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if (!it->value) {
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// The cached prototype transition has gone stale (from garbage collection). Prune it.
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m_prototype_transitions->remove(it);
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return nullptr;
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}
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return it->value.ptr();
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}
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GC::Ref<Shape> Shape::create_put_transition(StringOrSymbol const& property_key, PropertyAttributes attributes)
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{
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TransitionKey key { property_key, attributes };
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if (auto existing_shape = get_or_prune_cached_forward_transition(key))
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return *existing_shape;
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auto new_shape = heap().allocate<Shape>(*this, property_key, attributes, TransitionType::Put);
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invalidate_prototype_if_needed_for_new_prototype(new_shape);
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if (!m_is_prototype_shape) {
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if (!m_forward_transitions)
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m_forward_transitions = make<HashMap<TransitionKey, WeakPtr<Shape>>>();
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m_forward_transitions->set(key, new_shape.ptr());
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}
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return new_shape;
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}
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GC::Ref<Shape> Shape::create_configure_transition(StringOrSymbol const& property_key, PropertyAttributes attributes)
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{
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TransitionKey key { property_key, attributes };
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if (auto existing_shape = get_or_prune_cached_forward_transition(key))
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return *existing_shape;
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auto new_shape = heap().allocate<Shape>(*this, property_key, attributes, TransitionType::Configure);
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invalidate_prototype_if_needed_for_new_prototype(new_shape);
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if (!m_is_prototype_shape) {
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if (!m_forward_transitions)
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m_forward_transitions = make<HashMap<TransitionKey, WeakPtr<Shape>>>();
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m_forward_transitions->set(key, new_shape.ptr());
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}
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return new_shape;
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}
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GC::Ref<Shape> Shape::create_prototype_transition(Object* new_prototype)
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{
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if (new_prototype)
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new_prototype->convert_to_prototype_if_needed();
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if (auto existing_shape = get_or_prune_cached_prototype_transition(new_prototype))
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return *existing_shape;
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auto new_shape = heap().allocate<Shape>(*this, new_prototype);
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invalidate_prototype_if_needed_for_new_prototype(new_shape);
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if (!m_is_prototype_shape) {
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if (!m_prototype_transitions)
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m_prototype_transitions = make<HashMap<GC::Ptr<Object>, WeakPtr<Shape>>>();
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m_prototype_transitions->set(new_prototype, new_shape.ptr());
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}
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return new_shape;
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}
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Shape::Shape(Realm& realm)
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: m_realm(realm)
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{
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}
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Shape::Shape(Shape& previous_shape, StringOrSymbol const& property_key, PropertyAttributes attributes, TransitionType transition_type)
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: m_realm(previous_shape.m_realm)
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, m_previous(&previous_shape)
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, m_property_key(property_key)
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, m_prototype(previous_shape.m_prototype)
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, m_property_count(transition_type == TransitionType::Put ? previous_shape.m_property_count + 1 : previous_shape.m_property_count)
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, m_attributes(attributes)
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, m_transition_type(transition_type)
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{
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}
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Shape::Shape(Shape& previous_shape, StringOrSymbol const& property_key, TransitionType transition_type)
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: m_realm(previous_shape.m_realm)
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, m_previous(&previous_shape)
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, m_property_key(property_key)
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, m_prototype(previous_shape.m_prototype)
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, m_property_count(previous_shape.m_property_count - 1)
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, m_transition_type(transition_type)
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{
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VERIFY(transition_type == TransitionType::Delete);
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}
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Shape::Shape(Shape& previous_shape, Object* new_prototype)
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: m_realm(previous_shape.m_realm)
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, m_previous(&previous_shape)
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, m_prototype(new_prototype)
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, m_property_count(previous_shape.m_property_count)
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, m_transition_type(TransitionType::Prototype)
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{
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}
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void Shape::visit_edges(Cell::Visitor& visitor)
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{
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Base::visit_edges(visitor);
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visitor.visit(m_realm);
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visitor.visit(m_prototype);
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visitor.visit(m_previous);
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m_property_key.visit_edges(visitor);
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// NOTE: We don't need to mark the keys in the property table, since they are guaranteed
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// to also be marked by the chain of shapes leading up to this one.
