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servo/components/script/dom/node.rs
Connor Brewster d004db95cf Make non-initial about:blank loads asynchronous 
Don't update iframe pipeline until load completes

To preserve the previous functionality of delaying load events when a
new navigation is triggered, pending pipeline id represents the
current pending load. The load event is only fired if the load message's
pipeline id matches the pending pipeline id.

Track frame size on Frame instead of Pipeline

Disabled matchMedia test

Track creator pipeline id
2017-05-12 11:53:43 -06:00

2725 lines
96 KiB
Rust
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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
//! The core DOM types. Defines the basic DOM hierarchy as well as all the HTML elements.
use app_units::Au;
use devtools_traits::NodeInfo;
use document_loader::DocumentLoader;
use dom::bindings::codegen::Bindings::CharacterDataBinding::CharacterDataMethods;
use dom::bindings::codegen::Bindings::DocumentBinding::DocumentMethods;
use dom::bindings::codegen::Bindings::ElementBinding::ElementMethods;
use dom::bindings::codegen::Bindings::HTMLCollectionBinding::HTMLCollectionMethods;
use dom::bindings::codegen::Bindings::NodeBinding::{NodeConstants, NodeMethods};
use dom::bindings::codegen::Bindings::NodeListBinding::NodeListMethods;
use dom::bindings::codegen::Bindings::ProcessingInstructionBinding::ProcessingInstructionMethods;
use dom::bindings::codegen::Bindings::WindowBinding::WindowMethods;
use dom::bindings::codegen::UnionTypes::NodeOrString;
use dom::bindings::conversions::{self, DerivedFrom};
use dom::bindings::error::{Error, ErrorResult, Fallible};
use dom::bindings::inheritance::{Castable, CharacterDataTypeId, ElementTypeId};
use dom::bindings::inheritance::{EventTargetTypeId, HTMLElementTypeId, NodeTypeId};
use dom::bindings::inheritance::{SVGElementTypeId, SVGGraphicsElementTypeId};
use dom::bindings::js::{JS, LayoutJS, MutNullableJS};
use dom::bindings::js::Root;
use dom::bindings::js::RootedReference;
use dom::bindings::reflector::{DomObject, reflect_dom_object};
use dom::bindings::str::{DOMString, USVString};
use dom::bindings::xmlname::namespace_from_domstring;
use dom::characterdata::{CharacterData, LayoutCharacterDataHelpers};
use dom::cssstylesheet::CSSStyleSheet;
use dom::document::{Document, DocumentSource, HasBrowsingContext, IsHTMLDocument};
use dom::documentfragment::DocumentFragment;
use dom::documenttype::DocumentType;
use dom::element::{Element, ElementCreator};
use dom::eventtarget::EventTarget;
use dom::globalscope::GlobalScope;
use dom::htmlbodyelement::HTMLBodyElement;
use dom::htmlcanvaselement::{HTMLCanvasElement, LayoutHTMLCanvasElementHelpers};
use dom::htmlcollection::HTMLCollection;
use dom::htmlelement::HTMLElement;
use dom::htmliframeelement::{HTMLIFrameElement, HTMLIFrameElementLayoutMethods};
use dom::htmlimageelement::{HTMLImageElement, LayoutHTMLImageElementHelpers};
use dom::htmlinputelement::{HTMLInputElement, LayoutHTMLInputElementHelpers};
use dom::htmllinkelement::HTMLLinkElement;
use dom::htmlmetaelement::HTMLMetaElement;
use dom::htmlstyleelement::HTMLStyleElement;
use dom::htmltextareaelement::{HTMLTextAreaElement, LayoutHTMLTextAreaElementHelpers};
use dom::nodelist::NodeList;
use dom::processinginstruction::ProcessingInstruction;
use dom::range::WeakRangeVec;
use dom::svgsvgelement::{SVGSVGElement, LayoutSVGSVGElementHelpers};
use dom::text::Text;
use dom::virtualmethods::{VirtualMethods, vtable_for};
use dom::window::Window;
use dom_struct::dom_struct;
use euclid::point::Point2D;
use euclid::rect::Rect;
use euclid::size::Size2D;
use heapsize::{HeapSizeOf, heap_size_of};
use html5ever::{Prefix, Namespace, QualName};
use js::jsapi::{JSContext, JSObject, JSRuntime};
use libc::{self, c_void, uintptr_t};
use msg::constellation_msg::{FrameId, PipelineId};
use ref_slice::ref_slice;
use script_layout_interface::{HTMLCanvasData, OpaqueStyleAndLayoutData, SVGSVGData};
use script_layout_interface::{LayoutElementType, LayoutNodeType, TrustedNodeAddress};
use script_layout_interface::message::Msg;
use script_traits::DocumentActivity;
use script_traits::UntrustedNodeAddress;
use selectors::matching::matches_selector_list;
use selectors::parser::SelectorList;
use servo_url::ServoUrl;
use std::borrow::ToOwned;
use std::cell::{Cell, UnsafeCell};
use std::cmp::max;
use std::default::Default;
use std::iter;
use std::mem;
use std::ops::Range;
use style::context::QuirksMode;
use style::dom::OpaqueNode;
use style::selector_parser::{SelectorImpl, SelectorParser};
use style::stylearc::Arc;
use style::stylesheets::Stylesheet;
use style::thread_state;
use uuid::Uuid;
//
// The basic Node structure
//
/// An HTML node.
#[dom_struct]
pub struct Node {
/// The JavaScript reflector for this node.
eventtarget: EventTarget,
/// The parent of this node.
parent_node: MutNullableJS<Node>,
/// The first child of this node.
first_child: MutNullableJS<Node>,
/// The last child of this node.
last_child: MutNullableJS<Node>,
/// The next sibling of this node.
next_sibling: MutNullableJS<Node>,
/// The previous sibling of this node.
prev_sibling: MutNullableJS<Node>,
/// The document that this node belongs to.
owner_doc: MutNullableJS<Document>,
/// The live list of children return by .childNodes.
child_list: MutNullableJS<NodeList>,
/// The live count of children of this node.
children_count: Cell<u32>,
/// A bitfield of flags for node items.
flags: Cell<NodeFlags>,
/// The maximum version of any inclusive descendant of this node.
inclusive_descendants_version: Cell<u64>,
/// A vector of weak references to Range instances of which the start
/// or end containers are this node. No range should ever be found
/// twice in this vector, even if both the start and end containers
/// are this node.
ranges: WeakRangeVec,
/// Style+Layout information. Only the layout thread may touch this data.
///
/// Must be sent back to the layout thread to be destroyed when this
/// node is finalized.
style_and_layout_data: Cell<Option<OpaqueStyleAndLayoutData>>,
unique_id: UniqueId,
}
bitflags! {
#[doc = "Flags for node items."]
#[derive(JSTraceable, HeapSizeOf)]
pub flags NodeFlags: u16 {
#[doc = "Specifies whether this node is in a document."]
const IS_IN_DOC = 1 << 0,
#[doc = "Specifies whether this node needs style recalc on next reflow."]
const HAS_DIRTY_DESCENDANTS = 1 << 1,
// TODO: find a better place to keep this (#4105)
// https://critic.hoppipolla.co.uk/showcomment?chain=8873
// Perhaps using a Set in Document?
#[doc = "Specifies whether or not there is an authentic click in progress on \
this element."]
const CLICK_IN_PROGRESS = 1 << 2,
#[doc = "Specifies whether this node is focusable and whether it is supposed \
to be reachable with using sequential focus navigation."]
const SEQUENTIALLY_FOCUSABLE = 1 << 3,
/// Whether any ancestor is a fragmentation container
const CAN_BE_FRAGMENTED = 1 << 4,
#[doc = "Specifies whether this node needs to be dirted when viewport size changed."]
const DIRTY_ON_VIEWPORT_SIZE_CHANGE = 1 << 5,
#[doc = "Specifies whether the parser has set an associated form owner for \
this element. Only applicable for form-associatable elements."]
const PARSER_ASSOCIATED_FORM_OWNER = 1 << 6,
/// Whether this element has a snapshot stored due to a style or
/// attribute change.
