0ct0pu5/ladybird
1
0
Fork 0
Code Issues Pull requests Projects Releases Packages Wiki Activity Actions 2
ladybird/Userland/Libraries/LibWeb/DOM/Node.cpp
Andreas Kling 784dbdef8e LibWeb: Make DOM inspector overlay rects a little nicer 
Instead of just the outline, fill them with some semi-transparent color.
Also add tag name, ID, classes and coordinates to the little tooltip.
Finally, use the border box instead of the context box for metrics,
same as other browsers.
2022-02-26 08:25:46 +01:00

976 lines
35 KiB
C++
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/*
* Copyright (c) 2018-2022, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2021, Linus Groh <linusg@serenityos.org>
* Copyright (c) 2021, Luke Wilde <lukew@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/IDAllocator.h>
#include <AK/StringBuilder.h>
#include <LibJS/AST.h>
#include <LibJS/Runtime/FunctionObject.h>
#include <LibWeb/Bindings/EventWrapper.h>
#include <LibWeb/Bindings/NodeWrapper.h>
#include <LibWeb/Bindings/NodeWrapperFactory.h>
#include <LibWeb/DOM/Comment.h>
#include <LibWeb/DOM/DocumentType.h>
#include <LibWeb/DOM/Element.h>
#include <LibWeb/DOM/ElementFactory.h>
#include <LibWeb/DOM/Event.h>
#include <LibWeb/DOM/EventDispatcher.h>
#include <LibWeb/DOM/IDLEventListener.h>
#include <LibWeb/DOM/LiveNodeList.h>
#include <LibWeb/DOM/Node.h>
#include <LibWeb/DOM/ProcessingInstruction.h>
#include <LibWeb/DOM/ShadowRoot.h>
#include <LibWeb/HTML/BrowsingContextContainer.h>
#include <LibWeb/HTML/HTMLAnchorElement.h>
#include <LibWeb/HTML/Parser/HTMLParser.h>
#include <LibWeb/Layout/InitialContainingBlock.h>
#include <LibWeb/Layout/Node.h>
#include <LibWeb/Layout/TextNode.h>
#include <LibWeb/Origin.h>
namespace Web::DOM {
static IDAllocator s_node_id_allocator;
static HashMap<i32, Node*> s_node_directory;
static i32 allocate_node_id(Node* node)
{
i32 id = s_node_id_allocator.allocate();
s_node_directory.set(id, node);
return id;
}
static void deallocate_node_id(i32 node_id)
{
if (!s_node_directory.remove(node_id))
VERIFY_NOT_REACHED();
s_node_id_allocator.deallocate(node_id);
}
Node* Node::from_id(i32 node_id)
{
return s_node_directory.get(node_id).value_or(nullptr);
}
Node::Node(Document& document, NodeType type)
: EventTarget()
, m_document(&document)
, m_type(type)
, m_id(allocate_node_id(this))
{
if (!is_document())
m_document->ref_from_node({});
}
Node::~Node()
{
VERIFY(m_deletion_has_begun);
if (layout_node() && layout_node()->parent())
layout_node()->parent()->remove_child(*layout_node());
if (!is_document())
m_document->unref_from_node({});
deallocate_node_id(m_id);
}
const HTML::HTMLAnchorElement* Node::enclosing_link_element() const
{
for (auto* node = this; node; node = node->parent()) {
if (is<HTML::HTMLAnchorElement>(*node) && verify_cast<HTML::HTMLAnchorElement>(*node).has_attribute(HTML::AttributeNames::href))
return verify_cast<HTML::HTMLAnchorElement>(node);
}
return nullptr;
}
const HTML::HTMLElement* Node::enclosing_html_element() const
{
return first_ancestor_of_type<HTML::HTMLElement>();
}
const HTML::HTMLElement* Node::enclosing_html_element_with_attribute(const FlyString& attribute) const
{
for (auto* node = this; node; node = node->parent()) {
if (is<HTML::HTMLElement>(*node) && verify_cast<HTML::HTMLElement>(*node).has_attribute(attribute))
return verify_cast<HTML::HTMLElement>(node);
}
return nullptr;
}
// https://dom.spec.whatwg.org/#concept-descendant-text-content
String Node::descendant_text_content() const
{
StringBuilder builder;
for_each_in_subtree_of_type<Text>([&](auto& text_node) {
builder.append(text_node.data());
return IterationDecision::Continue;
});
return builder.to_string();
}
// https://dom.spec.whatwg.org/#dom-node-textcontent
String Node::text_content() const
{
if (is<DocumentFragment>(this) || is<Element>(this))
return descendant_text_content();
else if (is<CharacterData>(this))
return verify_cast<CharacterData>(this)->data();
// FIXME: Else if this is an Attr node, return this's value.
