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bad44f8fc9
This was resulting in a whole lot of rebuilding whenever a new IDL interface was added. Instead, just directly include the prototype in every C++ file which needs it. While we only really need a forward declaration in each cpp file; including the full prototype header (which itself only includes LibJS/Object.h, which is already transitively brought in by PlatformObject) - it seems like a small price to pay compared to what feels like a full rebuild of LibWeb whenever a new IDL file is added. Given all of these includes are only needed for the ::initialize method, there is probably a smart way of avoiding this problem altogether. I've considered both using some macro trickery or generating these functions somehow instead.
202 lines
8.3 KiB
C++
202 lines
8.3 KiB
C++
/*
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* Copyright (c) 2022, Luke Wilde <lukew@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <LibWeb/Bindings/Intrinsics.h>
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#include <LibWeb/Bindings/MainThreadVM.h>
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#include <LibWeb/Bindings/MutationObserverPrototype.h>
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#include <LibWeb/DOM/MutationObserver.h>
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#include <LibWeb/DOM/Node.h>
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namespace Web::DOM {
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JS_DEFINE_ALLOCATOR(MutationObserver);
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JS_DEFINE_ALLOCATOR(TransientRegisteredObserver);
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WebIDL::ExceptionOr<JS::NonnullGCPtr<MutationObserver>> MutationObserver::construct_impl(JS::Realm& realm, JS::GCPtr<WebIDL::CallbackType> callback)
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{
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return realm.heap().allocate<MutationObserver>(realm, realm, callback);
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}
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// https://dom.spec.whatwg.org/#dom-mutationobserver-mutationobserver
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MutationObserver::MutationObserver(JS::Realm& realm, JS::GCPtr<WebIDL::CallbackType> callback)
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: PlatformObject(realm)
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, m_callback(move(callback))
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{
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// 1. Set this’s callback to callback.
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// 2. Append this to this’s relevant agent’s mutation observers.
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auto* agent_custom_data = verify_cast<Bindings::WebEngineCustomData>(realm.vm().custom_data());
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agent_custom_data->mutation_observers.append(*this);
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}
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MutationObserver::~MutationObserver()
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{
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auto* agent_custom_data = verify_cast<Bindings::WebEngineCustomData>(vm().custom_data());
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agent_custom_data->mutation_observers.remove_all_matching([this](auto& observer) {
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return observer.ptr() == this;
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});
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}
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void MutationObserver::initialize(JS::Realm& realm)
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{
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Base::initialize(realm);
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WEB_SET_PROTOTYPE_FOR_INTERFACE(MutationObserver);
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}
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void MutationObserver::visit_edges(Cell::Visitor& visitor)
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{
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Base::visit_edges(visitor);
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visitor.visit(m_callback);
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visitor.visit(m_record_queue);
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}
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// https://dom.spec.whatwg.org/#dom-mutationobserver-observe
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WebIDL::ExceptionOr<void> MutationObserver::observe(Node& target, MutationObserverInit options)
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{
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// 1. If either options["attributeOldValue"] or options["attributeFilter"] exists, and options["attributes"] does not exist, then set options["attributes"] to true.
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if ((options.attribute_old_value.has_value() || options.attribute_filter.has_value()) && !options.attributes.has_value())
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options.attributes = true;
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// 2. If options["characterDataOldValue"] exists and options["characterData"] does not exist, then set options["characterData"] to true.
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if (options.character_data_old_value.has_value() && !options.character_data.has_value())
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options.character_data = true;
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// 3. If none of options["childList"], options["attributes"], and options["characterData"] is true, then throw a TypeError.
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if (!options.child_list && (!options.attributes.has_value() || !options.attributes.value()) && (!options.character_data.has_value() || !options.character_data.value()))
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return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, "Options must have one of childList, attributes or characterData set to true."sv };
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// 4. If options["attributeOldValue"] is true and options["attributes"] is false, then throw a TypeError.
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// NOTE: If attributeOldValue is present, attributes will be present because of step 1.
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if (options.attribute_old_value.has_value() && options.attribute_old_value.value() && !options.attributes.value())
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return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, "attributes must be true if attributeOldValue is true."sv };
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// 5. If options["attributeFilter"] is present and options["attributes"] is false, then throw a TypeError.
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// NOTE: If attributeFilter is present, attributes will be present because of step 1.