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visitor.ignore(m_prototype_transitions);
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// FIXME: The forward transition keys should be weak, but we have to mark them for now in case they go stale.
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if (m_forward_transitions) {
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for (auto& it : *m_forward_transitions)
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it.key.property_key.visit_edges(visitor);
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}
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// FIXME: The delete transition keys should be weak, but we have to mark them for now in case they go stale.
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if (m_delete_transitions) {
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for (auto& it : *m_delete_transitions)
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it.key.visit_edges(visitor);
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}
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visitor.visit(m_prototype_chain_validity);
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}
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Optional<PropertyMetadata> Shape::lookup(StringOrSymbol const& property_key) const
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{
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if (m_property_count == 0)
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return {};
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auto property = property_table().get(property_key);
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if (!property.has_value())
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return {};
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return property;
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}
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FLATTEN OrderedHashMap<StringOrSymbol, PropertyMetadata> const& Shape::property_table() const
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{
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ensure_property_table();
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return *m_property_table;
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}
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void Shape::ensure_property_table() const
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{
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if (m_property_table)
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return;
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m_property_table = make<OrderedHashMap<StringOrSymbol, PropertyMetadata>>();
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u32 next_offset = 0;
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Vector<Shape const&, 64> transition_chain;
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transition_chain.append(*this);
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for (auto shape = m_previous; shape; shape = shape->m_previous) {
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if (shape->m_property_table) {
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*m_property_table = *shape->m_property_table;
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next_offset = shape->m_property_count;
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break;
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}
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transition_chain.append(*shape);
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}
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for (auto const& shape : transition_chain.in_reverse()) {
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if (!shape.m_property_key.is_valid()) {
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// Ignore prototype transitions as they don't affect the key map.
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continue;
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}
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if (shape.m_transition_type == TransitionType::Put) {
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m_property_table->set(shape.m_property_key, { next_offset++, shape.m_attributes });
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} else if (shape.m_transition_type == TransitionType::Configure) {
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auto it = m_property_table->find(shape.m_property_key);
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VERIFY(it != m_property_table->end());
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it->value.attributes = shape.m_attributes;
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} else if (shape.m_transition_type == TransitionType::Delete) {
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auto remove_it = m_property_table->find(shape.m_property_key);
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VERIFY(remove_it != m_property_table->end());
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auto removed_offset = remove_it->value.offset;
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m_property_table->remove(remove_it);
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for (auto& it : *m_property_table) {
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if (it.value.offset > removed_offset)
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--it.value.offset;
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}
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--next_offset;
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}
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}
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}
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GC::Ref<Shape> Shape::create_delete_transition(StringOrSymbol const& property_key)
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{
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if (auto existing_shape = get_or_prune_cached_delete_transition(property_key))
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return *existing_shape;
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auto new_shape = heap().allocate<Shape>(*this, property_key, TransitionType::Delete);
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invalidate_prototype_if_needed_for_new_prototype(new_shape);
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if (!m_delete_transitions)
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m_delete_transitions = make<HashMap<StringOrSymbol, WeakPtr<Shape>>>();
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m_delete_transitions->set(property_key, new_shape.ptr());
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return new_shape;
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}
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void Shape::add_property_without_transition(StringOrSymbol const& property_key, PropertyAttributes attributes)
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{
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ensure_property_table();
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if (m_property_table->set(property_key, { m_property_count, attributes }) == AK::HashSetResult::InsertedNewEntry) {
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VERIFY(m_property_count < NumericLimits<u32>::max());
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++m_property_count;
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}
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}
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FLATTEN void Shape::add_property_without_transition(PropertyKey const& property_key, PropertyAttributes attributes)
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{