return {};
}
// https://dom.spec.whatwg.org/#ref-for-dom-node-textcontent%E2%91%A0
void Node::set_text_content(String const& content)
{
if (is<DocumentFragment>(this) || is<Element>(this)) {
string_replace_all(content);
} else if (is<CharacterData>(this)) {
// FIXME: CharacterData::set_data is not spec compliant. Make this match the spec when set_data becomes spec compliant.
// Do note that this will make this function able to throw an exception.
auto* character_data_node = verify_cast<CharacterData>(this);
character_data_node->set_data(content);
} else {
// FIXME: Else if this is an Attr node, set an existing attribute value with this and the given value.
return;
}
set_needs_style_update(true);
}
// https://dom.spec.whatwg.org/#dom-node-nodevalue
String Node::node_value() const
{
if (is<Attribute>(this)) {
return verify_cast<Attribute>(this)->value();
}
if (is<CharacterData>(this)) {
return verify_cast<CharacterData>(this)->data();
}
return {};
}
// https://dom.spec.whatwg.org/#ref-for-dom-node-nodevalue%E2%91%A0
void Node::set_node_value(const String& value)
{
if (is<Attribute>(this)) {
verify_cast<Attribute>(this)->set_value(value);
} else if (is<CharacterData>(this)) {
verify_cast<CharacterData>(this)->set_data(value);
}
// Otherwise: Do nothing.
}
void Node::invalidate_style()
{
for_each_in_inclusive_subtree_of_type<Element>([&](auto& element) {
element.set_needs_style_update(true);
return IterationDecision::Continue;
});
document().schedule_style_update();
}
bool Node::is_link() const
{
return enclosing_link_element();
}
String Node::child_text_content() const
{
if (!is<ParentNode>(*this))
return String::empty();
StringBuilder builder;
verify_cast<ParentNode>(*this).for_each_child([&](auto& child) {
if (is<Text>(child))
builder.append(verify_cast<Text>(child).text_content());
});
return builder.build();
}
// https://dom.spec.whatwg.org/#concept-tree-root
Node& Node::root()
{
Node* root = this;
while (root->parent())
root = root->parent();
return *root;
}
// https://dom.spec.whatwg.org/#concept-shadow-including-root
Node& Node::shadow_including_root()
{
auto& node_root = root();
if (is<ShadowRoot>(node_root))
return verify_cast<ShadowRoot>(node_root).host()->shadow_including_root();
return node_root;
}
// https://dom.spec.whatwg.org/#connected
bool Node::is_connected() const
{
return shadow_including_root().is_document();
}
Element* Node::parent_element()
{
if (!parent() || !is<Element>(parent()))
return nullptr;
return verify_cast<Element>(parent());
}
const Element* Node::parent_element() const
{
if (!parent() || !is<Element>(parent()))
return nullptr;
return verify_cast<Element>(parent());
}
// https://dom.spec.whatwg.org/#concept-node-ensure-pre-insertion-validity
ExceptionOr<void> Node::ensure_pre_insertion_validity(NonnullRefPtr<Node> node, RefPtr<Node> child) const
{
if (!is<Document>(this) && !is<DocumentFragment>(this) && !is<Element>(this))
return DOM::HierarchyRequestError::create("Can only insert into a document, document fragment or element");
if (node->is_host_including_inclusive_ancestor_of(*this))
return DOM::HierarchyRequestError::create("New node is an ancestor of this node");
if (child && child->parent() != this)
return DOM::NotFoundError::create("This node is not the parent of the given child");
// FIXME: All the following "Invalid node type for insertion" messages could be more descriptive.