///
/// See the `style::restyle_hints` module.
const HAS_SNAPSHOT = 1 << 7,
/// Whether this element has already handled the stored snapshot.
const HANDLED_SNAPSHOT = 1 << 8,
}
}
impl NodeFlags {
pub fn new() -> NodeFlags {
NodeFlags::empty()
}
}
impl Drop for Node {
#[allow(unsafe_code)]
fn drop(&mut self) {
self.style_and_layout_data.get().map(|d| self.dispose(d));
}
}
/// suppress observers flag
/// https://dom.spec.whatwg.org/#concept-node-insert
/// https://dom.spec.whatwg.org/#concept-node-remove
#[derive(Copy, Clone, HeapSizeOf)]
enum SuppressObserver {
Suppressed,
Unsuppressed
}
impl Node {
/// Sends the style and layout data, if any, back to the layout thread to be destroyed.
pub fn dispose(&self, data: OpaqueStyleAndLayoutData) {
debug_assert!(thread_state::get().is_script());
let win = window_from_node(self);
self.style_and_layout_data.set(None);
if win.layout_chan().send(Msg::ReapStyleAndLayoutData(data)).is_err() {
warn!("layout thread unreachable - leaking layout data");
}
}
/// Adds a new child to the end of this node's list of children.
///
/// Fails unless `new_child` is disconnected from the tree.
fn add_child(&self, new_child: &Node, before: Option<&Node>) {
assert!(new_child.parent_node.get().is_none());
assert!(new_child.prev_sibling.get().is_none());
assert!(new_child.next_sibling.get().is_none());
match before {
Some(ref before) => {
assert!(before.parent_node.get().r() == Some(self));
let prev_sibling = before.GetPreviousSibling();
match prev_sibling {
None => {
assert!(Some(*before) == self.first_child.get().r());
self.first_child.set(Some(new_child));
},
Some(ref prev_sibling) => {
prev_sibling.next_sibling.set(Some(new_child));
new_child.prev_sibling.set(Some(&prev_sibling));
},
}
before.prev_sibling.set(Some(new_child));
new_child.next_sibling.set(Some(before));
},
None => {
let last_child = self.GetLastChild();
match last_child {
None => self.first_child.set(Some(new_child)),
Some(ref last_child) => {
assert!(last_child.next_sibling.get().is_none());
last_child.next_sibling.set(Some(new_child));
new_child.prev_sibling.set(Some(&last_child));
}
}
self.last_child.set(Some(new_child));
},
}
new_child.parent_node.set(Some(self));
self.children_count.set(self.children_count.get() + 1);
let parent_in_doc = self.is_in_doc();
for node in new_child.traverse_preorder() {
node.set_flag(IS_IN_DOC, parent_in_doc);
// Out-of-document elements never have the descendants flag set.
debug_assert!(!node.get_flag(HAS_DIRTY_DESCENDANTS));
vtable_for(&&*node).bind_to_tree(parent_in_doc);
}
let document = new_child.owner_doc();
document.content_and_heritage_changed(new_child, NodeDamage::OtherNodeDamage);
}
/// Removes the given child from this node's list of children.
///
/// Fails unless `child` is a child of this node.
fn remove_child(&self, child: &Node, cached_index: Option<u32>) {
assert!(child.parent_node.get().r() == Some(self));
let prev_sibling = child.GetPreviousSibling();
match prev_sibling {
None => {
self.first_child.set(child.next_sibling.get().r());
}
Some(ref prev_sibling) => {
prev_sibling.next_sibling.set(child.next_sibling.get().r());
}
}
let next_sibling = child.GetNextSibling();
match next_sibling {
None => {
self.last_child.set(child.prev_sibling.get().r());
}
Some(ref next_sibling) => {
next_sibling.prev_sibling.set(child.prev_sibling.get().r());
}
}
let context = UnbindContext::new(self, prev_sibling.r(), cached_index);
child.prev_sibling.set(None);
child.next_sibling.set(None);
child.parent_node.set(None);
self.children_count.set(self.children_count.get() - 1);
for node in child.traverse_preorder() {
// Out-of-document elements never have the descendants flag set.
node.set_flag(IS_IN_DOC | HAS_DIRTY_DESCENDANTS |
HAS_SNAPSHOT | HANDLED_SNAPSHOT,
false);
}
for node in child.traverse_preorder() {
// This needs to be in its own loop, because unbind_from_tree may
// rely on the state of IS_IN_DOC of the context node's descendants,
// e.g. when removing a <form>.
vtable_for(&&*node).unbind_from_tree(&context);
node.style_and_layout_data.get().map(|d| node.dispose(d));
}
self.owner_doc().content_and_heritage_changed(self, NodeDamage::OtherNodeDamage);
child.owner_doc().content_and_heritage_changed(child, NodeDamage::OtherNodeDamage);
}
pub fn to_untrusted_node_address(&self) -> UntrustedNodeAddress {
UntrustedNodeAddress(self.reflector().get_jsobject().get() as *const c_void)
}
}
pub struct QuerySelectorIterator {
selectors: SelectorList<SelectorImpl>,
iterator: TreeIterator,
}
impl<'a> QuerySelectorIterator {
fn new(iter: TreeIterator, selectors: SelectorList<SelectorImpl>)
-> QuerySelectorIterator {
QuerySelectorIterator {
selectors: selectors,
iterator: iter,
}
}
}
impl<'a> Iterator for QuerySelectorIterator {
type Item = Root<Node>;
fn next(&mut self) -> Option<Root<Node>> {
let selectors = &self.selectors.0;
// TODO(cgaebel): Is it worth it to build a bloom filter here
// (instead of passing `None`)? Probably.
self.iterator.by_ref().filter_map(|node| {
if let Some(element) = Root::downcast(node) {
if matches_selector_list(selectors, &element, None) {
return Some(Root::upcast(element));
}
}
None
}).next()
}
}
impl Node {
pub fn teardown(&self) {
self.style_and_layout_data.get().map(|d| self.dispose(d));
for kid in self.children() {
kid.teardown();
}
}
/// Dumps the subtree rooted at this node, for debugging.
pub fn dump(&self) {
self.dump_indent(0);
}
/// Dumps the node tree, for debugging, with indentation.
pub fn dump_indent(&self, indent: u32) {
let mut s = String::new();
for _ in 0..indent {
s.push_str(" ");
}
s.push_str(&*self.debug_str());
debug!("{:?}", s);
// FIXME: this should have a pure version?
for kid in self.children() {
kid.dump_indent(indent + 1)
}
}
/// Returns a string that describes this node.
pub fn debug_str(&self) -> String {
format!("{:?}", self.type_id())
}
pub fn is_in_doc(&self) -> bool {
self.flags.get().contains(IS_IN_DOC)
}
/// Returns the type ID of this node.
pub fn type_id(&self) -> NodeTypeId {
match *self.eventtarget.type_id() {
EventTargetTypeId::Node(type_id) => type_id,
_ => unreachable!(),
}
}
// https://dom.spec.whatwg.org/#concept-node-length
pub fn len(&self) -> u32 {
match self.type_id() {
NodeTypeId::DocumentType => 0,
NodeTypeId::CharacterData(_) => {
self.downcast::<CharacterData>().unwrap().Length()
},
_ => self.children_count(),
}
}
// https://dom.spec.whatwg.org/#concept-tree-index
pub fn index(&self) -> u32 {
self.preceding_siblings().count() as u32
}
pub fn children_count(&self) -> u32 {
self.children_count.get()
}
pub fn ranges(&self) -> &WeakRangeVec {
&self.ranges
}
#[inline]
pub fn is_doctype(&self) -> bool {
self.type_id() == NodeTypeId::DocumentType
}
pub fn get_flag(&self, flag: NodeFlags) -> bool {
self.flags.get().contains(flag)
}
pub fn set_flag(&self, flag: NodeFlags, value: bool) {
let mut flags = self.flags.get();
if value {
flags.insert(flag);
} else {
flags.remove(flag);
}
self.flags.set(flags);
}
pub fn has_dirty_descendants(&self) -> bool {
self.get_flag(HAS_DIRTY_DESCENDANTS)
}
pub fn rev_version(&self) {
// The new version counter is 1 plus the max of the node's current version counter,
// its descendants version, and the document's version. Normally, this will just be
// the document's version, but we do have to deal with the case where the node has moved
// document, so may have a higher version count than its owning document.
