/* * Copyright (c) 2018-2023, Andreas Kling * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace Web::DOM { Element::Element(Document& document, DOM::QualifiedName qualified_name) : ParentNode(document, NodeType::ELEMENT_NODE) , m_qualified_name(move(qualified_name)) { make_html_uppercased_qualified_name(); } Element::~Element() = default; JS::ThrowCompletionOr Element::initialize(JS::Realm& realm) { MUST_OR_THROW_OOM(Base::initialize(realm)); set_prototype(&Bindings::ensure_web_prototype(realm, "Element")); m_attributes = TRY(Bindings::throw_dom_exception_if_needed(realm.vm(), [&]() { return NamedNodeMap::create(*this); })); return {}; } void Element::visit_edges(Cell::Visitor& visitor) { Base::visit_edges(visitor); visitor.visit(m_attributes.ptr()); visitor.visit(m_inline_style.ptr()); visitor.visit(m_class_list.ptr()); visitor.visit(m_shadow_root.ptr()); visitor.visit(m_custom_element_definition.ptr()); for (auto& pseudo_element_layout_node : m_pseudo_element_nodes) visitor.visit(pseudo_element_layout_node); } // https://dom.spec.whatwg.org/#dom-element-getattribute DeprecatedString Element::get_attribute(DeprecatedFlyString const& name) const { // 1. Let attr be the result of getting an attribute given qualifiedName and this. auto const* attribute = m_attributes->get_attribute(name); // 2. If attr is null, return null. if (!attribute) return {}; // 3. Return attr’s value. return attribute->value(); } // https://dom.spec.whatwg.org/#dom-element-getattributenode JS::GCPtr Element::get_attribute_node(DeprecatedFlyString const& name) const { // The getAttributeNode(qualifiedName) method steps are to return the result of getting an attribute given qualifiedName and this. return m_attributes->get_attribute(name); } // https://dom.spec.whatwg.org/#dom-element-setattribute WebIDL::ExceptionOr Element::set_attribute(DeprecatedFlyString const& name, DeprecatedString const& value) { // 1. If qualifiedName does not match the Name production in XML, then throw an "InvalidCharacterError" DOMException. // FIXME: Proper name validation if (name.is_empty()) return WebIDL::InvalidCharacterError::create(realm(), "Attribute name must not be empty"); // 2. If this is in the HTML namespace and its node document is an HTML document, then set qualifiedName to qualifiedName in ASCII lowercase. // FIXME: Handle the second condition, assume it is an HTML document for now. bool insert_as_lowercase = namespace_uri() == Namespace::HTML; // 3. Let attribute be the first attribute in this’s attribute list whose qualified name is qualifiedName, and null otherwise. auto* attribute = m_attributes->get_attribute(name); // 4. If attribute is null, create an attribute whose local name is qualifiedName, value is value, and node document is this’s node document, then append this attribute to this, and then return. if (!attribute) { auto new_attribute = TRY(Attr::create(document(), insert_as_lowercase ? name.to_lowercase() : name, value)); m_attributes->append_attribute(new_attribute); attribute = new_attribute.ptr(); } // 5. Change attribute to value. else { attribute->set_value(value); } parse_attribute(attribute->local_name(), value); invalidate_style_after_attribute_change(name); return {}; } // https://dom.spec.whatwg.org/#validate-and-extract WebIDL::ExceptionOr validate_and_extract(JS::Realm& realm, DeprecatedFlyString namespace_, DeprecatedFlyString qualified_name) { // 1. If namespace is the empty string, then set it to null. if (namespace_.is_empty()) namespace_ = {}; // 2. Validate qualifiedName. TRY(Document::validate_qualified_name(realm, qualified_name)); // 3. Let prefix be null. DeprecatedFlyString prefix = {}; // 4. Let localName be qualifiedName. auto local_name = qualified_name; // 5. If qualifiedName contains a U+003A (:), then strictly split the string on it and set prefix to the part before and localName to the part after. if (qualified_name.view().contains(':')) { auto parts = qualified_name.view().split_view(':'); prefix = parts[0]; local_name = parts[1]; } // 6. If prefix is non-null and namespace is null, then throw a "NamespaceError" DOMException. if (!prefix.is_null() && namespace_.is_null()) return WebIDL::NamespaceError::create(realm, "Prefix is non-null and namespace is null."); // 7. If prefix is "xml" and namespace is not the XML namespace, then throw a "NamespaceError" DOMException. if (prefix == "xml"sv && namespace_ != Namespace::XML) return WebIDL::NamespaceError::create(realm, "Prefix is 'xml' and namespace is not the XML namespace."); // 8. If either qualifiedName or prefix is "xmlns" and namespace is not the XMLNS namespace, then throw a "NamespaceError" DOMException. if ((qualified_name == "xmlns"sv || prefix == "xmlns"sv) && namespace_ != Namespace::XMLNS) return WebIDL::NamespaceError::create(realm, "Either qualifiedName or prefix is 'xmlns' and namespace is not the XMLNS namespace."); // 9. If namespace is the XMLNS namespace and neither qualifiedName nor prefix is "xmlns", then throw a "NamespaceError" DOMException. if (namespace_ == Namespace::XMLNS && !(qualified_name == "xmlns"sv || prefix == "xmlns"sv)) return WebIDL::NamespaceError::create(realm, "Namespace is the XMLNS namespace and neither qualifiedName nor prefix is 'xmlns'."); // 10. Return namespace, prefix, and localName. return QualifiedName { local_name, prefix, namespace_ }; } // https://dom.spec.whatwg.org/#dom-element-setattributens WebIDL::ExceptionOr Element::set_attribute_ns(DeprecatedFlyString const& namespace_, DeprecatedFlyString const& qualified_name, DeprecatedString const& value) { // 1. Let namespace, prefix, and localName be the result of passing namespace and qualifiedName to validate and extract. auto extracted_qualified_name = TRY(validate_and_extract(realm(), namespace_, qualified_name)); // FIXME: 2. Set an attribute value for this using localName, value, and also prefix and namespace. // FIXME: Don't just call through to setAttribute() here. return set_attribute(extracted_qualified_name.local_name(), value); } // https://dom.spec.whatwg.org/#dom-element-setattributenode WebIDL::ExceptionOr> Element::set_attribute_node(Attr& attr) { // The setAttributeNode(attr) and setAttributeNodeNS(attr) methods steps are to return the result of setting an attribute given attr and this. return m_attributes->set_attribute(attr); } // https://dom.spec.whatwg.org/#dom-element-setattributenodens WebIDL::ExceptionOr> Element::set_attribute_node_ns(Attr& attr) { // The setAttributeNode(attr) and setAttributeNodeNS(attr) methods steps are to return the result of setting an attribute given attr and this. return m_attributes->set_attribute(attr); } // https://dom.spec.whatwg.org/#dom-element-removeattribute void Element::remove_attribute(DeprecatedFlyString const& name) { m_attributes->remove_attribute(name); did_remove_attribute(name); invalidate_style_after_attribute_change(name); } // https://dom.spec.whatwg.org/#dom-element-hasattribute bool Element::has_attribute(DeprecatedFlyString const& name) const { return m_attributes->get_attribute(name) != nullptr; } // https://dom.spec.whatwg.org/#dom-element-toggleattribute WebIDL::ExceptionOr Element::toggle_attribute(DeprecatedFlyString const& name, Optional force) { // 1. If qualifiedName does not match the Name production in XML, then throw an "InvalidCharacterError" DOMException. // FIXME: Proper name validation if (name.is_empty()) return WebIDL::InvalidCharacterError::create(realm(), "Attribute name must not be empty"); // 2. If this is in the HTML namespace and its node document is an HTML document, then set qualifiedName to qualifiedName in ASCII lowercase. // FIXME: Handle the second condition, assume it is an HTML document for now. bool insert_as_lowercase = namespace_uri() == Namespace::HTML; // 3. Let attribute be the first attribute in this’s attribute list whose qualified name is qualifiedName, and null otherwise. auto* attribute = m_attributes->get_attribute(name); // 4. If attribute is null, then: if (!attribute) { // 1. If force is not given or is true, create an attribute whose local name is qualifiedName, value is the empty string, and node document is this’s node document, then append this attribute to this, and then return true. if (!force.has_value() || force.value()) { auto new_attribute = TRY(Attr::create(document(), insert_as_lowercase ? name.to_lowercase() : name, "")); m_attributes->append_attribute(new_attribute); parse_attribute(new_attribute->local_name(), ""); invalidate_style_after_attribute_change(name); return true; } // 2. Return false. return false; } // 5. Otherwise, if force is not given or is false, remove an attribute given qualifiedName and this, and then return false. if (!force.has_value() || !force.value()) { m_attributes->remove_attribute(name); did_remove_attribute(name); invalidate_style_after_attribute_change(name); } // 6. Return true. return true; } // https://dom.spec.whatwg.org/#dom-element-getattributenames Vector Element::get_attribute_names() const { // The getAttributeNames() method steps are to return the qualified names of the attributes in this’s attribute list, in order; otherwise a new list. Vector names; for (size_t i = 0; i < m_attributes->length(); ++i) { auto const* attribute = m_attributes->item(i); names.append(attribute->name()); } return names; } bool Element::has_class(FlyString const& class_name, CaseSensitivity case_sensitivity) const { if (case_sensitivity == CaseSensitivity::CaseSensitive) { return any_of(m_classes, [&](auto& it) { return it == class_name; }); } else { return any_of(m_classes, [&](auto& it) { return it.equals_ignoring_ascii_case(class_name); }); } } JS::GCPtr Element::create_layout_node(NonnullRefPtr style) { if (local_name() == "noscript" && document().is_scripting_enabled()) return nullptr; auto display = style->display(); return create_layout_node_for_display_type(document(), display, move(style), this); } JS::GCPtr Element::create_layout_node_for_display_type(DOM::Document& document, CSS::Display const& display, NonnullRefPtr style, Element* element) { if (display.is_table_inside()) return document.heap().allocate_without_realm(document, element, move(style)); if (display.is_list_item()) return document.heap().allocate_without_realm(document, element, move(style)); if (display.is_table_row()) return document.heap().allocate_without_realm(document, element, move(style)); if (display.is_table_cell()) return document.heap().allocate_without_realm(document, element, move(style)); if (display.is_table_row_group() || display.is_table_header_group() || display.is_table_footer_group()) return document.heap().allocate_without_realm(document, element, move(style)); if (display.is_table_column() || display.is_table_column_group() || display.is_table_caption()) { // FIXME: This is just an incorrect placeholder until we improve table layout support. return document.heap().allocate_without_realm(document, element, move(style)); } if (display.is_inline_outside()) { if (display.is_flow_root_inside()) return document.heap().allocate_without_realm(document, element, move(style)); if (display.is_flow_inside()) return document.heap().allocate_without_realm(document, element, move(style)); if (display.is_flex_inside()) return document.heap().allocate_without_realm(document, element, move(style)); dbgln_if(LIBWEB_CSS_DEBUG, "FIXME: Support display: {}", MUST(display.to_string())); return document.heap().allocate_without_realm(document, element, move(style)); } if (display.is_flex_inside() || display.is_grid_inside()) return document.heap().allocate_without_realm(document, element, move(style)); if (display.is_flow_inside() || display.is_flow_root_inside()) return document.heap().allocate_without_realm(document, element, move(style)); TODO(); } CSS::CSSStyleDeclaration const* Element::inline_style() const { return m_inline_style.ptr(); } void Element::parse_attribute(DeprecatedFlyString const& name, DeprecatedString const& value) { if (name == HTML::AttributeNames::class_) { auto new_classes = value.split_view(Infra::is_ascii_whitespace); m_classes.clear(); m_classes.ensure_capacity(new_classes.size()); for (auto& new_class : new_classes) { m_classes.unchecked_append(FlyString::from_utf8(new_class).release_value_but_fixme_should_propagate_errors()); } if (m_class_list) m_class_list->associated_attribute_changed(value); } else if (name == HTML::AttributeNames::style) { // https://drafts.csswg.org/cssom/#ref-for-cssstyledeclaration-updating-flag if (m_inline_style && m_inline_style->is_updating()) return; m_inline_style = parse_css_style_attribute(CSS::Parser::ParsingContext(document()), value, *this); set_needs_style_update(true); } } void Element::did_remove_attribute(DeprecatedFlyString const& name) { if (name == HTML::AttributeNames::style) { if (m_inline_style) { m_inline_style = nullptr; set_needs_style_update(true); } } } static Element::RequiredInvalidationAfterStyleChange compute_required_invalidation(CSS::StyleProperties const& old_style, CSS::StyleProperties const& new_style) { Element::RequiredInvalidationAfterStyleChange invalidation; if (&old_style.computed_font() != &new_style.computed_font()) invalidation.relayout = true; for (auto i = to_underlying(CSS::first_property_id); i <= to_underlying(CSS::last_property_id); ++i) { auto property_id = static_cast(i); auto const& old_value = old_style.properties()[i]; auto const& new_value = new_style.properties()[i]; if (!old_value && !new_value) continue; bool const property_value_changed = (!old_value || !new_value) || *old_value != *new_value; if (!property_value_changed) continue; // NOTE: If the computed CSS display property changes, we have to rebuild the entire layout tree. // In the future, we should figure out ways to rebuild a smaller part of the tree. if (property_id == CSS::PropertyID::Display) { return Element::RequiredInvalidationAfterStyleChange::full(); } // OPTIMIZATION: Special handling for CSS `visibility`: if (property_id == CSS::PropertyID::Visibility) { // We don't need to relayout if the visibility changes from visible to hidden or vice versa. Only collapse requires relayout. if ((old_value && old_value->to_identifier() == CSS::ValueID::Collapse) != (new_value && new_value->to_identifier() == CSS::ValueID::Collapse)) invalidation.relayout = true; // Of course, we still have to repaint on any visibility change. invalidation.repaint = true; } else if (CSS::property_affects_layout(property_id)) { invalidation.relayout = true; } if (CSS::property_affects_stacking_context(property_id)) invalidation.rebuild_stacking_context_tree = true; invalidation.repaint = true; } return invalidation; } Element::RequiredInvalidationAfterStyleChange Element::recompute_style() { set_needs_style_update(false); VERIFY(parent()); // FIXME propagate errors auto new_computed_css_values = MUST(document().style_computer().compute_style(*this)); RequiredInvalidationAfterStyleChange invalidation; if (m_computed_css_values) invalidation = compute_required_invalidation(*m_computed_css_values, *new_computed_css_values); else invalidation = RequiredInvalidationAfterStyleChange::full(); if (invalidation.is_none()) return invalidation; m_computed_css_values = move(new_computed_css_values); if (!invalidation.rebuild_layout_tree && layout_node()) { // If we're keeping the layout tree, we can just apply the new style to the existing layout tree. layout_node()->apply_style(*m_computed_css_values); if (invalidation.repaint) layout_node()->set_needs_display(); } return invalidation; } NonnullRefPtr Element::resolved_css_values() { auto element_computed_style = CSS::ResolvedCSSStyleDeclaration::create(*this).release_value_but_fixme_should_propagate_errors(); auto properties = CSS::StyleProperties::create(); for (auto i = to_underlying(CSS::first_property_id); i <= to_underlying(CSS::last_property_id); ++i) { auto property_id = (CSS::PropertyID)i; auto maybe_value = element_computed_style->property(property_id); if (!maybe_value.has_value()) continue; properties->set_property(property_id, maybe_value.release_value().value); } return properties; } DOMTokenList* Element::class_list() { if (!m_class_list) m_class_list = DOMTokenList::create(*this, HTML::AttributeNames::class_).release_value_but_fixme_should_propagate_errors(); return m_class_list; } // https://dom.spec.whatwg.org/#dom-element-attachshadow WebIDL::ExceptionOr> Element::attach_shadow(ShadowRootInit init) { // 1. If this’s namespace is not the HTML namespace, then throw a "NotSupportedError" DOMException. if (namespace_() != Namespace::HTML) return WebIDL::NotSupportedError::create(realm(), "Element's namespace is not the HTML namespace"sv); // 2. If this’s local name is not one of the following: // - a valid custom element name // - "article", "aside", "blockquote", "body", "div", "footer", "h1", "h2", "h3", "h4", "h5", "h6", "header", "main", "nav", "p", "section", or "span" if (!HTML::is_valid_custom_element_name(local_name()) && !local_name().is_one_of("article", "aside", "blockquote", "body", "div", "footer", "h1", "h2", "h3", "h4", "h5", "h6", "header", "main", "nav", "p", "section", "span")) { // then throw a "NotSupportedError" DOMException. return WebIDL::NotSupportedError::create(realm(), DeprecatedString::formatted("Element '{}' cannot be a shadow host", local_name())); } // 3. If this’s local name is a valid custom element name, or this’s is value is not null, then: if (HTML::is_valid_custom_element_name(local_name()) || m_is_value.has_value()) { // 1. Let definition be the result of looking up a custom element definition given this’s node document, its namespace, its local name, and its is value. auto definition = document().lookup_custom_element_definition(namespace_(), local_name(), m_is_value); // 2. If definition is not null and definition’s disable shadow is true, then throw a "NotSupportedError" DOMException. if (definition && definition->disable_shadow()) return WebIDL::NotSupportedError::create(realm(), "Cannot attach a shadow root to a custom element that has disabled shadow roots"sv); } // 4. If this is a shadow host, then throw an "NotSupportedError" DOMException. if (is_shadow_host()) return WebIDL::NotSupportedError::create(realm(), "Element already is a shadow host"); // 5. Let shadow be a new shadow root whose node document is this’s node document, host is this, and mode is init["mode"]. auto shadow = MUST_OR_THROW_OOM(heap().allocate(realm(), document(), *this, init.mode)); // 6. Set shadow’s delegates focus to init["delegatesFocus"]. shadow->set_delegates_focus(init.delegates_focus); // 7. If this’s custom element state is "precustomized" or "custom", then set shadow’s available to element internals to true. if (m_custom_element_state == CustomElementState::Precustomized || m_custom_element_state == CustomElementState::Custom) shadow->set_available_to_element_internals(true); // FIXME: 8. Set shadow’s slot assignment to init["slotAssignment"]. // 9. Set this’s shadow root to shadow. set_shadow_root(shadow); // 10. Return shadow. return shadow; } // https://dom.spec.whatwg.org/#dom-element-shadowroot JS::GCPtr Element::shadow_root() const { // 1. Let shadow be this’s shadow root. auto shadow = m_shadow_root; // 2. If shadow is null or its mode is "closed", then return null. if (shadow == nullptr || shadow->mode() == Bindings::ShadowRootMode::Closed) return nullptr; // 3. Return shadow. return shadow; } // https://dom.spec.whatwg.org/#dom-element-matches WebIDL::ExceptionOr Element::matches(StringView selectors) const { // 1. Let s be the result of parse a selector from selectors. auto maybe_selectors = parse_selector(CSS::Parser::ParsingContext(static_cast(const_cast(*this))), selectors); // 2. If s is failure, then throw a "SyntaxError" DOMException. if (!maybe_selectors.has_value()) return WebIDL::SyntaxError::create(realm(), "Failed to parse selector"); // 3. If the result of match a selector against an element, using s, this, and scoping root this, returns success, then return true; otherwise, return false. auto sel = maybe_selectors.value(); for (auto& s : sel) { if (SelectorEngine::matches(s, *this, {}, static_cast(this))) return true; } return false; } // https://dom.spec.whatwg.org/#dom-element-closest WebIDL::ExceptionOr Element::closest(StringView selectors) const { // 1. Let s be the result of parse a selector from selectors. auto maybe_selectors = parse_selector(CSS::Parser::ParsingContext(static_cast(const_cast(*this))), selectors); // 2. If s is failure, then throw a "SyntaxError" DOMException. if (!maybe_selectors.has_value()) return WebIDL::SyntaxError::create(realm(), "Failed to parse selector"); auto matches_selectors = [this](CSS::SelectorList const& selector_list, Element const* element) { // 4. For each element in elements, if match a selector against an element, using s, element, and scoping root this, returns success, return element. for (auto& selector : selector_list) { if (!SelectorEngine::matches(selector, *element, {}, this)) return false; } return true; }; auto const selector_list = maybe_selectors.release_value(); // 3. Let elements be this’s inclusive ancestors that are elements, in reverse tree order. for (auto* element = this; element; element = element->parent_element()) { if (!matches_selectors(selector_list, element)) continue; return element; } // 5. Return null. return nullptr; } WebIDL::ExceptionOr Element::set_inner_html(DeprecatedString const& markup) { TRY(DOMParsing::inner_html_setter(*this, markup)); return {}; } // https://w3c.github.io/DOM-Parsing/#dom-innerhtml-innerhtml WebIDL::ExceptionOr Element::inner_html() const { return serialize_fragment(DOMParsing::RequireWellFormed::Yes); } bool Element::is_focused() const { return document().focused_element() == this; } bool Element::is_active() const { return document().active_element() == this; } JS::NonnullGCPtr Element::get_elements_by_class_name(DeprecatedFlyString const& class_names) { Vector list_of_class_names; for (auto& name : class_names.view().split_view_if(Infra::is_ascii_whitespace)) { list_of_class_names.append(FlyString::from_utf8(name).release_value_but_fixme_should_propagate_errors()); } return HTMLCollection::create(*this, HTMLCollection::Scope::Descendants, [list_of_class_names = move(list_of_class_names), quirks_mode = document().in_quirks_mode()](Element const& element) { for (auto& name : list_of_class_names) { if (!element.has_class(name, quirks_mode ? CaseSensitivity::CaseInsensitive : CaseSensitivity::CaseSensitive)) return false; } return true; }).release_value_but_fixme_should_propagate_errors(); } // https://dom.spec.whatwg.org/#element-shadow-host bool Element::is_shadow_host() const { // An element is a shadow host if its shadow root is non-null. return m_shadow_root != nullptr; } void Element::set_shadow_root(JS::GCPtr shadow_root) { if (m_shadow_root == shadow_root) return; if (m_shadow_root) m_shadow_root->set_host(nullptr); m_shadow_root = move(shadow_root); if (m_shadow_root) m_shadow_root->set_host(this); invalidate_style(); } CSS::CSSStyleDeclaration* Element::style_for_bindings() { if (!m_inline_style) m_inline_style = CSS::ElementInlineCSSStyleDeclaration::create(*this, {}, {}).release_value_but_fixme_should_propagate_errors(); return m_inline_style; } // https://dom.spec.whatwg.org/#element-html-uppercased-qualified-name void Element::make_html_uppercased_qualified_name() { // This is allowed by the spec: "User agents could optimize qualified name and HTML-uppercased qualified name by storing them in internal slots." if (namespace_() == Namespace::HTML && document().document_type() == Document::Type::HTML) m_html_uppercased_qualified_name = qualified_name().to_uppercase(); else m_html_uppercased_qualified_name = qualified_name(); } // https://html.spec.whatwg.org/multipage/webappapis.html#queue-an-element-task void Element::queue_an_element_task(HTML::Task::Source source, JS::SafeFunction steps) { auto task = HTML::Task::create(source, &document(), move(steps)); HTML::main_thread_event_loop().task_queue().add(move(task)); } // https://html.spec.whatwg.org/multipage/syntax.html#void-elements bool Element::is_void_element() const { return local_name().is_one_of(HTML::TagNames::area, HTML::TagNames::base, HTML::TagNames::br, HTML::TagNames::col, HTML::TagNames::embed, HTML::TagNames::hr, HTML::TagNames::img, HTML::TagNames::input, HTML::TagNames::link, HTML::TagNames::meta, HTML::TagNames::param, HTML::TagNames::source, HTML::TagNames::track, HTML::TagNames::wbr); } // https://html.spec.whatwg.org/multipage/parsing.html#serializes-as-void bool Element::serializes_as_void() const { return is_void_element() || local_name().is_one_of(HTML::TagNames::basefont, HTML::TagNames::bgsound, HTML::TagNames::frame, HTML::TagNames::keygen); } // https://drafts.csswg.org/cssom-view/#dom-element-getboundingclientrect JS::NonnullGCPtr Element::get_bounding_client_rect() const { // // NOTE: Ensure that layout is up-to-date before looking at metrics. const_cast(document()).update_layout(); // FIXME: Support inline layout nodes as well. auto* paintable_box = this->paintable_box(); if (!paintable_box) return Geometry::DOMRect::construct_impl(realm(), 0, 0, 0, 0).release_value_but_fixme_should_propagate_errors(); VERIFY(document().browsing_context()); auto viewport_offset = document().browsing_context()->viewport_scroll_offset(); return Geometry::DOMRect::create(realm(), paintable_box->absolute_rect().translated(-viewport_offset.x(), -viewport_offset.y()).to_type()).release_value_but_fixme_should_propagate_errors(); } // https://drafts.csswg.org/cssom-view/#dom-element-getclientrects JS::NonnullGCPtr Element::get_client_rects() const { Vector> rects; // NOTE: Ensure that layout is up-to-date before looking at metrics. const_cast(document()).update_layout(); // 1. If the element on which it was invoked does not have an associated layout box return an empty DOMRectList object and stop this algorithm. if (!layout_node() || !layout_node()->is_box()) return Geometry::DOMRectList::create(realm(), move(rects)).release_value_but_fixme_should_propagate_errors(); // FIXME: 2. If the element has an associated SVG layout box return a DOMRectList object containing a single DOMRect object that describes // the bounding box of the element as defined by the SVG specification, applying the transforms that apply to the element and its ancestors. // FIXME: 3. Return a DOMRectList object containing DOMRect objects in content order, one for each box fragment, // describing its border area (including those with a height or width of zero) with the following constraints: // - Apply the transforms that apply to the element and its ancestors. // - If the element on which the method was invoked has a computed value for the display property of table // or inline-table include both the table box and the caption box, if any, but not the anonymous container box. // - Replace each anonymous block box with its child box(es) and repeat this until no anonymous block boxes are left in the final list. auto bounding_rect = get_bounding_client_rect(); rects.append(*bounding_rect); return Geometry::DOMRectList::create(realm(), move(rects)).release_value_but_fixme_should_propagate_errors(); } int Element::client_top() const { // NOTE: Ensure that layout is up-to-date before looking at metrics. const_cast(document()).update_layout(); // 1. If the element has no associated CSS layout box or if the CSS layout box is inline, return zero. if (!layout_node() || !layout_node()->is_box()) return 0; // 2. Return the computed value of the border-top-width property // plus the height of any scrollbar rendered between the top padding edge and the top border edge, // ignoring any transforms that apply to the element and its ancestors. return static_cast(*layout_node()).computed_values().border_top().width; } // https://drafts.csswg.org/cssom-view/#dom-element-clientleft int Element::client_left() const { // NOTE: Ensure that layout is up-to-date before looking at metrics. const_cast(document()).update_layout(); // 1. If the element has no associated CSS layout box or if the CSS layout box is inline, return zero. if (!layout_node() || !layout_node()->is_box()) return 0; // 2. Return the computed value of the border-left-width property // plus the width of any scrollbar rendered between the left padding edge and the left border edge, // ignoring any transforms that apply to the element and its ancestors. return static_cast(*layout_node()).computed_values().border_left().width; } // https://drafts.csswg.org/cssom-view/#dom-element-clientwidth int Element::client_width() const { // NOTE: We do step 2 before step 1 here since step 2 can exit early without needing to perform layout. // 2. If the element is the root element and the element’s node document is not in quirks mode, // or if the element is the HTML body element and the element’s node document is in quirks mode, // return the viewport width excluding the size of a rendered scroll bar (if any). if ((is(*this) && !document().in_quirks_mode()) || (is(*this) && document().in_quirks_mode())) { return document().browsing_context()->viewport_rect().width().value(); } // NOTE: Ensure that layout is up-to-date before looking at metrics. const_cast(document()).update_layout(); // 1. If the element has no associated CSS layout box or if the CSS layout box is inline, return zero. if (!paintable_box()) return 0; // 3. Return the width of the padding edge excluding the width of any rendered scrollbar between the padding edge and the border edge, // ignoring any transforms that apply to the element and its ancestors. return paintable_box()->absolute_padding_box_rect().width().value(); } // https://drafts.csswg.org/cssom-view/#dom-element-clientheight int Element::client_height() const { // NOTE: We do step 2 before step 1 here since step 2 can exit early without needing to perform layout. // 2. If the element is the root element and the element’s node document is not in quirks mode, // or if the element is the HTML body element and the element’s node document is in quirks mode, // return the viewport height excluding the size of a rendered scroll bar (if any). if ((is(*this) && !document().in_quirks_mode()) || (is(*this) && document().in_quirks_mode())) { return document().browsing_context()->viewport_rect().height().value(); } // NOTE: Ensure that layout is up-to-date before looking at metrics. const_cast(document()).update_layout(); // 1. If the element has no associated CSS layout box or if the CSS layout box is inline, return zero. if (!paintable_box()) return 0; // 3. Return the height of the padding edge excluding the height of any rendered scrollbar between the padding edge and the border edge, // ignoring any transforms that apply to the element and its ancestors. return paintable_box()->absolute_padding_box_rect().height().value(); } void Element::children_changed() { Node::children_changed(); set_needs_style_update(true); } void Element::set_pseudo_element_node(Badge, CSS::Selector::PseudoElement pseudo_element, JS::GCPtr pseudo_element_node) { m_pseudo_element_nodes[to_underlying(pseudo_element)] = pseudo_element_node; } JS::GCPtr Element::get_pseudo_element_node(CSS::Selector::PseudoElement pseudo_element) const { return m_pseudo_element_nodes[to_underlying(pseudo_element)]; } void Element::clear_pseudo_element_nodes(Badge) { m_pseudo_element_nodes.fill({}); } void Element::serialize_pseudo_elements_as_json(JsonArraySerializer& children_array) const { for (size_t i = 0; i < m_pseudo_element_nodes.size(); ++i) { auto& pseudo_element_node = m_pseudo_element_nodes[i]; if (!pseudo_element_node) continue; auto object = MUST(children_array.add_object()); MUST(object.add("name"sv, DeprecatedString::formatted("::{}", CSS::pseudo_element_name(static_cast(i))))); MUST(object.add("type"sv, "pseudo-element")); MUST(object.add("parent-id"sv, id())); MUST(object.add("pseudo-element"sv, i)); MUST(object.finish()); } } // https://html.spec.whatwg.org/multipage/interaction.html#dom-tabindex i32 Element::default_tab_index_value() const { // The default value is 0 if the element is an a, area, button, frame, iframe, input, object, select, textarea, or SVG a element, or is a summary element that is a summary for its parent details. // The default value is −1 otherwise. // Note: The varying default value based on element type is a historical artifact. // FIXME: We currently do not have the SVG a element. return -1; } // https://html.spec.whatwg.org/multipage/interaction.html#dom-tabindex i32 Element::tab_index() const { // FIXME: I'm not sure if "to_int" exactly matches the specs "rules for parsing integers" auto maybe_table_index = attribute(HTML::AttributeNames::tabindex).to_int(); if (!maybe_table_index.has_value()) return default_tab_index_value(); return maybe_table_index.value(); } // https://html.spec.whatwg.org/multipage/interaction.html#dom-tabindex void Element::set_tab_index(i32 tab_index) { MUST(set_attribute(HTML::AttributeNames::tabindex, DeprecatedString::number(tab_index))); } // https://drafts.csswg.org/cssom-view/#potentially-scrollable bool Element::is_potentially_scrollable() const { // NOTE: Ensure that layout is up-to-date before looking at metrics. const_cast(document()).update_layout(); // An element body (which will be the body element) is potentially scrollable if all of the following conditions are true: VERIFY(is(this) || is(this)); // Since this should always be the body element, the body element must have a element parent. See Document::body(). VERIFY(parent()); // - body has an associated box. // - body’s parent element’s computed value of the overflow-x or overflow-y properties is neither visible nor clip. // - body’s computed value of the