if (!is<DocumentFragment>(*node) && !is<DocumentType>(*node) && !is<Element>(*node) && !is<Text>(*node) && !is<Comment>(*node) && !is<ProcessingInstruction>(*node))
return DOM::HierarchyRequestError::create("Invalid node type for insertion");
if ((is<Text>(*node) && is<Document>(this)) || (is<DocumentType>(*node) && !is<Document>(this)))
return DOM::HierarchyRequestError::create("Invalid node type for insertion");
if (is<Document>(this)) {
if (is<DocumentFragment>(*node)) {
auto node_element_child_count = verify_cast<DocumentFragment>(*node).child_element_count();
if ((node_element_child_count > 1 || node->has_child_of_type<Text>())
|| (node_element_child_count == 1 && (has_child_of_type<Element>() || is<DocumentType>(child.ptr()) || (child && child->has_following_node_of_type_in_tree_order<DocumentType>())))) {
return DOM::HierarchyRequestError::create("Invalid node type for insertion");
}
} else if (is<Element>(*node)) {
if (has_child_of_type<Element>() || is<DocumentType>(child.ptr()) || (child && child->has_following_node_of_type_in_tree_order<DocumentType>()))
return DOM::HierarchyRequestError::create("Invalid node type for insertion");
} else if (is<DocumentType>(*node)) {
if (has_child_of_type<DocumentType>() || (child && child->has_preceding_node_of_type_in_tree_order<Element>()) || (!child && has_child_of_type<Element>()))
return DOM::HierarchyRequestError::create("Invalid node type for insertion");
}
}
return {};
}
// https://dom.spec.whatwg.org/#concept-node-insert
void Node::insert_before(NonnullRefPtr<Node> node, RefPtr<Node> child, bool suppress_observers)
{
NonnullRefPtrVector<Node> nodes;
if (is<DocumentFragment>(*node))
nodes = verify_cast<DocumentFragment>(*node).children_as_vector();
else
nodes.append(node);
auto count = nodes.size();
if (count == 0)
return;
if (is<DocumentFragment>(*node)) {
node->remove_all_children(true);
// FIXME: Queue a tree mutation record for node with « », nodes, null, and null.
}
if (child) {
// FIXME: For each live range whose start node is parent and start offset is greater than childs index, increase its start offset by count.
// FIXME: For each live range whose end node is parent and end offset is greater than childs index, increase its end offset by count.
}
// FIXME: Let previousSibling be childs previous sibling or parents last child if child is null. (Currently unused so not included)
for (auto& node_to_insert : nodes) { // FIXME: In tree order
document().adopt_node(node_to_insert);
if (!child)
TreeNode<Node>::append_child(node_to_insert);
else
TreeNode<Node>::insert_before(node_to_insert, child);
// FIXME: If parent is a shadow host and node is a slottable, then assign a slot for node.
// FIXME: If parents root is a shadow root, and parent is a slot whose assigned nodes is the empty list, then run signal a slot change for parent.
// FIXME: Run assign slottables for a tree with nodes root.
// FIXME: This should be shadow-including.
node_to_insert.for_each_in_inclusive_subtree([&](Node& inclusive_descendant) {
inclusive_descendant.inserted();
if (inclusive_descendant.is_connected()) {
// FIXME: If inclusiveDescendant is custom, then enqueue a custom element callback reaction with inclusiveDescendant,
// callback name "connectedCallback", and an empty argument list.
// FIXME: Otherwise, try to upgrade inclusiveDescendant.
}
return IterationDecision::Continue;
});
}
if (!suppress_observers) {
// FIXME: queue a tree mutation record for parent with nodes, « », previousSibling, and child.
}
children_changed();
}
// https://dom.spec.whatwg.org/#concept-node-pre-insert
ExceptionOr<NonnullRefPtr<Node>> Node::pre_insert(NonnullRefPtr<Node> node, RefPtr<Node> child)
{
auto validity_result = ensure_pre_insertion_validity(node, child);
if (validity_result.is_exception())
return validity_result.exception();
auto reference_child = child;
if (reference_child == node)
reference_child = node->next_sibling();
insert_before(node, reference_child);
return node;
}
// https://dom.spec.whatwg.org/#dom-node-removechild
ExceptionOr<NonnullRefPtr<Node>> Node::remove_child(NonnullRefPtr<Node> child)
{
return pre_remove(child);
}
// https://dom.spec.whatwg.org/#concept-node-pre-remove
ExceptionOr<NonnullRefPtr<Node>> Node::pre_remove(NonnullRefPtr<Node> child)
{
if (child->parent() != this)
return DOM::NotFoundError::create("Child does not belong to this node");
child->remove();
return child;
}
// https://dom.spec.whatwg.org/#concept-node-append
ExceptionOr<NonnullRefPtr<Node>> Node::append_child(NonnullRefPtr<Node> node)
{
return pre_insert(node, nullptr);
}
// https://dom.spec.whatwg.org/#concept-node-remove
void Node::remove(bool suppress_observers)
{
auto* parent = TreeNode<Node>::parent();
VERIFY(parent);
// FIXME: Let index be nodes index. (Currently unused so not included)
// FIXME: For each live range whose start node is an inclusive descendant of node, set its start to (parent, index).