let doc: Root<Node> = Root::upcast(self.owner_doc());
let version = max(self.inclusive_descendants_version(), doc.inclusive_descendants_version()) + 1;
for ancestor in self.inclusive_ancestors() {
ancestor.inclusive_descendants_version.set(version);
}
doc.inclusive_descendants_version.set(version);
}
pub fn dirty(&self, damage: NodeDamage) {
self.rev_version();
if !self.is_in_doc() {
return;
}
match self.type_id() {
NodeTypeId::CharacterData(CharacterDataTypeId::Text) =>
self.parent_node.get().unwrap().downcast::<Element>().unwrap().restyle(damage),
NodeTypeId::Element(_) =>
self.downcast::<Element>().unwrap().restyle(damage),
_ => {},
};
}
/// The maximum version number of this node's descendants, including itself
pub fn inclusive_descendants_version(&self) -> u64 {
self.inclusive_descendants_version.get()
}
/// Iterates over this node and all its descendants, in preorder.
pub fn traverse_preorder(&self) -> TreeIterator {
TreeIterator::new(self)
}
pub fn inclusively_following_siblings(&self) -> NodeSiblingIterator {
NodeSiblingIterator {
current: Some(Root::from_ref(self)),
}
}
pub fn inclusively_preceding_siblings(&self) -> ReverseSiblingIterator {
ReverseSiblingIterator {
current: Some(Root::from_ref(self)),
}
}
pub fn is_inclusive_ancestor_of(&self, parent: &Node) -> bool {
self == parent || self.is_ancestor_of(parent)
}
pub fn is_ancestor_of(&self, parent: &Node) -> bool {
parent.ancestors().any(|ancestor| &*ancestor == self)
}
pub fn following_siblings(&self) -> NodeSiblingIterator {
NodeSiblingIterator {
current: self.GetNextSibling(),
}
}
pub fn preceding_siblings(&self) -> ReverseSiblingIterator {
ReverseSiblingIterator {
current: self.GetPreviousSibling(),
}
}
pub fn following_nodes(&self, root: &Node) -> FollowingNodeIterator {
FollowingNodeIterator {
current: Some(Root::from_ref(self)),
root: Root::from_ref(root),
}
}
pub fn preceding_nodes(&self, root: &Node) -> PrecedingNodeIterator {
PrecedingNodeIterator {
current: Some(Root::from_ref(self)),
root: Root::from_ref(root),
}
}
pub fn descending_last_children(&self) -> LastChildIterator {
LastChildIterator {
current: self.GetLastChild(),
}
}
pub fn is_parent_of(&self, child: &Node) -> bool {
child.parent_node.get().map_or(false, |parent| &*parent == self)
}
pub fn to_trusted_node_address(&self) -> TrustedNodeAddress {
TrustedNodeAddress(&*self as *const Node as *const libc::c_void)
}
/// Returns the rendered bounding content box if the element is rendered,
/// and none otherwise.
pub fn bounding_content_box(&self) -> Option<Rect<Au>> {
window_from_node(self)
.content_box_query(self.to_trusted_node_address())
}
pub fn bounding_content_box_or_zero(&self) -> Rect<Au> {
self.bounding_content_box().unwrap_or_else(Rect::zero)
}
pub fn content_boxes(&self) -> Vec<Rect<Au>> {
window_from_node(self).content_boxes_query(self.to_trusted_node_address())
}
pub fn client_rect(&self) -> Rect<i32> {
window_from_node(self).client_rect_query(self.to_trusted_node_address())
}
// https://drafts.csswg.org/cssom-view/#dom-element-scrollwidth
// https://drafts.csswg.org/cssom-view/#dom-element-scrollheight
// https://drafts.csswg.org/cssom-view/#dom-element-scrolltop
// https://drafts.csswg.org/cssom-view/#dom-element-scrollleft
pub fn scroll_area(&self) -> Rect<i32> {
// Step 1
let document = self.owner_doc();
// Step 3
let window = document.window();
let html_element = document.GetDocumentElement();
let is_body_element = self.downcast::<HTMLBodyElement>()
.map_or(false, |e| e.is_the_html_body_element());
let scroll_area = window.scroll_area_query(self.to_trusted_node_address());
match (document != window.Document(), is_body_element, document.quirks_mode(),
html_element.r() == self.downcast::<Element>()) {
// Step 2 && Step 5
(true, _, _, _) | (_, false, QuirksMode::Quirks, true) => Rect::zero(),
// Step 6 && Step 7
(false, false, _, true) | (false, true, QuirksMode::Quirks, _) => {
Rect::new(Point2D::new(window.ScrollX(), window.ScrollY()),
Size2D::new(max(window.InnerWidth(), scroll_area.size.width),
max(window.InnerHeight(), scroll_area.size.height)))
},
// Step 9
_ => scroll_area
}
}
pub fn scroll_offset(&self) -> Point2D<f32> {
let document = self.owner_doc();
let window = document.window();
window.scroll_offset_query(self)
}
// https://dom.spec.whatwg.org/#dom-childnode-before
pub fn before(&self, nodes: Vec<NodeOrString>) -> ErrorResult {
// Step 1.
let parent = &self.parent_node;
// Step 2.
let parent = match parent.get() {
None => return Ok(()),
Some(parent) => parent,
};
// Step 3.
let viable_previous_sibling = first_node_not_in(self.preceding_siblings(), &nodes);
// Step 4.
let node = try!(self.owner_doc().node_from_nodes_and_strings(nodes));
// Step 5.
let viable_previous_sibling = match viable_previous_sibling {
Some(ref viable_previous_sibling) => viable_previous_sibling.next_sibling.get(),
None => parent.first_child.get(),
};
// Step 6.
try!(Node::pre_insert(&node, &parent, viable_previous_sibling.r()));
Ok(())
}
// https://dom.spec.whatwg.org/#dom-childnode-after
pub fn after(&self, nodes: Vec<NodeOrString>) -> ErrorResult {
// Step 1.
let parent = &self.parent_node;
// Step 2.
let parent = match parent.get() {
None => return Ok(()),
Some(parent) => parent,
};
// Step 3.
let viable_next_sibling = first_node_not_in(self.following_siblings(), &nodes);
// Step 4.
let node = try!(self.owner_doc().node_from_nodes_and_strings(nodes));
// Step 5.
try!(Node::pre_insert(&node, &parent, viable_next_sibling.r()));
Ok(())
}
// https://dom.spec.whatwg.org/#dom-childnode-replacewith
pub fn replace_with(&self, nodes: Vec<NodeOrString>) -> ErrorResult {
// Step 1.
let parent = if let Some(parent) = self.GetParentNode() {
parent
} else {
// Step 2.
return Ok(());
};
// Step 3.
let viable_next_sibling = first_node_not_in(self.following_siblings(), &nodes);
// Step 4.
let node = try!(self.owner_doc().node_from_nodes_and_strings(nodes));
if self.parent_node == Some(&*parent) {
// Step 5.
try!(parent.ReplaceChild(&node, self));
} else {
// Step 6.
try!(Node::pre_insert(&node, &parent, viable_next_sibling.r()));
}
Ok(())
}
// https://dom.spec.whatwg.org/#dom-parentnode-prepend
pub fn prepend(&self, nodes: Vec<NodeOrString>) -> ErrorResult {
// Step 1.
let doc = self.owner_doc();
let node = try!(doc.node_from_nodes_and_strings(nodes));
// Step 2.
let first_child = self.first_child.get();
Node::pre_insert(&node, self, first_child.r()).map(|_| ())
}
// https://dom.spec.whatwg.org/#dom-parentnode-append
pub fn append(&self, nodes: Vec<NodeOrString>) -> ErrorResult {
// Step 1.
let doc = self.owner_doc();
let node = try!(doc.node_from_nodes_and_strings(nodes));
// Step 2.
self.AppendChild(&node).map(|_| ())
}
// https://dom.spec.whatwg.org/#dom-parentnode-queryselector
pub fn query_selector(&self, selectors: DOMString) -> Fallible<Option<Root<Element>>> {
// Step 1.
match SelectorParser::parse_author_origin_no_namespace(&selectors) {
// Step 2.
Err(()) => Err(Error::Syntax),
// Step 3.
Ok(selectors) => {
Ok(self.traverse_preorder().filter_map(Root::downcast).find(|element| {
matches_selector_list(&selectors.0, element, None)
}))
}
}
}
/// https://dom.spec.whatwg.org/#scope-match-a-selectors-string
/// Get an iterator over all nodes which match a set of selectors
/// Be careful not to do anything which may manipulate the DOM tree
/// whilst iterating, otherwise the iterator may be invalidated.
pub fn query_selector_iter(&self, selectors: DOMString)
-> Fallible<QuerySelectorIterator> {
// Step 1.
match SelectorParser::parse_author_origin_no_namespace(&selectors) {
// Step 2.