overflow-x or overflow-y properties is neither visible nor clip. return layout_node() && (parent()->layout_node() && parent()->layout_node()->computed_values().overflow_x() != CSS::Overflow::Visible && parent()->layout_node()->computed_values().overflow_x() != CSS::Overflow::Clip && parent()->layout_node()->computed_values().overflow_y() != CSS::Overflow::Visible && parent()->layout_node()->computed_values().overflow_y() != CSS::Overflow::Clip) && (layout_node()->computed_values().overflow_x() != CSS::Overflow::Visible && layout_node()->computed_values().overflow_x() != CSS::Overflow::Clip && layout_node()->computed_values().overflow_y() != CSS::Overflow::Visible && layout_node()->computed_values().overflow_y() != CSS::Overflow::Clip); } // https://drafts.csswg.org/cssom-view/#dom-element-scrolltop double Element::scroll_top() const { // 1. Let document be the element’s node document. auto& document = this->document(); // 2. If document is not the active document, return zero and terminate these steps. if (!document.is_active()) return 0.0; // 3. Let window be the value of document’s defaultView attribute. auto* window = document.default_view(); // 4. If window is null, return zero and terminate these steps. if (!window) return 0.0; // 5. If the element is the root element and document is in quirks mode, return zero and terminate these steps. if (document.document_element() == this && document.in_quirks_mode()) return 0.0; // NOTE: Ensure that layout is up-to-date before looking at metrics. const_cast(document).update_layout(); // 6. If the element is the root element return the value of scrollY on window. if (document.document_element() == this) return window->scroll_y(); // 7. If the element is the body element, document is in quirks mode, and the element is not potentially scrollable, return the value of scrollY on window. if (document.body() == this && document.in_quirks_mode() && !is_potentially_scrollable()) return window->scroll_y(); // 8. If the element does not have any associated box, return zero and terminate these steps. if (!layout_node() || !is(layout_node())) return 0.0; auto const* box = static_cast(layout_node()); // 9. Return the y-coordinate of the scrolling area at the alignment point with the top of the padding edge of the element. // FIXME: Is this correct? return box->scroll_offset().y().value(); } double Element::scroll_left() const { // 1. Let document be the element’s node document. auto& document = this->document(); // 2. If document is not the active document, return zero and terminate these steps. if (!document.is_active()) return 0.0; // 3. Let window be the value of document’s defaultView attribute. auto* window = document.default_view(); // 4. If window is null, return zero and terminate these steps. if (!window) return 0.0; // 5. If the element is the root element and document is in quirks mode, return zero and terminate these steps. if (document.document_element() == this && document.in_quirks_mode()) return 0.0; // NOTE: Ensure that layout is up-to-date before looking at metrics. const_cast(document).update_layout(); // 6. If the element is the root element return the value of scrollX on window. if (document.document_element() == this) return window->scroll_x(); // 7. If the element is the body element, document is in quirks mode, and the element is not potentially scrollable, return the value of scrollX on window. if (document.body() == this && document.in_quirks_mode() && !is_potentially_scrollable()) return window->scroll_x(); // 8. If the element does not have any associated box, return zero and terminate these steps. if (!layout_node() || !is(layout_node())) return 0.0; auto const* box = static_cast(layout_node()); // 9. Return the x-coordinate of the scrolling area at the alignment point with the left of the padding edge of the element. // FIXME: Is this correct? return box->scroll_offset().x().value(); } // https://drafts.csswg.org/cssom-view/#dom-element-scrollleft void Element::set_scroll_left(double x) { // 1. Let x be the given value. // 2. Normalize non-finite values for x. if (!isfinite(x)) x = 0.0; // 3. Let document be the element’s node document. auto& document = this->document(); // 4. If document is not the active document, terminate these steps. if (!document.is_active()) return; // 5. Let window be the value of document’s defaultView attribute. auto* window = document.default_view(); // 6. If window is null, terminate these steps. if (!window) return; // 7. If the element is the root element and document is in quirks mode, terminate these steps. if (document.document_element() == this && document.in_quirks_mode()) return; // NOTE: Ensure that layout is up-to-date before looking at metrics or scrolling the page. const_cast(document).update_layout(); // 8. If the element is the root element invoke scroll() on window with x as first argument and scrollY on window as second argument, and terminate these steps. if (document.document_element() == this) { // FIXME: Implement this in terms of invoking scroll() on window. if (auto* page = document.page()) page->client().page_did_request_scroll_to({ static_cast(x), static_cast(window->scroll_y()) }); return; } // 9. If the element is the body element, document is in quirks mode, and the element is not potentially scrollable, invoke scroll() on window with x as first argument and scrollY on window as second argument, and terminate these steps. if (document.body() == this && document.in_quirks_mode() && !is_potentially_scrollable()) { // FIXME: Implement this in terms of invoking scroll() on window. if (auto* page = document.page()) page->client().page_did_request_scroll_to({ static_cast(x), static_cast(window->scroll_y()) }); return; } // 10. If the element does not have any associated box, the element has no associated scrolling box, or the element has no overflow, terminate these steps. if (!layout_node() || !is(layout_node())) return; auto* box = static_cast(layout_node()); if (!box->is_scrollable()) return; // FIXME: or the element has no overflow. // 11. Scroll the element to x,scrollTop, with the scroll behavior being "auto". // FIXME: Implement this in terms of calling "scroll the element". auto scroll_offset = box->scroll_offset(); scroll_offset.set_x(static_cast(x)); box->set_scroll_offset(scroll_offset); } void Element::set_scroll_top(double y) { // 1. Let y be the given value. // 2. Normalize non-finite values for y. if (!isfinite(y)) y = 0.0; // 3. Let document be the element’s node document. auto& document = this->document(); // 4. If document is not the active document, terminate these steps. if (!document.is_active()) return; // 5. Let window be the value of document’s defaultView attribute. auto* window = document.default_view(); // 6. If window is null, terminate these steps. if (!window) return; // 7. If the element is the root element and document is in quirks mode, terminate these steps. if (document.document_element() == this && document.in_quirks_mode()) return; // NOTE: Ensure that layout is up-to-date before looking at metrics or scrolling the page. const_cast(document).update_layout(); // 8. If the element is the root element invoke scroll() on window with scrollX on window as first argument and y as second argument, and terminate these steps. if (document.document_element() == this) { // FIXME: Implement this in terms of invoking scroll() on window. if (auto* page = document.page()) page->client().page_did_request_scroll_to({ static_cast(window->scroll_x()), static_cast(y) }); return; } // 9. If the element is the body element, document is in quirks mode, and the element is not potentially scrollable, invoke scroll() on window with scrollX as first argument and y as second argument, and terminate these steps. if (document.body() == this && document.in_quirks_mode() && !is_potentially_scrollable()) { // FIXME: Implement this in terms of invoking scroll() on window. if (auto* page = document.page()) page->client().page_did_request_scroll_to({ static_cast(window->scroll_x()), static_cast(y) }); return; } // 10. If the element does not have any associated box, the element has no associated scrolling box, or the element has no overflow, terminate these steps. if (!layout_node() || !is(layout_node())) return; auto* box = static_cast(layout_node()); if (!box->is_scrollable()) return; // FIXME: or the element has no overflow. // 11. Scroll the element to