// FIXME: For each live range whose end node is an inclusive descendant of node, set its end to (parent, index).
// FIXME: For each live range whose start node is parent and start offset is greater than index, decrease its start offset by 1.
// FIXME: For each live range whose end node is parent and end offset is greater than index, decrease its end offset by 1.
// FIXME: For each NodeIterator object iterator whose roots node document is nodes node document, run the NodeIterator pre-removing steps given node and iterator.
// FIXME: Let oldPreviousSibling be nodes previous sibling. (Currently unused so not included)
// FIXME: Let oldNextSibling be nodes next sibling. (Currently unused so not included)
parent->TreeNode::remove_child(*this);
// FIXME: If node is assigned, then run assign slottables for nodes assigned slot.
// FIXME: If parents root is a shadow root, and parent is a slot whose assigned nodes is the empty list, then run signal a slot change for parent.
// FIXME: If node has an inclusive descendant that is a slot, then:
// Run assign slottables for a tree with parents root.
// Run assign slottables for a tree with node.
removed_from(parent);
// FIXME: Let isParentConnected be parents connected. (Currently unused so not included)
// FIXME: If node is custom and isParentConnected is true, then enqueue a custom element callback reaction with node,
// callback name "disconnectedCallback", and an empty argument list.
// FIXME: This should be shadow-including.
for_each_in_subtree([&](Node& descendant) {
descendant.removed_from(nullptr);
// FIXME: If descendant is custom and isParentConnected is true, then enqueue a custom element callback reaction with descendant,
// callback name "disconnectedCallback", and an empty argument list.
return IterationDecision::Continue;
});
if (!suppress_observers) {
// FIXME: queue a tree mutation record for parent with « », « node », oldPreviousSibling, and oldNextSibling.
}
parent->children_changed();
}
// https://dom.spec.whatwg.org/#concept-node-replace
ExceptionOr<NonnullRefPtr<Node>> Node::replace_child(NonnullRefPtr<Node> node, NonnullRefPtr<Node> child)
{
// NOTE: This differs slightly from ensure_pre_insertion_validity.
if (!is<Document>(this) && !is<DocumentFragment>(this) && !is<Element>(this))
return DOM::HierarchyRequestError::create("Can only insert into a document, document fragment or element");
if (node->is_host_including_inclusive_ancestor_of(*this))
return DOM::HierarchyRequestError::create("New node is an ancestor of this node");
if (child->parent() != this)
return DOM::NotFoundError::create("This node is not the parent of the given child");
// FIXME: All the following "Invalid node type for insertion" messages could be more descriptive.
if (!is<DocumentFragment>(*node) && !is<DocumentType>(*node) && !is<Element>(*node) && !is<Text>(*node) && !is<Comment>(*node) && !is<ProcessingInstruction>(*node))
return DOM::HierarchyRequestError::create("Invalid node type for insertion");
if ((is<Text>(*node) && is<Document>(this)) || (is<DocumentType>(*node) && !is<Document>(this)))
return DOM::HierarchyRequestError::create("Invalid node type for insertion");
if (is<Document>(this)) {
if (is<DocumentFragment>(*node)) {
auto node_element_child_count = verify_cast<DocumentFragment>(*node).child_element_count();
if ((node_element_child_count > 1 || node->has_child_of_type<Text>())
|| (node_element_child_count == 1 && (first_child_of_type<Element>() != child || child->has_following_node_of_type_in_tree_order<DocumentType>()))) {
return DOM::HierarchyRequestError::create("Invalid node type for insertion");
}
} else if (is<Element>(*node)) {
if (first_child_of_type<Element>() != child || child->has_following_node_of_type_in_tree_order<DocumentType>())
return DOM::HierarchyRequestError::create("Invalid node type for insertion");
} else if (is<DocumentType>(*node)) {
if (first_child_of_type<DocumentType>() != node || child->has_preceding_node_of_type_in_tree_order<Element>())
return DOM::HierarchyRequestError::create("Invalid node type for insertion");
}
}
auto reference_child = child->next_sibling();
if (reference_child == node)
reference_child = node->next_sibling();
// FIXME: Let previousSibling be childs previous sibling. (Currently unused so not included)
// FIXME: Let removedNodes be the empty set. (Currently unused so not included)
if (child->parent()) {
// FIXME: Set removedNodes to « child ».