Err(()) => Err(Error::Syntax),
// Step 3.
Ok(selectors) => {
let mut descendants = self.traverse_preorder();
// Skip the root of the tree.
assert!(&*descendants.next().unwrap() == self);
Ok(QuerySelectorIterator::new(descendants, selectors))
}
}
}
// https://dom.spec.whatwg.org/#dom-parentnode-queryselectorall
#[allow(unsafe_code)]
pub fn query_selector_all(&self, selectors: DOMString) -> Fallible<Root<NodeList>> {
let window = window_from_node(self);
let iter = try!(self.query_selector_iter(selectors));
Ok(NodeList::new_simple_list(&window, iter))
}
pub fn ancestors(&self) -> AncestorIterator {
AncestorIterator {
current: self.GetParentNode()
}
}
pub fn inclusive_ancestors(&self) -> AncestorIterator {
AncestorIterator {
current: Some(Root::from_ref(self))
}
}
pub fn owner_doc(&self) -> Root<Document> {
self.owner_doc.get().unwrap()
}
pub fn set_owner_doc(&self, document: &Document) {
self.owner_doc.set(Some(document));
}
pub fn is_in_html_doc(&self) -> bool {
self.owner_doc().is_html_document()
}
pub fn is_in_doc_with_browsing_context(&self) -> bool {
self.is_in_doc() && self.owner_doc().browsing_context().is_some()
}
pub fn children(&self) -> NodeSiblingIterator {
NodeSiblingIterator {
current: self.GetFirstChild(),
}
}
pub fn rev_children(&self) -> ReverseSiblingIterator {
ReverseSiblingIterator {
current: self.GetLastChild(),
}
}
pub fn child_elements(&self) -> impl Iterator<Item=Root<Element>> {
self.children().filter_map(Root::downcast as fn(_) -> _).peekable()
}
pub fn remove_self(&self) {
if let Some(ref parent) = self.GetParentNode() {
Node::remove(self, &parent, SuppressObserver::Unsuppressed);
}
}
pub fn unique_id(&self) -> String {
self.unique_id.borrow().simple().to_string()
}
pub fn summarize(&self) -> NodeInfo {
let USVString(base_uri) = self.BaseURI();
NodeInfo {
uniqueId: self.unique_id(),
baseURI: base_uri,
parent: self.GetParentNode().map_or("".to_owned(), |node| node.unique_id()),
nodeType: self.NodeType(),
namespaceURI: String::new(), //FIXME
nodeName: String::from(self.NodeName()),
numChildren: self.ChildNodes().Length() as usize,
//FIXME doctype nodes only
name: String::new(),
publicId: String::new(),
systemId: String::new(),
attrs: self.downcast().map(Element::summarize).unwrap_or(vec![]),
isDocumentElement:
self.owner_doc()
.GetDocumentElement()
.map_or(false, |elem| elem.upcast::<Node>() == self),
shortValue: self.GetNodeValue().map(String::from).unwrap_or_default(), //FIXME: truncate
incompleteValue: false, //FIXME: reflect truncation
}
}
/// Used by `HTMLTableSectionElement::InsertRow` and `HTMLTableRowElement::InsertCell`
pub fn insert_cell_or_row<F, G, I>(&self, index: i32, get_items: F, new_child: G) -> Fallible<Root<HTMLElement>>
where F: Fn() -> Root<HTMLCollection>,
G: Fn() -> Root<I>,
I: DerivedFrom<Node> + DerivedFrom<HTMLElement> + DomObject,
{
if index < -1 {
return Err(Error::IndexSize);
}
let tr = new_child();
{
let tr_node = tr.upcast::<Node>();
if index == -1 {
try!(self.InsertBefore(tr_node, None));
} else {
let items = get_items();
let node = match items.elements_iter()
.map(Root::upcast::<Node>)
.map(Some)
.chain(iter::once(None))
.nth(index as usize) {
None => return Err(Error::IndexSize),
Some(node) => node,
};
try!(self.InsertBefore(tr_node, node.r()));
}
}
Ok(Root::upcast::<HTMLElement>(tr))
}
/// Used by `HTMLTableSectionElement::DeleteRow` and `HTMLTableRowElement::DeleteCell`
pub fn delete_cell_or_row<F, G>(&self, index: i32, get_items: F, is_delete_type: G) -> ErrorResult
where F: Fn() -> Root<HTMLCollection>,
G: Fn(&Element) -> bool
{
let element = match index {
index if index < -1 => return Err(Error::IndexSize),
-1 => {
let last_child = self.upcast::<Node>().GetLastChild();
match last_child.and_then(|node| node.inclusively_preceding_siblings()
.filter_map(Root::downcast::<Element>)
.filter(|elem| is_delete_type(elem))
.next()) {
Some(element) => element,
None => return Ok(()),
}
},
index => match get_items().Item(index as u32) {
Some(element) => element,
None => return Err(Error::IndexSize),
},
};
element.upcast::<Node>().remove_self();
Ok(())
}
pub fn get_stylesheet(&self) -> Option<Arc<Stylesheet>> {
if let Some(node) = self.downcast::<HTMLStyleElement>() {
node.get_stylesheet()
} else if let Some(node) = self.downcast::<HTMLLinkElement>() {
node.get_stylesheet()
} else if let Some(node) = self.downcast::<HTMLMetaElement>() {
node.get_stylesheet()
} else {
None
}
}
pub fn get_cssom_stylesheet(&self) -> Option<Root<CSSStyleSheet>> {
if let Some(node) = self.downcast::<HTMLStyleElement>() {
node.get_cssom_stylesheet()
} else if let Some(node) = self.downcast::<HTMLLinkElement>() {
node.get_cssom_stylesheet()
} else if let Some(node) = self.downcast::<HTMLMetaElement>() {
node.get_cssom_stylesheet()
} else {
None
}
}
}
/// Iterate through `nodes` until we find a `Node` that is not in `not_in`
fn first_node_not_in<I>(mut nodes: I, not_in: &[NodeOrString]) -> Option<Root<Node>>
where I: Iterator<Item=Root<Node>>
{
nodes.find(|node| {
not_in.iter().all(|n| {
match *n {
NodeOrString::Node(ref n) => n != node,
_ => true,
}
})
})
}
/// If the given untrusted node address represents a valid DOM node in the given runtime,
/// returns it.
#[allow(unsafe_code)]
pub fn from_untrusted_node_address(_runtime: *mut JSRuntime, candidate: UntrustedNodeAddress)
-> Root<Node> {
unsafe {
// https://github.com/servo/servo/issues/6383
let candidate: uintptr_t = mem::transmute(candidate.0);
// let object: *mut JSObject = jsfriendapi::bindgen::JS_GetAddressableObject(runtime,
// candidate);
let object: *mut JSObject = mem::transmute(candidate);
if object.is_null() {
panic!("Attempted to create a `JS<Node>` from an invalid pointer!")