scrollLeft,y, with the scroll behavior being "auto". // FIXME: Implement this in terms of calling "scroll the element". auto scroll_offset = box->scroll_offset(); scroll_offset.set_y(static_cast(y)); box->set_scroll_offset(scroll_offset); } int Element::scroll_width() const { dbgln("FIXME: Implement Element::scroll_width() (called on element: {})", debug_description()); return 0; } int Element::scroll_height() const { dbgln("FIXME: Implement Element::scroll_height() (called on element: {})", debug_description()); return 0; } // https://html.spec.whatwg.org/multipage/semantics-other.html#concept-element-disabled bool Element::is_actually_disabled() const { // An element is said to be actually disabled if it is one of the following: // - a button element that is disabled // - an input element that is disabled // - a select element that is disabled // - a textarea element that is disabled if (is(this) || is(this) || is(this) || is(this)) { auto const* form_associated_element = dynamic_cast(this); VERIFY(form_associated_element); return !form_associated_element->enabled(); } // - an optgroup element that has a disabled attribute if (is(this)) return has_attribute(HTML::AttributeNames::disabled); // - an option element that is disabled if (is(this)) return static_cast(*this).disabled(); // - a fieldset element that is a disabled fieldset if (is(this)) return static_cast(*this).is_disabled(); // FIXME: - a form-associated custom element that is disabled return false; } // https://w3c.github.io/DOM-Parsing/#dom-element-insertadjacenthtml WebIDL::ExceptionOr Element::insert_adjacent_html(DeprecatedString position, DeprecatedString text) { JS::GCPtr context; // 1. Use the first matching item from this list: // - If position is an ASCII case-insensitive match for the string "beforebegin" // - If position is an ASCII case-insensitive match for the string "afterend" if (Infra::is_ascii_case_insensitive_match(position, "beforebegin"sv) || Infra::is_ascii_case_insensitive_match(position, "afterend"sv)) { // Let context be the context object's parent. context = this->parent(); // If context is null or a Document, throw a "NoModificationAllowedError" DOMException. if (!context || context->is_document()) return WebIDL::NoModificationAllowedError::create(realm(), "insertAdjacentHTML: context is null or a Document"sv); } // - If position is an ASCII case-insensitive match for the string "afterbegin" // - If position is an ASCII case-insensitive match for the string "beforeend" else if (Infra::is_ascii_case_insensitive_match(position, "afterbegin"sv) || Infra::is_ascii_case_insensitive_match(position, "beforeend"sv)) { // Let context be the context object. context = this; } // Otherwise else { // Throw a "SyntaxError" DOMException. return WebIDL::SyntaxError::create(realm(), "insertAdjacentHTML: invalid position argument"sv); } // 2. If context is not an Element or the following are all true: // - context's node document is an HTML document, // - context's local name is "html", and // - context's namespace is the HTML namespace; if (!is(*context) || (context->document().document_type() == Document::Type::HTML && static_cast(*context).local_name() == "html"sv && static_cast(*context).namespace_() == Namespace::HTML)) { // FIXME: let context be a new Element with // - body as its local name, // - The HTML namespace as its namespace, and // - The context object's node document as its node document. TODO(); } // 3. Let fragment be the result of invoking the fragment parsing algorithm with text as markup, and context as the context element. auto fragment = TRY(DOMParsing::parse_fragment(text, verify_cast(*context))); // 4. Use the first matching item from this list: // - If position is an ASCII case-insensitive match for the string "beforebegin" if (Infra::is_ascii_case_insensitive_match(position, "beforebegin"sv)) { // Insert fragment into the context object's parent before the context object. parent()->insert_before(fragment, this); } // - If position is an ASCII case-insensitive match for the string "afterbegin" else if (Infra::is_ascii_case_insensitive_match(position, "afterbegin"sv)) { // Insert fragment into the context object before its first child. insert_before(fragment, first_child()); } // - If position is an ASCII case-insensitive match for the string "beforeend" else if (Infra::is_ascii_case_insensitive_match(position, "beforeend"sv)) { // Append fragment to the context object. TRY(append_child(fragment)); } // - If position is an ASCII case-insensitive match for the string "afterend" else if (Infra::is_ascii_case_insensitive_match(position, "afterend"sv)) { // Insert fragment into the context object's parent before the context object's next sibling. parent()->insert_before(fragment, next_sibling()); } return {}; } // https://dom.spec.whatwg.org/#insert-adjacent WebIDL::ExceptionOr> Element::insert_adjacent(DeprecatedString const& where, JS::NonnullGCPtr node) { // To insert adjacent, given an element element, string where, and a node node, run the steps associated with the first ASCII case-insensitive match for where: if (Infra::is_ascii_case_insensitive_match(where, "beforebegin"sv)) { // -> "beforebegin" // If element’s parent is null, return null. if (!parent()) return JS::GCPtr { nullptr }; // Return the result of pre-inserting node into element’s parent before element. return JS::GCPtr { TRY(parent()->pre_insert(move(node), this)) }; } if (Infra::is_ascii_case_insensitive_match(where, "afterbegin"sv)) { // -> "afterbegin" // Return the result of pre-inserting node into element before element’s first child. return JS::GCPtr { TRY(pre_insert(move(node), first_child())) }; } if (Infra::is_ascii_case_insensitive_match(where, "beforeend"sv)) { // -> "beforeend" // Return the result of pre-inserting node into element before null. return JS::GCPtr { TRY(pre_insert(move(node), nullptr)) }; } if (Infra::is_ascii_case_insensitive_match(where, "afterend"sv)) { // -> "afterend" // If element’s parent is null, return null. if (!parent()) return JS::GCPtr { nullptr }; // Return the result of pre-inserting node into element’s parent before element’s next sibling. return JS::GCPtr { TRY(parent()->pre_insert(move(node), next_sibling())) }; } // -> Otherwise // Throw a "SyntaxError" DOMException. return WebIDL::SyntaxError::create(realm(), DeprecatedString::formatted("Unknown position '{}'. Must be one of 'beforebegin', 'afterbegin', 'beforeend' or 'afterend'"sv, where)); } // https://dom.spec.whatwg.org/#dom-element-insertadjacentelement WebIDL::ExceptionOr> Element::insert_adjacent_element(DeprecatedString const& where, JS::NonnullGCPtr element) { // The insertAdjacentElement(where, element) method steps are to return the result of running insert adjacent, give this, where, and element. auto returned_node = TRY(insert_adjacent(where, move(element))); if (!returned_node) return JS::GCPtr { nullptr }; return JS::GCPtr { verify_cast(*returned_node) }; } // https://dom.spec.whatwg.org/#dom-element-insertadjacenttext WebIDL::ExceptionOr Element::insert_adjacent_text(DeprecatedString const& where, DeprecatedString const& data) { // 1. Let text be a new Text node whose data is data and node document is this’s node document. auto text = MUST_OR_THROW_OOM(heap().allocate(realm(), document(), data)); // 2. Run insert adjacent, given this, where, and text. // Spec Note: This method returns nothing because it existed before we had a chance to design it. (void)TRY(insert_adjacent(where, text)); return {}; } // https://w3c.github.io/csswg-drafts/cssom-view-1/#scroll-an-element-into-view static ErrorOr scroll_an_element_into_view(DOM::Element& element, Bindings::ScrollBehavior behavior, Bindings::ScrollLogicalPosition block, Bindings::ScrollLogicalPosition inline_) { // FIXME: The below is ad-hoc, since we don't yet have scrollable elements. // Return here and implement this according to spec once all overflow is made scrollable. (void)behavior; (void)block; (void)inline_; if (!element.document().browsing_context()) return Error::from_string_view("Element has no browsing context."sv); auto* page = element.document().browsing_context()->page(); if (!page) return Error::from_string_view("Element has no page."sv); // If this element doesn't have a layout node, we can't scroll it into view. element.document().update_layout(); if (!element.layout_node()) return Error::from_string_view("Element has no layout node."sv); // Find