child->remove(true);
}
// FIXME: Let nodes be nodes children if node is a DocumentFragment node; otherwise « node ». (Currently unused so not included)
insert_before(node, reference_child, true);
// FIXME: Queue a tree mutation record for parent with nodes, removedNodes, previousSibling, and referenceChild.
return child;
}
// https://dom.spec.whatwg.org/#concept-node-clone
NonnullRefPtr<Node> Node::clone_node(Document* document, bool clone_children)
{
if (!document)
document = m_document;
RefPtr<Node> copy;
if (is<Element>(this)) {
auto& element = *verify_cast<Element>(this);
auto element_copy = DOM::create_element(*document, element.local_name(), element.namespace_() /* FIXME: nodes namespace prefix, and nodes is value, with the synchronous custom elements flag unset */);
element.for_each_attribute([&](auto& name, auto& value) {
element_copy->set_attribute(name, value);
});
copy = move(element_copy);
} else if (is<Document>(this)) {
auto document_ = verify_cast<Document>(this);
auto document_copy = Document::create(document_->url());
document_copy->set_encoding(document_->encoding());
document_copy->set_content_type(document_->content_type());
document_copy->set_origin(document_->origin());
document_copy->set_quirks_mode(document_->mode());
// FIXME: Set type ("xml" or "html")
copy = move(document_copy);
} else if (is<DocumentType>(this)) {
auto document_type = verify_cast<DocumentType>(this);
auto document_type_copy = adopt_ref(*new DocumentType(*document));
document_type_copy->set_name(document_type->name());
document_type_copy->set_public_id(document_type->public_id());
document_type_copy->set_system_id(document_type->system_id());
copy = move(document_type_copy);
} else if (is<Text>(this)) {
auto text = verify_cast<Text>(this);
auto text_copy = adopt_ref(*new Text(*document, text->data()));
copy = move(text_copy);
} else if (is<Comment>(this)) {
auto comment = verify_cast<Comment>(this);
auto comment_copy = adopt_ref(*new Comment(*document, comment->data()));
copy = move(comment_copy);
} else if (is<ProcessingInstruction>(this)) {
auto processing_instruction = verify_cast<ProcessingInstruction>(this);
auto processing_instruction_copy = adopt_ref(*new ProcessingInstruction(*document, processing_instruction->data(), processing_instruction->target()));
copy = move(processing_instruction_copy);
} else if (is<DocumentFragment>(this)) {
auto document_fragment_copy = adopt_ref(*new DocumentFragment(*document));
copy = move(document_fragment_copy);
} else {
dbgln("clone_node() not implemented for NodeType {}", (u16)m_type);
TODO();
}
// FIXME: 4. Set copys node document and document to copy, if copy is a document, and set copys node document to document otherwise.
cloned(*copy, clone_children);
if (clone_children) {
for_each_child([&](auto& child) {
copy->append_child(child.clone_node(document, true));
});
}
return copy.release_nonnull();
}
// https://dom.spec.whatwg.org/#dom-node-clonenode
ExceptionOr<NonnullRefPtr<Node>> Node::clone_node_binding(bool deep)
{
if (is<ShadowRoot>(*this))
return NotSupportedError::create("Cannot clone shadow root");
return clone_node(nullptr, deep);
}
void Node::set_document(Badge<Document>, Document& document)
{
if (m_document == &document)
return;
document.ref_from_node({});
m_document->unref_from_node({});
m_document = &document;
if (needs_style_update() || child_needs_style_update()) {
// NOTE: We unset and reset the "needs style update" flag here.