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if (options.attribute_filter.has_value() && !options.attributes.value())
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return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, "attributes must be true if attributeFilter is present."sv };
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// 6. If options["characterDataOldValue"] is true and options["characterData"] is false, then throw a TypeError.
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// NOTE: If characterDataOldValue is present, characterData will be present because of step 2.
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if (options.character_data_old_value.has_value() && options.character_data_old_value.value() && !options.character_data.value())
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return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, "characterData must be true if characterDataOldValue is true."sv };
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// 7. For each registered of target’s registered observer list, if registered’s observer is this:
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bool updated_existing_observer = false;
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if (target.registered_observer_list()) {
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for (auto& registered_observer : *target.registered_observer_list()) {
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if (registered_observer->observer().ptr() != this)
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continue;
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updated_existing_observer = true;
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// 1. For each node of this’s node list, remove all transient registered observers whose source is registered from node’s registered observer list.
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for (auto& node : m_node_list) {
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// FIXME: Is this correct?
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if (node.is_null())
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continue;
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if (node->registered_observer_list()) {
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node->registered_observer_list()->remove_all_matching([®istered_observer](RegisteredObserver& observer) {
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return is<TransientRegisteredObserver>(observer) && verify_cast<TransientRegisteredObserver>(observer).source().ptr() == registered_observer;
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});
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}
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}
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// 2. Set registered’s options to options.
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registered_observer->set_options(options);
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break;
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}
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}
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// 8. Otherwise:
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if (!updated_existing_observer) {
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// 1. Append a new registered observer whose observer is this and options is options to target’s registered observer list.
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auto new_registered_observer = RegisteredObserver::create(*this, options);
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target.add_registered_observer(new_registered_observer);
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// 2. Append target to this’s node list.
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m_node_list.append(target.make_weak_ptr<Node>());
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}
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return {};
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}
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// https://dom.spec.whatwg.org/#dom-mutationobserver-disconnect
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void MutationObserver::disconnect()
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{
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// 1. For each node of this’s node list, remove any registered observer from node’s registered observer list for which this is the observer.
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for (auto& node : m_node_list) {
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// FIXME: Is this correct?
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if (node.is_null())
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continue;
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if (node->registered_observer_list()) {
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node->registered_observer_list()->remove_all_matching([this](RegisteredObserver& registered_observer) {
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return registered_observer.observer().ptr() == this;
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});
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}
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}
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// 2. Empty this’s record queue.
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m_record_queue.clear();
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}
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// https://dom.spec.whatwg.org/#dom-mutationobserver-takerecords
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Vector<JS::Handle<MutationRecord>> MutationObserver::take_records()
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{
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// 1. Let records be a clone of this’s record queue.
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Vector<JS::Handle<MutationRecord>> records;
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for (auto& record : m_record_queue)
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records.append(*record);
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// 2. Empty this’s record queue.
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m_record_queue.clear();
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// 3. Return records.
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return records;
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}
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JS::NonnullGCPtr<RegisteredObserver> RegisteredObserver::create(MutationObserver& observer, MutationObserverInit const& options)
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{
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return observer.heap().allocate_without_realm<RegisteredObserver>(observer, options);
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}
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RegisteredObserver::RegisteredObserver(MutationObserver& observer, MutationObserverInit const& options)
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: m_observer(observer)
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, m_options(options)
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{
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}
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RegisteredObserver::~RegisteredObserver() = default;
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void RegisteredObserver::visit_edges(Cell::Visitor& visitor)
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{
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Base::visit_edges(visitor);
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visitor.visit(m_observer);
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}
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JS::NonnullGCPtr<TransientRegisteredObserver> TransientRegisteredObserver::create(MutationObserver& observer, MutationObserverInit const& options, RegisteredObserver& source)
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{
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return observer.heap().allocate_without_realm<TransientRegisteredObserver>(observer, options, source);
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}
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TransientRegisteredObserver::TransientRegisteredObserver(MutationObserver& observer, MutationObserverInit const& options, RegisteredObserver& source)
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: RegisteredObserver(observer, options)
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, m_source(source)
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{
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}
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TransientRegisteredObserver::~TransientRegisteredObserver() = default;
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void TransientRegisteredObserver::visit_edges(Cell::Visitor& visitor)
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{
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Base::visit_edges(visitor);
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visitor.visit(m_source);
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}
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}
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