}
let boxed_node = conversions::private_from_object(object) as *const Node;
Root::from_ref(&*boxed_node)
}
}
#[allow(unsafe_code)]
pub trait LayoutNodeHelpers {
unsafe fn type_id_for_layout(&self) -> NodeTypeId;
unsafe fn parent_node_ref(&self) -> Option<LayoutJS<Node>>;
unsafe fn first_child_ref(&self) -> Option<LayoutJS<Node>>;
unsafe fn last_child_ref(&self) -> Option<LayoutJS<Node>>;
unsafe fn prev_sibling_ref(&self) -> Option<LayoutJS<Node>>;
unsafe fn next_sibling_ref(&self) -> Option<LayoutJS<Node>>;
unsafe fn owner_doc_for_layout(&self) -> LayoutJS<Document>;
unsafe fn is_element_for_layout(&self) -> bool;
unsafe fn get_flag(&self, flag: NodeFlags) -> bool;
unsafe fn set_flag(&self, flag: NodeFlags, value: bool);
unsafe fn children_count(&self) -> u32;
unsafe fn get_style_and_layout_data(&self) -> Option<OpaqueStyleAndLayoutData>;
unsafe fn init_style_and_layout_data(&self, OpaqueStyleAndLayoutData);
unsafe fn take_style_and_layout_data(&self) -> OpaqueStyleAndLayoutData;
fn text_content(&self) -> String;
fn selection(&self) -> Option<Range<usize>>;
fn image_url(&self) -> Option<ServoUrl>;
fn canvas_data(&self) -> Option<HTMLCanvasData>;
fn svg_data(&self) -> Option<SVGSVGData>;
fn iframe_frame_id(&self) -> FrameId;
fn iframe_pipeline_id(&self) -> PipelineId;
fn opaque(&self) -> OpaqueNode;
}
impl LayoutNodeHelpers for LayoutJS<Node> {
#[inline]
#[allow(unsafe_code)]
unsafe fn type_id_for_layout(&self) -> NodeTypeId {
(*self.unsafe_get()).type_id()
}
#[inline]
#[allow(unsafe_code)]
unsafe fn is_element_for_layout(&self) -> bool {
(*self.unsafe_get()).is::<Element>()
}
#[inline]
#[allow(unsafe_code)]
unsafe fn parent_node_ref(&self) -> Option<LayoutJS<Node>> {
(*self.unsafe_get()).parent_node.get_inner_as_layout()
}
#[inline]
#[allow(unsafe_code)]
unsafe fn first_child_ref(&self) -> Option<LayoutJS<Node>> {
(*self.unsafe_get()).first_child.get_inner_as_layout()
}
#[inline]
#[allow(unsafe_code)]
unsafe fn last_child_ref(&self) -> Option<LayoutJS<Node>> {
(*self.unsafe_get()).last_child.get_inner_as_layout()
}
#[inline]
#[allow(unsafe_code)]
unsafe fn prev_sibling_ref(&self) -> Option<LayoutJS<Node>> {
(*self.unsafe_get()).prev_sibling.get_inner_as_layout()
}
#[inline]
#[allow(unsafe_code)]
unsafe fn next_sibling_ref(&self) -> Option<LayoutJS<Node>> {
(*self.unsafe_get()).next_sibling.get_inner_as_layout()
}
#[inline]
#[allow(unsafe_code)]
unsafe fn owner_doc_for_layout(&self) -> LayoutJS<Document> {
(*self.unsafe_get()).owner_doc.get_inner_as_layout().unwrap()
}
#[inline]
#[allow(unsafe_code)]
unsafe fn get_flag(&self, flag: NodeFlags) -> bool {
(*self.unsafe_get()).flags.get().contains(flag)
}
#[inline]
#[allow(unsafe_code)]
unsafe fn set_flag(&self, flag: NodeFlags, value: bool) {
let this = self.unsafe_get();
let mut flags = (*this).flags.get();
if value {
flags.insert(flag);
} else {
flags.remove(flag);
}
(*this).flags.set(flags);
}
#[inline]
#[allow(unsafe_code)]
unsafe fn children_count(&self) -> u32 {
(*self.unsafe_get()).children_count.get()
}
#[inline]
#[allow(unsafe_code)]
unsafe fn get_style_and_layout_data(&self) -> Option<OpaqueStyleAndLayoutData> {
(*self.unsafe_get()).style_and_layout_data.get()
}
#[inline]
#[allow(unsafe_code)]
unsafe fn init_style_and_layout_data(&self, val: OpaqueStyleAndLayoutData) {
debug_assert!((*self.unsafe_get()).style_and_layout_data.get().is_none());
(*self.unsafe_get()).style_and_layout_data.set(Some(val));
}
#[inline]
#[allow(unsafe_code)]
unsafe fn take_style_and_layout_data(&self) -> OpaqueStyleAndLayoutData {
let val = (*self.unsafe_get()).style_and_layout_data.get().unwrap();
(*self.unsafe_get()).style_and_layout_data.set(None);
val
}
#[allow(unsafe_code)]
fn text_content(&self) -> String {
if let Some(text) = self.downcast::<Text>() {
return unsafe { text.upcast().data_for_layout().to_owned() };
}
if let Some(input) = self.downcast::<HTMLInputElement>() {
return unsafe { input.value_for_layout() };
}
if let Some(area) = self.downcast::<HTMLTextAreaElement>() {
return unsafe { area.get_value_for_layout() };
}
panic!("not text!")
}
#[allow(unsafe_code)]
fn selection(&self) -> Option<Range<usize>> {
if let Some(area) = self.downcast::<HTMLTextAreaElement>() {
return unsafe { area.selection_for_layout() };
}
if let Some(input) = self.downcast::<HTMLInputElement>() {
return unsafe { input.selection_for_layout() };
}
None
}
#[allow(unsafe_code)]
fn image_url(&self) -> Option<ServoUrl> {
unsafe {
self.downcast::<HTMLImageElement>()
.expect("not an image!")
.image_url()
}
}
fn canvas_data(&self) -> Option<HTMLCanvasData> {
self.downcast::<HTMLCanvasElement>()
.map(|canvas| canvas.data())
}
fn svg_data(&self) -> Option<SVGSVGData> {
self.downcast::<SVGSVGElement>()
.map(|svg| svg.data())
}
fn iframe_frame_id(&self) -> FrameId {
let iframe_element = self.downcast::<HTMLIFrameElement>()
.expect("not an iframe element!");
iframe_element.frame_id()
}
fn iframe_pipeline_id(&self) -> PipelineId {
let iframe_element = self.downcast::<HTMLIFrameElement>()
.expect("not an iframe element!");
iframe_element.pipeline_id().unwrap()
}
#[allow(unsafe_code)]
fn opaque(&self) -> OpaqueNode {
unsafe {
OpaqueNode(self.get_jsobject() as usize)
}
}
}
//
// Iteration and traversal
//
pub struct NodeSiblingIterator {
current: Option<Root<Node>>,
}
impl Iterator for NodeSiblingIterator {
type Item = Root<Node>;
fn next(&mut self) -> Option<Root<Node>> {
let current = match self.current.take() {
None => return None,
Some(current) => current,
};
self.current = current.GetNextSibling();
Some(current)
}
}
pub struct ReverseSiblingIterator {
current: Option<Root<Node>>,
}
impl Iterator for ReverseSiblingIterator {
type Item = Root<Node>;
fn next(&mut self) -> Option<Root<Node>> {
let current = match self.current.take() {
None => return None,
Some(current) => current,
};
self.current = current.GetPreviousSibling();
Some(current)
}
}
pub struct FollowingNodeIterator {
current: Option<Root<Node>>,
root: Root<Node>,
}
impl FollowingNodeIterator {
/// Skips iterating the children of the current node
pub fn next_skipping_children(&mut self) -> Option<Root<Node>> {
let current = match self.current.take() {
None => return None,
Some(current) => current,
};
self.next_skipping_children_impl(current)
}
fn next_skipping_children_impl(&mut self, current: Root<Node>) -> Option<Root<Node>> {
if self.root == current {
self.current = None;
return None;
}
if let Some(next_sibling) = current.GetNextSibling() {
self.current = Some(next_sibling);
return current.GetNextSibling()
}
for ancestor in current.inclusive_ancestors() {
if self.root == ancestor {
break;
}
if let Some(next_sibling) = ancestor.GetNextSibling() {
self.current = Some(next_sibling);
return ancestor.GetNextSibling()
}
}
self.current = None;
None
}
}
impl Iterator for FollowingNodeIterator {
type Item = Root<Node>;
// https://dom.spec.whatwg.org/#concept-tree-following
fn next(&mut self) -> Option<Root<Node>> {
let current = match self.current.take() {
None => return None,
Some(current) => current,
};
if let Some(first_child) = current.GetFirstChild() {
self.current = Some(first_child);
return current.GetFirstChild()
}
self.next_skipping_children_impl(current)
}
}
pub struct PrecedingNodeIterator {
current: Option<Root<Node>>,
root: Root<Node>,
}
impl Iterator for PrecedingNodeIterator {
type Item = Root<Node>;
// https://dom.spec.whatwg.org/#concept-tree-preceding
fn next(&mut self) -> Option<Root<Node>> {
let current = match self.current.take() {
None => return None,
Some(current) => current,
};
self.current = if self.root == current {
None
} else if let Some(previous_sibling) = current.GetPreviousSibling() {
if self.root == previous_sibling {
None
} else if let Some(last_child) = previous_sibling.descending_last_children().last() {
Some(last_child)
} else {
Some(previous_sibling)
}
} else {
current.GetParentNode()
};
self.current.clone()
}
}
pub struct LastChildIterator {
current: Option<Root<Node>>,
}
impl Iterator for LastChildIterator {
type Item = Root<Node>;
fn next(&mut self) -> Option<Root<Node>> {
let current = match self.current.take() {
None => return None,
Some(current) => current,
};
self.current = current.GetLastChild();
Some(current)
}
}
pub struct AncestorIterator {
current: Option<Root<Node>>,
}
impl Iterator for AncestorIterator {
type Item = Root<Node>;
fn next(&mut self) -> Option<Root<Node>> {
let current = match self.current.take() {
None => return None,
Some(current) => current,
};
self.current = current.GetParentNode();
Some(current)
}
}
pub struct TreeIterator {
current: Option<Root<Node>>,
depth: usize,
}
impl TreeIterator {
fn new(root: &Node) -> TreeIterator {
TreeIterator {
current: Some(Root::from_ref(root)),
depth: 0,
}
}
pub fn next_skipping_children(&mut self) -> Option<Root<Node>> {
let current = match self.current.take() {
None => return None,
Some(current) => current,
};
self.next_skipping_children_impl(current)
}
fn next_skipping_children_impl(&mut self, current: Root<Node>) -> Option<Root<Node>> {
for ancestor in current.inclusive_ancestors() {
if self.depth == 0 {
break;
}
if let Some(next_sibling) = ancestor.GetNextSibling() {
self.current = Some(next_sibling);
return Some(current);
}
self.depth -= 1;
}
debug_assert!(self.depth == 0);
self.current = None;
Some(current)
}
}
impl Iterator for TreeIterator {
type Item = Root<Node>;
// https://dom.spec.whatwg.org/#concept-tree-order
fn next(&mut self) -> Option<Root<Node>> {
let current = match self.current.take() {
None => return None,
Some(current) => current,
};
if let Some(first_child) = current.GetFirstChild() {
self.current = Some(first_child);
self.depth += 1;
return Some(current);
};
self.next_skipping_children_impl(current)
}
}
/// Specifies whether children must be recursively cloned or not.