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add_property_without_transition(property_key.to_string_or_symbol(), attributes);
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}
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void Shape::set_property_attributes_without_transition(StringOrSymbol const& property_key, PropertyAttributes attributes)
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{
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VERIFY(is_dictionary());
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VERIFY(m_property_table);
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auto it = m_property_table->find(property_key);
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VERIFY(it != m_property_table->end());
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it->value.attributes = attributes;
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m_property_table->set(property_key, it->value);
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}
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void Shape::remove_property_without_transition(StringOrSymbol const& property_key, u32 offset)
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{
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VERIFY(is_uncacheable_dictionary());
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VERIFY(m_property_table);
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if (m_property_table->remove(property_key))
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--m_property_count;
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for (auto& it : *m_property_table) {
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VERIFY(it.value.offset != offset);
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if (it.value.offset > offset)
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--it.value.offset;
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}
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}
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GC::Ref<Shape> Shape::create_for_prototype(GC::Ref<Realm> realm, GC::Ptr<Object> prototype)
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{
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auto new_shape = realm->heap().allocate<Shape>(realm);
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s_all_prototype_shapes.set(new_shape);
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new_shape->m_is_prototype_shape = true;
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new_shape->m_prototype = prototype;
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new_shape->m_prototype_chain_validity = realm->heap().allocate<PrototypeChainValidity>();
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return new_shape;
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}
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GC::Ref<Shape> Shape::clone_for_prototype()
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{
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VERIFY(!m_is_prototype_shape);
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VERIFY(!m_prototype_chain_validity);
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auto new_shape = heap().allocate<Shape>(m_realm);
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s_all_prototype_shapes.set(new_shape);
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new_shape->m_is_prototype_shape = true;
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new_shape->m_prototype = m_prototype;
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ensure_property_table();
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new_shape->ensure_property_table();
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(*new_shape->m_property_table) = *m_property_table;
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new_shape->m_property_count = new_shape->m_property_table->size();
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new_shape->m_prototype_chain_validity = heap().allocate<PrototypeChainValidity>();
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return new_shape;
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}
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void Shape::set_prototype_without_transition(Object* new_prototype)
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{
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VERIFY(new_prototype);
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new_prototype->convert_to_prototype_if_needed();
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m_prototype = new_prototype;
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}
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void Shape::set_prototype_shape()
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{
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VERIFY(!m_is_prototype_shape);
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s_all_prototype_shapes.set(this);
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m_is_prototype_shape = true;
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m_prototype_chain_validity = heap().allocate<PrototypeChainValidity>();
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}
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void Shape::invalidate_prototype_if_needed_for_new_prototype(GC::Ref<Shape> new_prototype_shape)
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{
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if (!m_is_prototype_shape)
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return;
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new_prototype_shape->set_prototype_shape();
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m_prototype_chain_validity->set_valid(false);
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invalidate_all_prototype_chains_leading_to_this();
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}
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void Shape::invalidate_all_prototype_chains_leading_to_this()
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{
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HashTable<Shape*> shapes_to_invalidate;
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for (auto& candidate : s_all_prototype_shapes) {
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if (!candidate->m_prototype)
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continue;
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for (auto* current_prototype_shape = &candidate->m_prototype->shape(); current_prototype_shape; current_prototype_shape = current_prototype_shape->prototype() ? ¤t_prototype_shape->prototype()->shape() : nullptr) {
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if (current_prototype_shape == this) {
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VERIFY(candidate->m_is_prototype_shape);
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shapes_to_invalidate.set(candidate);
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break;
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}
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}
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}
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if (shapes_to_invalidate.is_empty())
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return;
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for (auto* shape : shapes_to_invalidate) {
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shape->m_prototype_chain_validity->set_valid(false);
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shape->m_prototype_chain_validity = heap().allocate<PrototypeChainValidity>();
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}
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}
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}
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