the nearest layout node that is a box (since we need a box to get a usable rect) auto* layout_node = element.layout_node(); while (layout_node && !layout_node->is_box()) layout_node = layout_node->parent(); if (!layout_node) return Error::from_string_view("Element has no parent layout node that is a box."sv); page->client().page_did_request_scroll_into_view(verify_cast(*layout_node).paintable_box()->absolute_padding_box_rect()); return {}; } // https://w3c.github.io/csswg-drafts/cssom-view-1/#dom-element-scrollintoview ErrorOr Element::scroll_into_view(Optional> arg) { // 1. Let behavior be "auto". auto behavior = Bindings::ScrollBehavior::Auto; // 2. Let block be "start". auto block = Bindings::ScrollLogicalPosition::Start; // 3. Let inline be "nearest". auto inline_ = Bindings::ScrollLogicalPosition::Nearest; // 4. If arg is a ScrollIntoViewOptions dictionary, then: if (arg.has_value() && arg->has()) { // 1. Set behavior to the behavior dictionary member of options. behavior = arg->get().behavior; // 2. Set block to the block dictionary member of options. block = arg->get().block; // 3. Set inline to the inline dictionary member of options. inline_ = arg->get().inline_; } // 5. Otherwise, if arg is false, then set block to "end". else if (arg.has_value() && arg->has() && arg->get() == false) { block = Bindings::ScrollLogicalPosition::End; } // 6. If the element does not have any associated box, or is not available to user-agent features, then return. document().update_layout(); if (!layout_node()) return Error::from_string_view("Element has no associated box"sv); // 7. Scroll the element into view with behavior, block, and inline. TRY(scroll_an_element_into_view(*this, behavior, block, inline_)); return {}; // FIXME: 8. Optionally perform some other action that brings the element to the user’s attention. } void Element::invalidate_style_after_attribute_change(DeprecatedFlyString const& attribute_name) { // FIXME: Only invalidate if the attribute can actually affect style. (void)attribute_name; // FIXME: This will need to become smarter when we implement the :has() selector. invalidate_style(); } // https://www.w3.org/TR/wai-aria-1.2/#tree_exclusion bool Element::exclude_from_accessibility_tree() const { // The following elements are not exposed via the accessibility API and user agents MUST NOT include them in the accessibility tree: // Elements, including their descendent elements, that have host language semantics specifying that the element is not displayed, such as CSS display:none, visibility:hidden, or the HTML hidden attribute. if (!layout_node()) return true; // Elements with none or presentation as the first role in the role attribute. However, their exclusion is conditional. In addition, the element's descendants and text content are generally included. These exceptions and conditions are documented in the presentation (role) section. // FIXME: Handle exceptions to excluding presentation role auto role = role_or_default(); if (role == ARIA::Role::none || role == ARIA::Role::presentation) return true; // TODO: If not already excluded from the accessibility tree per the above rules, user agents SHOULD NOT include the following elements in the accessibility tree: // Elements, including their descendants, that have aria-hidden set to true. In other words, aria-hidden="true" on a parent overrides aria-hidden="false" on descendants. // Any descendants of elements that have the characteristic "Children Presentational: True" unless the descendant is not allowed to be presentational because it meets one of the conditions for exception described in Presentational Roles Conflict Resolution. However, the text content of any excluded descendants is included. // Elements with the following roles have the characteristic "Children Presentational: True": // button // checkbox // img // menuitemcheckbox // menuitemradio // meter // option // progressbar // radio // scrollbar // separator // slider // switch // tab return false; } // https://www.w3.org/TR/wai-aria-1.2/#tree_inclusion bool Element::include_in_accessibility_tree() const { // If not excluded from or marked as hidden in the accessibility tree per the rules above in Excluding Elements in the Accessibility Tree, user agents MUST provide an accessible object in the accessibility tree for DOM elements that meet any of the following criteria: if (exclude_from_accessibility_tree()) return false; // Elements that are not hidden and may fire an accessibility API event, including: // Elements that are currently focused, even if the element or one of its ancestor elements has its aria-hidden attribute set to true. if (is_focused()) return true; // TODO: Elements that are a valid target of an aria-activedescendant attribute. // Elements that have an explicit role or a global WAI-ARIA attribute and do not have aria-hidden set to true. (See Excluding Elements in the Accessibility Tree for additional guidance on aria-hidden.) // NOTE: The spec says only explicit roles count, but playing around in other browsers, this does not seem to be true in practice (for example button elements are always exposed with their implicit role if none is set) // This issue https://github.com/w3c/aria/issues/1851 seeks clarification on this point if ((role_or_default().has_value() || has_global_aria_attribute()) && aria_hidden() != "true") return true; // TODO: Elements that are not hidden and have an ID that is referenced by another element via a WAI-ARIA property. return false; } // https://html.spec.whatwg.org/multipage/custom-elements.html#enqueue-an-element-on-the-appropriate-element-queue void Element::enqueue_an_element_on_the_appropriate_element_queue() { // 1. Let reactionsStack be element's relevant agent's custom element reactions stack. auto& relevant_agent = HTML::relevant_agent(*this); auto* custom_data = verify_cast(relevant_agent.custom_data()); auto& reactions_stack = custom_data->custom_element_reactions_stack; // 2. If reactionsStack is empty, then: if (reactions_stack.element_queue_stack.is_empty()) { // 1. Add element to reactionsStack's backup element queue. reactions_stack.backup_element_queue.append(*this); // 2. If reactionsStack's processing the backup element queue flag is set, then return. if (reactions_stack.processing_the_backup_element_queue) return; // 3. Set reactionsStack's processing the backup element queue flag. reactions_stack.processing_the_backup_element_queue = true; // 4. Queue a microtask to perform the following steps: // NOTE: `this` is protected by JS::SafeFunction HTML::queue_a_microtask(&document(), [this]() { auto& relevant_agent = HTML::relevant_agent(*this); auto* custom_data = verify_cast(relevant_agent.custom_data()); auto& reactions_stack = custom_data->custom_element_reactions_stack; // 1. Invoke custom element reactions in reactionsStack's backup element queue. Bindings::invoke_custom_element_reactions(reactions_stack.backup_element_queue); // 2. Unset reactionsStack's processing the backup element queue flag. reactions_stack.processing_the_backup_element_queue = false; }); return; } // 3. Otherwise, add element to element's relevant agent's current element queue. custom_data->current_element_queue().append(*this); } // https://html.spec.whatwg.org/multipage/custom-elements.html#enqueue-a-custom-element-upgrade-reaction void Element::enqueue_a_custom_element_upgrade_reaction(HTML::CustomElementDefinition& custom_element_definition) { // 1. Add a new upgrade reaction to element's custom element reaction queue, with custom element definition definition. m_custom_element_reaction_queue.append(CustomElementUpgradeReaction { .custom_element_definition = custom_element_definition }); // 2. Enqueue an element on the appropriate element queue given element. enqueue_an_element_on_the_appropriate_element_queue(); } void Element::enqueue_a_custom_element_callback_reaction(FlyString const& callback_name, JS::MarkedVector arguments) { // 1. Let definition be element's custom element definition. auto& definition = m_custom_element_definition; // 2. Let callback be the value of the entry in definition's lifecycle callbacks with key callbackName. auto callback_iterator = definition->lifecycle_callbacks().find(callback_name); // 3. If callback is null, then return. if (callback_iterator == definition->lifecycle_callbacks().end()) return; if (callback_iterator->value.is_null()) return; // 4. If callbackName