#[derive(Copy, Clone, PartialEq, HeapSizeOf)]
pub enum CloneChildrenFlag {
CloneChildren,
DoNotCloneChildren
}
fn as_uintptr<T>(t: &T) -> uintptr_t { t as *const T as uintptr_t }
impl Node {
pub fn reflect_node<N>(
node: Box<N>,
document: &Document,
wrap_fn: unsafe extern "Rust" fn(*mut JSContext, &GlobalScope, Box<N>) -> Root<N>)
-> Root<N>
where N: DerivedFrom<Node> + DomObject
{
let window = document.window();
reflect_dom_object(node, window, wrap_fn)
}
pub fn new_inherited(doc: &Document) -> Node {
Node::new_(NodeFlags::new(), Some(doc))
}
#[allow(unrooted_must_root)]
pub fn new_document_node() -> Node {
Node::new_(NodeFlags::new() | IS_IN_DOC, None)
}
#[allow(unrooted_must_root)]
fn new_(flags: NodeFlags, doc: Option<&Document>) -> Node {
Node {
eventtarget: EventTarget::new_inherited(),
parent_node: Default::default(),
first_child: Default::default(),
last_child: Default::default(),
next_sibling: Default::default(),
prev_sibling: Default::default(),
owner_doc: MutNullableJS::new(doc),
child_list: Default::default(),
children_count: Cell::new(0u32),
flags: Cell::new(flags),
inclusive_descendants_version: Cell::new(0),
ranges: WeakRangeVec::new(),
style_and_layout_data: Cell::new(None),
unique_id: UniqueId::new(),
}
}
// https://dom.spec.whatwg.org/#concept-node-adopt
pub fn adopt(node: &Node, document: &Document) {
// Step 1.
let old_doc = node.owner_doc();
// Step 2.
node.remove_self();
if &*old_doc != document {
// Step 3.
for descendant in node.traverse_preorder() {
descendant.set_owner_doc(document);
}
// Step 4.
for descendant in node.traverse_preorder() {
vtable_for(&descendant).adopting_steps(&old_doc);
}
}
}
// https://dom.spec.whatwg.org/#concept-node-ensure-pre-insertion-validity
pub fn ensure_pre_insertion_validity(node: &Node,
parent: &Node,
child: Option<&Node>) -> ErrorResult {
// Step 1.
match parent.type_id() {
NodeTypeId::Document(_) |
NodeTypeId::DocumentFragment |
NodeTypeId::Element(..) => (),
_ => return Err(Error::HierarchyRequest)
}
// Step 2.
if node.is_inclusive_ancestor_of(parent) {
return Err(Error::HierarchyRequest);
}
// Step 3.
if let Some(child) = child {
if !parent.is_parent_of(child) {
return Err(Error::NotFound);
}
}
// Step 4-5.
match node.type_id() {
NodeTypeId::CharacterData(CharacterDataTypeId::Text) => {
if parent.is::<Document>() {
return Err(Error::HierarchyRequest);
}
},
NodeTypeId::DocumentType => {
if !parent.is::<Document>() {
return Err(Error::HierarchyRequest);
}
},
NodeTypeId::DocumentFragment |
NodeTypeId::Element(_) |
NodeTypeId::CharacterData(CharacterDataTypeId::ProcessingInstruction) |
NodeTypeId::CharacterData(CharacterDataTypeId::Comment) => (),
NodeTypeId::Document(_) => return Err(Error::HierarchyRequest)
}
// Step 6.
if parent.is::<Document>() {
match node.type_id() {
// Step 6.1
NodeTypeId::DocumentFragment => {
// Step 6.1.1(b)
if node.children()
.any(|c| c.is::<Text>())
{
return Err(Error::HierarchyRequest);
}
match node.child_elements().count() {
0 => (),
// Step 6.1.2
1 => {
if !parent.child_elements().next().is_none() {
return Err(Error::HierarchyRequest);
}
if let Some(child) = child {
if child.inclusively_following_siblings()
.any(|child| child.is_doctype()) {
return Err(Error::HierarchyRequest);
}
}
},
// Step 6.1.1(a)
_ => return Err(Error::HierarchyRequest),
}
},
// Step 6.2
NodeTypeId::Element(_) => {
if !parent.child_elements().next().is_none() {
return Err(Error::HierarchyRequest);
}
if let Some(ref child) = child {
if child.inclusively_following_siblings()
.any(|child| child.is_doctype()) {
return Err(Error::HierarchyRequest);
}
}
},
// Step 6.3
NodeTypeId::DocumentType => {
if parent.children()
.any(|c| c.is_doctype())
{
return Err(Error::HierarchyRequest);
}
match child {
Some(child) => {
if parent.children()
.take_while(|c| &**c != child)
.any(|c| c.is::<Element>())
{
return Err(Error::HierarchyRequest);
}
},
None => {
if !parent.child_elements().next().is_none() {
return Err(Error::HierarchyRequest);
}
},
}
},
NodeTypeId::CharacterData(_) => (),
NodeTypeId::Document(_) => unreachable!(),
}
}
Ok(())
}
// https://dom.spec.whatwg.org/#concept-node-pre-insert
pub fn pre_insert(node: &Node, parent: &Node, child: Option<&Node>)
-> Fallible<Root<Node>> {
// Step 1.
try!(Node::ensure_pre_insertion_validity(node, parent, child));
// Steps 2-3.
let reference_child_root;
let reference_child = match child {
Some(child) if child == node => {
reference_child_root = node.GetNextSibling();
reference_child_root.r()
},
_ => child
};
// Step 4.
let document = document_from_node(parent);
Node::adopt(node, &document);
// Step 5.
Node::insert(node, parent, reference_child, SuppressObserver::Unsuppressed);
// Step 6.
Ok(Root::from_ref(node))
}
// https://dom.spec.whatwg.org/#concept-node-insert
fn insert(node: &Node,
parent: &Node,
child: Option<&Node>,
suppress_observers: SuppressObserver) {
debug_assert!(&*node.owner_doc() == &*parent.owner_doc());
debug_assert!(child.map_or(true, |child| Some(parent) == child.GetParentNode().r()));
// Step 1.
let count = if node.is::<DocumentFragment>() {
node.children_count()
} else {
1
};
// Step 2.
if let Some(child) = child {
if !parent.ranges.is_empty() {
let index = child.index();
// Steps 2.1-2.
parent.ranges.increase_above(parent, index, count);
}
}
rooted_vec!(let mut new_nodes);
let new_nodes = if let NodeTypeId::DocumentFragment = node.type_id() {
// Step 3.
new_nodes.extend(node.children().map(|kid| JS::from_ref(&*kid)));
// Step 4: mutation observers.