// This ensures that there's a pending style update in the new document
// that will eventually assign some style to this node if needed.
set_needs_style_update(false);
set_needs_style_update(true);
}
}
bool Node::is_editable() const
{
return parent() && parent()->is_editable();
}
JS::Object* Node::create_wrapper(JS::GlobalObject& global_object)
{
return wrap(global_object, *this);
}
void Node::removed_last_ref()
{
if (is<Document>(*this)) {
verify_cast<Document>(*this).removed_last_ref();
return;
}
m_deletion_has_begun = true;
delete this;
}
void Node::set_layout_node(Badge<Layout::Node>, Layout::Node* layout_node) const
{
if (layout_node)
m_layout_node = layout_node->make_weak_ptr();
else
m_layout_node = nullptr;
}
EventTarget* Node::get_parent(const Event&)
{
// FIXME: returns the nodes assigned slot, if node is assigned, and nodes parent otherwise.
return parent();
}
void Node::set_needs_style_update(bool value)
{
if (m_needs_style_update == value)
return;
m_needs_style_update = value;
if (m_needs_style_update) {
for (auto* ancestor = parent(); ancestor; ancestor = ancestor->parent()) {
ancestor->m_child_needs_style_update = true;
}
document().schedule_style_update();
}
}
void Node::inserted()
{
set_needs_style_update(true);
}
ParentNode* Node::parent_or_shadow_host()
{
if (is<ShadowRoot>(*this))
return verify_cast<ShadowRoot>(*this).host();
return verify_cast<ParentNode>(parent());
}
NonnullRefPtr<NodeList> Node::child_nodes()
{
// FIXME: This should return the same LiveNodeList object every time,
// but that would cause a reference cycle since NodeList refs the root.
return LiveNodeList::create(*this, [this](auto& node) {
return is_parent_of(node);
});
}
NonnullRefPtrVector<Node> Node::children_as_vector() const
{
NonnullRefPtrVector<Node> nodes;
for_each_child([&](auto& child) {
nodes.append(child);
});
return nodes;
}
void Node::remove_all_children(bool suppress_observers)
{
while (RefPtr<Node> child = first_child())
child->remove(suppress_observers);
}
// https://dom.spec.whatwg.org/#dom-node-comparedocumentposition
u16 Node::compare_document_position(RefPtr<Node> other)
{
enum Position : u16 {
DOCUMENT_POSITION_EQUAL = 0,
DOCUMENT_POSITION_DISCONNECTED = 1,
DOCUMENT_POSITION_PRECEDING = 2,
DOCUMENT_POSITION_FOLLOWING = 4,
DOCUMENT_POSITION_CONTAINS = 8,
DOCUMENT_POSITION_CONTAINED_BY = 16,
DOCUMENT_POSITION_IMPLEMENTATION_SPECIFIC = 32,
};
if (this == other)
return DOCUMENT_POSITION_EQUAL;
Node* node1 = other.ptr();
Node* node2 = this;
// FIXME: Once LibWeb supports attribute nodes fix to follow the specification.
VERIFY(node1->type() != NodeType::ATTRIBUTE_NODE && node2->type() != NodeType::ATTRIBUTE_NODE);
if ((node1 == nullptr || node2 == nullptr) || (&node1->root() != &node2->root()))
return DOCUMENT_POSITION_DISCONNECTED | DOCUMENT_POSITION_IMPLEMENTATION_SPECIFIC | (node1 > node2 ? DOCUMENT_POSITION_PRECEDING : DOCUMENT_POSITION_FOLLOWING);
if (node1->is_ancestor_of(*node2))
return DOCUMENT_POSITION_CONTAINS | DOCUMENT_POSITION_PRECEDING;
if (node2->is_ancestor_of(*node1))
return DOCUMENT_POSITION_CONTAINED_BY | DOCUMENT_POSITION_FOLLOWING;
if (node1->is_before(*node2))
return DOCUMENT_POSITION_PRECEDING;
else
return DOCUMENT_POSITION_FOLLOWING;
}
// https://dom.spec.whatwg.org/#concept-tree-host-including-inclusive-ancestor
bool Node::is_host_including_inclusive_ancestor_of(const Node& other) const
{
return is_inclusive_ancestor_of(other) || (is<DocumentFragment>(other.root()) && verify_cast<DocumentFragment>(other.root()).host() && is_inclusive_ancestor_of(*verify_cast<DocumentFragment>(other.root()).host().ptr()));
}
// https://dom.spec.whatwg.org/#dom-node-ownerdocument
RefPtr<Document> Node::owner_document() const
{
if (is_document())
return nullptr;
return m_document;
}
// This function tells us whether a node is interesting enough to show up
// in the DOM inspector. This hides two things:
// - Non-rendered whitespace
// - Rendered whitespace between block-level elements
bool Node::is_uninteresting_whitespace_node() const
{
if (!is<Text>(*this))
return false;
if (!static_cast<Text const&>(*this).data().is_whitespace())
return false;
if (!layout_node())
return true;