is "attributeChangedCallback", then: if (callback_name == HTML::CustomElementReactionNames::attributeChangedCallback) { // 1. Let attributeName be the first element of args. VERIFY(!arguments.is_empty()); auto& attribute_name_value = arguments.first(); VERIFY(attribute_name_value.is_string()); auto attribute_name = attribute_name_value.as_string().utf8_string().release_allocated_value_but_fixme_should_propagate_errors(); // 2. If definition's observed attributes does not contain attributeName, then return. if (!definition->observed_attributes().contains_slow(attribute_name)) return; } // 5. Add a new callback reaction to element's custom element reaction queue, with callback function callback and arguments args. m_custom_element_reaction_queue.append(CustomElementCallbackReaction { .callback = callback_iterator->value, .arguments = move(arguments) }); // 6. Enqueue an element on the appropriate element queue given element. enqueue_an_element_on_the_appropriate_element_queue(); } // https://html.spec.whatwg.org/multipage/custom-elements.html#concept-upgrade-an-element JS::ThrowCompletionOr Element::upgrade_element(JS::NonnullGCPtr custom_element_definition) { auto& realm = this->realm(); auto& vm = this->vm(); // 1. If element's custom element state is not "undefined" or "uncustomized", then return. if (m_custom_element_state != CustomElementState::Undefined && m_custom_element_state != CustomElementState::Uncustomized) return {}; // 2. Set element's custom element definition to definition. m_custom_element_definition = custom_element_definition; // 3. Set element's custom element state to "failed". m_custom_element_state = CustomElementState::Failed; // 4. For each attribute in element's attribute list, in order, enqueue a custom element callback reaction with element, callback name "attributeChangedCallback", // and an argument list containing attribute's local name, null, attribute's value, and attribute's namespace. for (size_t attribute_index = 0; attribute_index < m_attributes->length(); ++attribute_index) { auto const* attribute = m_attributes->item(attribute_index); VERIFY(attribute); JS::MarkedVector arguments { vm.heap() }; arguments.append(JS::PrimitiveString::create(vm, attribute->local_name())); arguments.append(JS::js_null()); arguments.append(JS::PrimitiveString::create(vm, attribute->value())); arguments.append(JS::PrimitiveString::create(vm, attribute->namespace_uri())); enqueue_a_custom_element_callback_reaction(HTML::CustomElementReactionNames::attributeChangedCallback, move(arguments)); } // 5. If element is connected, then enqueue a custom element callback reaction with element, callback name "connectedCallback", and an empty argument list. if (is_connected()) { JS::MarkedVector empty_arguments { vm.heap() }; enqueue_a_custom_element_callback_reaction(HTML::CustomElementReactionNames::connectedCallback, move(empty_arguments)); } // 6. Add element to the end of definition's construction stack. custom_element_definition->construction_stack().append(JS::make_handle(this)); // 7. Let C be definition's constructor. auto& constructor = custom_element_definition->constructor(); // 8. Run the following substeps while catching any exceptions: auto attempt_to_construct_custom_element = [&]() -> JS::ThrowCompletionOr { // 1. If definition's disable shadow is true and element's shadow root is non-null, then throw a "NotSupportedError" DOMException. if (custom_element_definition->disable_shadow() && shadow_root()) return JS::throw_completion(WebIDL::NotSupportedError::create(realm, "Custom element definition disables shadow DOM and the custom element has a shadow root"sv)); // 2. Set element's custom element state to "precustomized". m_custom_element_state = CustomElementState::Precustomized; // 3. Let constructResult be the result of constructing C, with no arguments. auto construct_result_optional = TRY(WebIDL::construct(constructor)); VERIFY(construct_result_optional.has_value()); auto construct_result = construct_result_optional.release_value(); // 4. If SameValue(constructResult, element) is false, then throw a TypeError. if (!JS::same_value(construct_result, this)) return vm.throw_completion("Constructing the custom element returned a different element from the custom element"sv); return {}; }; auto maybe_exception = attempt_to_construct_custom_element(); // Then, perform the following substep, regardless of whether the above steps threw an exception or not: // 1. Remove the last entry from the end of definition's construction stack. (void)custom_element_definition->construction_stack().take_last(); // Finally, if the above steps threw an exception, then: if (maybe_exception.is_throw_completion()) { // 1. Set element's custom element definition to null. m_custom_element_definition = nullptr; // 2. Empty element's custom element reaction queue. m_custom_element_reaction_queue.clear(); // 3. Rethrow the exception (thus terminating this algorithm). return maybe_exception.release_error(); } // FIXME: 9. If element is a form-associated custom element, then: // 1. Reset the form owner of element. If element is associated with a form element, then enqueue a custom element callback reaction with element, callback name "formAssociatedCallback", and « the associated form ». // 2. If element is disabled, then enqueue a custom element callback reaction with element, callback name "formDisabledCallback" and « true ». // 10. Set element's custom element state to "custom". m_custom_element_state = CustomElementState::Custom; return {}; } // https://html.spec.whatwg.org/multipage/custom-elements.html#concept-try-upgrade void Element::try_to_upgrade() { // 1. Let definition be the result of looking up a custom element definition given element's node document, element's namespace, element's local name, and element's is value. auto definition = document().lookup_custom_element_definition(namespace_(), local_name(), m_is_value); // 2. If definition is not null, then enqueue a custom element upgrade reaction given element and definition. if (definition) enqueue_a_custom_element_upgrade_reaction(*definition); } // https://dom.spec.whatwg.org/#concept-element-defined bool Element::is_defined() const { // An element whose custom element state is "uncustomized" or "custom" is said to be defined. return m_custom_element_state == CustomElementState::Uncustomized || m_custom_element_state == CustomElementState::Custom; } // https://dom.spec.whatwg.org/#concept-element-custom bool Element::is_custom() const { // An element whose custom element state is "custom" is said to be custom. return m_custom_element_state == CustomElementState::Custom; } // https://html.spec.whatwg.org/multipage/dom.html#html-element-constructors void Element::setup_custom_element_from_constructor(HTML::CustomElementDefinition& custom_element_definition, Optional const& is_value) { // 7.6. Set element's custom element state to "custom". m_custom_element_state = CustomElementState::Custom; // 7.7. Set element's custom element definition to definition. m_custom_element_definition = custom_element_definition; // 7.8. Set element's is value to is value. m_is_value = is_value; } void Element::set_prefix(DeprecatedFlyString const& value) { m_qualified_name.set_prefix(value); } void Element::for_each_attribute(Function callback) const { for (size_t i = 0; i < m_attributes->length(); ++i) { auto const* attribute = m_attributes->item(i); callback(attribute->name(), attribute->value()); } } Layout::NodeWithStyle* Element::layout_node() { return static_cast(Node::layout_node()); } Layout::NodeWithStyle const* Element::layout_node() const { return static_cast(Node::layout_node()); } bool Element::has_attributes() const { return !m_attributes->is_empty(); } size_t Element::attribute_list_size() const { return m_attributes->length(); } void Element::set_computed_css_values(RefPtr style) { m_computed_css_values = move(style); } void Element::set_custom_properties(Optional pseudo_element, HashMap custom_properties) { if (!pseudo_element.has_value()) { m_custom_properties = move(custom_properties); return; } m_pseudo_element_custom_properties[to_underlying(pseudo_element.value())] = move(custom_properties); } HashMap const& Element::custom_properties(Optional pseudo_element) const { if (!pseudo_element.has_value()) return m_custom_properties; return m_pseudo_element_custom_properties[to_underlying(pseudo_element.value())]; } }