// Step 5.
for kid in new_nodes.r() {
Node::remove(*kid, node, SuppressObserver::Suppressed);
}
vtable_for(&node).children_changed(&ChildrenMutation::replace_all(new_nodes.r(), &[]));
new_nodes.r()
} else {
// Step 3.
ref_slice(&node)
};
// Step 6: mutation observers.
let previous_sibling = match suppress_observers {
SuppressObserver::Unsuppressed => {
match child {
Some(child) => child.GetPreviousSibling(),
None => parent.GetLastChild(),
}
},
SuppressObserver::Suppressed => None,
};
// Step 7.
for kid in new_nodes {
// Step 7.1.
parent.add_child(*kid, child);
// Step 7.2: insertion steps.
}
if let SuppressObserver::Unsuppressed = suppress_observers {
vtable_for(&parent).children_changed(
&ChildrenMutation::insert(previous_sibling.r(), new_nodes, child));
}
}
// https://dom.spec.whatwg.org/#concept-node-replace-all
pub fn replace_all(node: Option<&Node>, parent: &Node) {
// Step 1.
if let Some(node) = node {
Node::adopt(node, &*parent.owner_doc());
}
// Step 2.
rooted_vec!(let removed_nodes <- parent.children());
// Step 3.
rooted_vec!(let mut added_nodes);
let added_nodes = if let Some(node) = node.as_ref() {
if let NodeTypeId::DocumentFragment = node.type_id() {
added_nodes.extend(node.children().map(|child| JS::from_ref(&*child)));
added_nodes.r()
} else {
ref_slice(node)
}
} else {
&[] as &[&Node]
};
// Step 4.
for child in removed_nodes.r() {
Node::remove(*child, parent, SuppressObserver::Suppressed);
}
// Step 5.
if let Some(node) = node {
Node::insert(node, parent, None, SuppressObserver::Suppressed);
}
// Step 6: mutation observers.
vtable_for(&parent).children_changed(
&ChildrenMutation::replace_all(removed_nodes.r(), added_nodes));
}
// https://dom.spec.whatwg.org/#concept-node-pre-remove
fn pre_remove(child: &Node, parent: &Node) -> Fallible<Root<Node>> {
// Step 1.
match child.GetParentNode() {
Some(ref node) if &**node != parent => return Err(Error::NotFound),
None => return Err(Error::NotFound),
_ => ()
}
// Step 2.
Node::remove(child, parent, SuppressObserver::Unsuppressed);
// Step 3.
Ok(Root::from_ref(child))
}
// https://dom.spec.whatwg.org/#concept-node-remove
fn remove(node: &Node, parent: &Node, suppress_observers: SuppressObserver) {
assert!(node.GetParentNode().map_or(false, |node_parent| &*node_parent == parent));
let cached_index = {
if parent.ranges.is_empty() {
None
} else {
// Step 1.
let index = node.index();
// Steps 2-3 are handled in Node::unbind_from_tree.
// Steps 4-5.
parent.ranges.decrease_above(parent, index, 1);
// Parent had ranges, we needed the index, let's keep track of
// it to avoid computing it for other ranges when calling
// unbind_from_tree recursively.
Some(index)
}
};
// Step 6. pre-removing steps for node iterators
// Step 7.
let old_previous_sibling = node.GetPreviousSibling();
// Step 8.
let old_next_sibling = node.GetNextSibling();
// Steps 9-10 are handled in unbind_from_tree.
parent.remove_child(node, cached_index);
// Step 11. transient registered observers
// Step 12.
if let SuppressObserver::Unsuppressed = suppress_observers {
vtable_for(&parent).children_changed(
&ChildrenMutation::replace(old_previous_sibling.r(),
&Some(&node), &[],
old_next_sibling.r()));
}
}
// https://dom.spec.whatwg.org/#concept-node-clone
pub fn clone(node: &Node, maybe_doc: Option<&Document>,
clone_children: CloneChildrenFlag) -> Root<Node> {
// Step 1.
let document = match maybe_doc {
Some(doc) => Root::from_ref(doc),
None => node.owner_doc()
};
// Step 2.
// XXXabinader: clone() for each node as trait?
let copy: Root<Node> = match node.type_id() {
NodeTypeId::DocumentType => {
let doctype = node.downcast::<DocumentType>().unwrap();
let doctype = DocumentType::new(doctype.name().clone(),
Some(doctype.public_id().clone()),
Some(doctype.system_id().clone()),
&document);
Root::upcast::<Node>(doctype)
},
NodeTypeId::DocumentFragment => {
let doc_fragment = DocumentFragment::new(&document);
Root::upcast::<Node>(doc_fragment)
},
NodeTypeId::CharacterData(_) => {
let cdata = node.downcast::<CharacterData>().unwrap();
cdata.clone_with_data(cdata.Data(), &document)
},
NodeTypeId::Document(_) => {
let document = node.downcast::<Document>().unwrap();
let is_html_doc = if document.is_html_document() {
IsHTMLDocument::HTMLDocument
} else {
IsHTMLDocument::NonHTMLDocument
};
let window = document.window();
let loader = DocumentLoader::new(&*document.loader());
let document = Document::new(window, HasBrowsingContext::No,
Some(document.url()),
// https://github.com/whatwg/dom/issues/378
document.origin().clone(),
is_html_doc, None,
None, DocumentActivity::Inactive,
DocumentSource::NotFromParser, loader,
None, None);
Root::upcast::<Node>(document)
},
NodeTypeId::Element(..) => {
let element = node.downcast::<Element>().unwrap();
let name = QualName {
prefix: element.prefix().map(|p| Prefix::from(&**p)),
ns: element.namespace().clone(),
local: element.local_name().clone()
};
let element = Element::create(name,
&document, ElementCreator::ScriptCreated);
Root::upcast::<Node>(element)
},
};
// Step 3.
let document = match copy.downcast::<Document>() {
Some(doc) => Root::from_ref(doc),
None => Root::from_ref(&*document),
};
assert!(copy.owner_doc() == document);
// Step 4 (some data already copied in step 2).
match node.type_id() {
NodeTypeId::Document(_) => {
let node_doc = node.downcast::<Document>().unwrap();
let copy_doc = copy.downcast::<Document>().unwrap();
copy_doc.set_encoding(node_doc.encoding());
copy_doc.set_quirks_mode(node_doc.quirks_mode());
},
NodeTypeId::Element(..) => {
let node_elem = node.downcast::<Element>().unwrap();
let copy_elem = copy.downcast::<Element>().unwrap();
for attr in node_elem.attrs().iter() {
copy_elem.push_new_attribute(attr.local_name().clone(),
attr.value().clone(),
attr.name().clone(),
attr.namespace().clone(),
attr.prefix().cloned());
}
},
_ => ()
}
// Step 5: cloning steps.
vtable_for(&node).cloning_steps(&copy, maybe_doc, clone_children);
// Step 6.
if clone_children == CloneChildrenFlag::CloneChildren {
for child in node.children() {
let child_copy = Node::clone(&child, Some(&document),
clone_children);
let _inserted_node = Node::pre_insert(&child_copy, &copy, None);
}
}
// Step 7.