if (layout_node()->parent()->is_anonymous())
return true;
return false;
}
void Node::serialize_tree_as_json(JsonObjectSerializer<StringBuilder>& object) const
{
object.add("name", node_name().view());
object.add("id", id());
if (is_document()) {
object.add("type", "document");
} else if (is_element()) {
object.add("type", "element");
auto const* element = static_cast<DOM::Element const*>(this);
if (element->has_attributes()) {
auto attributes = object.add_object("attributes");
element->for_each_attribute([&attributes](auto& name, auto& value) {
attributes.add(name, value);
});
}
if (element->is_browsing_context_container()) {
auto const* container = static_cast<HTML::BrowsingContextContainer const*>(element);
if (auto const* content_document = container->content_document()) {
auto children = object.add_array("children");
JsonObjectSerializer<StringBuilder> content_document_object = children.add_object();
content_document->serialize_tree_as_json(content_document_object);
}
}
} else if (is_text()) {
object.add("type", "text");
auto text_node = static_cast<DOM::Text const*>(this);
object.add("text", text_node->data());
} else if (is_comment()) {
object.add("type"sv, "comment"sv);
object.add("data"sv, static_cast<DOM::Comment const&>(*this).data());
}
if (has_child_nodes()) {
auto children = object.add_array("children");
for_each_child([&children](DOM::Node& child) {
if (child.is_uninteresting_whitespace_node())
return;
JsonObjectSerializer<StringBuilder> child_object = children.add_object();
child.serialize_tree_as_json(child_object);
});
}
}
// https://html.spec.whatwg.org/multipage/webappapis.html#concept-n-noscript
bool Node::is_scripting_disabled() const
{
// FIXME: or when scripting is disabled for its relevant settings object.
return !document().browsing_context();
}
// https://dom.spec.whatwg.org/#dom-node-contains
bool Node::contains(RefPtr<Node> other) const
{
return other && other->is_inclusive_descendant_of(*this);
}
// https://dom.spec.whatwg.org/#concept-shadow-including-descendant
bool Node::is_shadow_including_descendant_of(Node const& other) const
{
if (is_descendant_of(other))
return true;
if (!is<ShadowRoot>(root()))
return false;
auto& shadow_root = verify_cast<ShadowRoot>(root());
// NOTE: While host is nullable because of inheriting from DocumentFragment, shadow roots always have a host.
return shadow_root.host()->is_shadow_including_inclusive_descendant_of(other);
}
// https://dom.spec.whatwg.org/#concept-shadow-including-inclusive-descendant
bool Node::is_shadow_including_inclusive_descendant_of(Node const& other) const
{
return &other == this || is_shadow_including_descendant_of(other);
}
// https://dom.spec.whatwg.org/#concept-shadow-including-ancestor
bool Node::is_shadow_including_ancestor_of(Node const& other) const
{
return other.is_shadow_including_descendant_of(*this);
}
// https://dom.spec.whatwg.org/#concept-shadow-including-inclusive-ancestor
bool Node::is_shadow_including_inclusive_ancestor_of(Node const& other) const
{
return other.is_shadow_including_inclusive_descendant_of(*this);
}
// https://dom.spec.whatwg.org/#concept-node-replace-all
void Node::replace_all(RefPtr<Node> node)
{
// FIXME: Let removedNodes be parents children. (Current unused so not included)
// FIXME: Let addedNodes be the empty set. (Currently unused so not included)
// FIXME: If node is a DocumentFragment node, then set addedNodes to nodes children.
// FIXME: Otherwise, if node is non-null, set addedNodes to « node ».
remove_all_children(true);
if (node)
insert_before(*node, nullptr, true);
// FIXME: If either addedNodes or removedNodes is not empty, then queue a tree mutation record for parent with addedNodes, removedNodes, null, and null.
}
// https://dom.spec.whatwg.org/#string-replace-all
void Node::string_replace_all(String const& string)
{
RefPtr<Node> node;
if (!string.is_empty())
node = make_ref_counted<Text>(document(), string);
replace_all(node);
}
// https://w3c.github.io/DOM-Parsing/#dfn-fragment-serializing-algorithm
String Node::serialize_fragment(/* FIXME: Requires well-formed flag */) const
{
// FIXME: Let context document be the value of node's node document.
// FIXME: If context document is an HTML document, return an HTML serialization of node.
// (We currently always do this)
return HTML::HTMLParser::serialize_html_fragment(*this);
// FIXME: Otherwise, context document is an XML document; return an XML serialization of node passing the flag require well-formed.
}
// https://dom.spec.whatwg.org/#dom-node-issamenode
bool Node::is_same_node(Node const* other_node) const
{
return this == other_node;
}
// https://dom.spec.whatwg.org/#dom-node-isequalnode
bool Node::is_equal_node(Node const* other_node) const
{
// The isEqualNode(otherNode) method steps are to return true if otherNode is non-null and this equals otherNode; otherwise false.
if (!other_node)
return false;
// Fast path for testing a node against itself.
if (this == other_node)
return true;
// A node A equals a node B if all of the following conditions are true:
// A and B implement the same interfaces.
if (node_name() != other_node->node_name())
return false;
// The following are equal, switching on the interface A implements:
switch (node_type()) {
case (u16)NodeType::DOCUMENT_TYPE_NODE: {
// Its name, public ID, and system ID.
auto& this_doctype = verify_cast<DocumentType>(*this);
auto& other_doctype = verify_cast<DocumentType>(*other_node);
if (this_doctype.name() != other_doctype.name()
|| this_doctype.public_id() != other_doctype.public_id()
|| this_doctype.system_id() != other_doctype.system_id())
return false;
break;
}
case (u16)NodeType::ELEMENT_NODE: {
// Its namespace, namespace prefix, local name, and its attribute lists size.
auto& this_element = verify_cast<Element>(*this);
auto& other_element = verify_cast<Element>(*other_node);
if (this_element.namespace_() != other_element.namespace_()
|| this_element.prefix() != other_element.prefix()
|| this_element.local_name() != other_element.local_name()
|| this_element.attribute_list_size() != other_element.attribute_list_size())
return false;
// If A is an element, each attribute in its attribute list has an attribute that equals an attribute in Bs attribute list.
bool has_same_attributes = true;
this_element.for_each_attribute([&](auto& name, auto& value) {
if (other_element.get_attribute(name) != value)
has_same_attributes = false;
});
if (!has_same_attributes)
return false;
break;
}
case (u16)NodeType::COMMENT_NODE:
case (u16)NodeType::TEXT_NODE: {
// Its data.
auto& this_cdata = verify_cast<CharacterData>(*this);
auto& other_cdata = verify_cast<CharacterData>(*other_node);
if (this_cdata.data() != other_cdata.data())
return false;
break;
}
case (u16)NodeType::PROCESSING_INSTRUCTION_NODE:
case (u16)NodeType::ATTRIBUTE_NODE:
TODO();
default:
break;
}
// A and B have the same number of children.
size_t this_child_count = child_count();
size_t other_child_count = other_node->child_count();
if (this_child_count != other_child_count)
return false;
// Each child of A equals the child of B at the identical index.
// FIXME: This can be made nicer. child_at_index() is O(n).
for (size_t i = 0; i < this_child_count; ++i) {
auto* this_child = child_at_index(i);
auto* other_child = other_node->child_at_index(i);
VERIFY(this_child);
VERIFY(other_child);
if (!this_child->is_equal_node(other_child))
return false;
}
return true;
}
// https://dom.spec.whatwg.org/#in-a-document-tree
bool Node::in_a_document_tree() const
{
// An element is in a document tree if its root is a document.
return root().is_document();
}
// https://dom.spec.whatwg.org/#dom-node-getrootnode
NonnullRefPtr<Node> Node::get_root_node(GetRootNodeOptions const& options)
{
// The getRootNode(options) method steps are to return thiss shadow-including root if options["composed"] is true; otherwise thiss root.
if (options.composed)
return shadow_including_root();
return root();
}
String Node::debug_description() const
{
StringBuilder builder;
builder.append(node_name().to_lowercase());
if (is_element()) {
auto& element = static_cast<DOM::Element const&>(*this);
if (auto id = element.get_attribute(HTML::AttributeNames::id); !id.is_null())
builder.appendff("#{}", id);
for (auto const& class_name : element.class_names())
builder.appendff(".{}", class_name);
}
return builder.to_string();
}
}
Reference in a new issue View git blame Copy permalink