copy
}
/// https://html.spec.whatwg.org/multipage/#child-text-content
pub fn child_text_content(&self) -> DOMString {
Node::collect_text_contents(self.children())
}
pub fn collect_text_contents<T: Iterator<Item=Root<Node>>>(iterator: T) -> DOMString {
let mut content = String::new();
for node in iterator {
if let Some(ref text) = node.downcast::<Text>() {
content.push_str(&text.upcast::<CharacterData>().data());
}
}
DOMString::from(content)
}
pub fn namespace_to_string(namespace: Namespace) -> Option<DOMString> {
match namespace {
ns!() => None,
// FIXME(ajeffrey): convert directly from Namespace to DOMString
_ => Some(DOMString::from(&*namespace))
}
}
// https://dom.spec.whatwg.org/#locate-a-namespace
pub fn locate_namespace(node: &Node, prefix: Option<DOMString>) -> Namespace {
match node.type_id() {
NodeTypeId::Element(_) => {
node.downcast::<Element>().unwrap().locate_namespace(prefix)
},
NodeTypeId::Document(_) => {
node.downcast::<Document>().unwrap()
.GetDocumentElement().as_ref()
.map_or(ns!(), |elem| elem.locate_namespace(prefix))
},
NodeTypeId::DocumentType | NodeTypeId::DocumentFragment => ns!(),
_ => {
node.GetParentElement().as_ref()
.map_or(ns!(), |elem| elem.locate_namespace(prefix))
}
}
}
}
impl NodeMethods for Node {
// https://dom.spec.whatwg.org/#dom-node-nodetype
fn NodeType(&self) -> u16 {
match self.type_id() {
NodeTypeId::CharacterData(CharacterDataTypeId::Text) =>
NodeConstants::TEXT_NODE,
NodeTypeId::CharacterData(CharacterDataTypeId::ProcessingInstruction) =>
NodeConstants::PROCESSING_INSTRUCTION_NODE,
NodeTypeId::CharacterData(CharacterDataTypeId::Comment) =>
NodeConstants::COMMENT_NODE,
NodeTypeId::Document(_) =>
NodeConstants::DOCUMENT_NODE,
NodeTypeId::DocumentType =>
NodeConstants::DOCUMENT_TYPE_NODE,
NodeTypeId::DocumentFragment =>
NodeConstants::DOCUMENT_FRAGMENT_NODE,
NodeTypeId::Element(_) =>
NodeConstants::ELEMENT_NODE,
}
}
// https://dom.spec.whatwg.org/#dom-node-nodename
fn NodeName(&self) -> DOMString {
match self.type_id() {
NodeTypeId::Element(..) => {
self.downcast::<Element>().unwrap().TagName()
}
NodeTypeId::CharacterData(CharacterDataTypeId::Text) => DOMString::from("#text"),
NodeTypeId::CharacterData(CharacterDataTypeId::ProcessingInstruction) => {
self.downcast::<ProcessingInstruction>().unwrap().Target()
}
NodeTypeId::CharacterData(CharacterDataTypeId::Comment) => DOMString::from("#comment"),
NodeTypeId::DocumentType => {
self.downcast::<DocumentType>().unwrap().name().clone()
},
NodeTypeId::DocumentFragment => DOMString::from("#document-fragment"),
NodeTypeId::Document(_) => DOMString::from("#document")
}
}
// https://dom.spec.whatwg.org/#dom-node-baseuri
fn BaseURI(&self) -> USVString {
USVString(String::from(self.owner_doc().base_url().as_str()))
}
// https://dom.spec.whatwg.org/#dom-node-ownerdocument
fn GetOwnerDocument(&self) -> Option<Root<Document>> {
match self.type_id() {
NodeTypeId::CharacterData(..) |
NodeTypeId::Element(..) |
NodeTypeId::DocumentType |
NodeTypeId::DocumentFragment => Some(self.owner_doc()),
NodeTypeId::Document(_) => None
}
}
// https://dom.spec.whatwg.org/#dom-node-getrootnode
fn GetRootNode(&self) -> Root<Node> {
self.inclusive_ancestors().last().unwrap()
}
// https://dom.spec.whatwg.org/#dom-node-parentnode
fn GetParentNode(&self) -> Option<Root<Node>> {
self.parent_node.get()
}
// https://dom.spec.whatwg.org/#dom-node-parentelement
fn GetParentElement(&self) -> Option<Root<Element>> {
self.GetParentNode().and_then(Root::downcast)
}
// https://dom.spec.whatwg.org/#dom-node-haschildnodes
fn HasChildNodes(&self) -> bool {
self.first_child.get().is_some()
}
// https://dom.spec.whatwg.org/#dom-node-childnodes
fn ChildNodes(&self) -> Root<NodeList> {
self.child_list.or_init(|| {
let doc = self.owner_doc();
let window = doc.window();
NodeList::new_child_list(window, self)
})
}
// https://dom.spec.whatwg.org/#dom-node-firstchild
fn GetFirstChild(&self) -> Option<Root<Node>> {
self.first_child.get()
}
// https://dom.spec.whatwg.org/#dom-node-lastchild
fn GetLastChild(&self) -> Option<Root<Node>> {
self.last_child.get()
}
// https://dom.spec.whatwg.org/#dom-node-previoussibling
fn GetPreviousSibling(&self) -> Option<Root<Node>> {
self.prev_sibling.get()
}
// https://dom.spec.whatwg.org/#dom-node-nextsibling
fn GetNextSibling(&self) -> Option<Root<Node>> {
self.next_sibling.get()
}
// https://dom.spec.whatwg.org/#dom-node-nodevalue
fn GetNodeValue(&self) -> Option<DOMString> {
self.downcast::<CharacterData>().map(CharacterData::Data)
}
// https://dom.spec.whatwg.org/#dom-node-nodevalue
fn SetNodeValue(&self, val: Option<DOMString>) {
if let Some(character_data) = self.downcast::<CharacterData>() {
character_data.SetData(val.unwrap_or_default());
}
}
// https://dom.spec.whatwg.org/#dom-node-textcontent
fn GetTextContent(&self) -> Option<DOMString> {
match self.type_id() {
NodeTypeId::DocumentFragment |
NodeTypeId::Element(..) => {
let content = Node::collect_text_contents(self.traverse_preorder());
Some(content)
}
NodeTypeId::CharacterData(..) => {
let characterdata = self.downcast::<CharacterData>().unwrap();
Some(characterdata.Data())
}
NodeTypeId::DocumentType |
NodeTypeId::Document(_) => {
None
}
}
}
// https://dom.spec.whatwg.org/#dom-node-textcontent
fn SetTextContent(&self, value: Option<DOMString>) {
let value = value.unwrap_or_default();
match self.type_id() {
NodeTypeId::DocumentFragment |
NodeTypeId::Element(..) => {
// Step 1-2.
let node = if value.is_empty() {
None
} else {
Some(Root::upcast(self.owner_doc().CreateTextNode(value)))
};
// Step 3.
Node::replace_all(node.r(), self);
}
NodeTypeId::CharacterData(..) => {
let characterdata = self.downcast::<CharacterData>().unwrap();
characterdata.SetData(value);
}
NodeTypeId::DocumentType |
NodeTypeId::Document(_) => {}
}
}
// https://dom.spec.whatwg.org/#dom-node-insertbefore
fn InsertBefore(&self, node: &Node, child: Option<&Node>) -> Fallible<Root<Node>> {
Node::pre_insert(node, self, child)
}
// https://dom.spec.whatwg.org/#dom-node-appendchild
fn AppendChild(&self, node: &Node) -> Fallible<Root<Node>> {
Node::pre_insert(node, self, None)
}
// https://dom.spec.whatwg.org/#concept-node-replace
fn ReplaceChild(&self, node: &Node, child: &Node) -> Fallible<Root<Node>> {
// Step 1.
match self.type_id() {
NodeTypeId::Document(_) |
NodeTypeId::DocumentFragment |
NodeTypeId::Element(..) => (),
_ => return Err(Error::HierarchyRequest)
}
// Step 2.
if node.is_inclusive_ancestor_of(self) {
return Err(Error::HierarchyRequest);
}
// Step 3.
if !self.is_parent_of(child) {
return Err(Error::NotFound);
}
// Step 4-5.
match node.type_id() {
NodeTypeId::CharacterData(CharacterDataTypeId::Text) if self.is::<Document>() =>
return Err(Error::HierarchyRequest),
NodeTypeId::DocumentType if !self.is::<Document>() => return Err(Error::HierarchyRequest),
NodeTypeId::Document(_) => return Err(Error::HierarchyRequest),
_ => ()
}
// Step 6.
if self.is::<Document>() {
match node.type_id() {
// Step 6.1
NodeTypeId::DocumentFragment => {
// Step 6.1.1(b)
if node.children()
.any(|c| c.is::<Text>())
{
return Err(Error::HierarchyRequest);
}
match node.child_elements().count() {
0 => (),
// Step 6.1.2
1 => {
if self.child_elements().any(|c| c.upcast::<Node>() != child) {
return Err(Error::HierarchyRequest);
}
if child.following_siblings()
.any(|child| child.is_doctype()) {
return Err(Error::HierarchyRequest);
}
},
// Step 6.1.1(a)
_ => return Err(Error::HierarchyRequest)
}
},
// Step 6.2
NodeTypeId::Element(..) => {
if self.child_elements()
.any(|c| c.upcast::<Node>() != child) {
return Err(Error::HierarchyRequest);
}
if child.following_siblings()
.any(|child| child.is_doctype())
{
return Err(Error::HierarchyRequest);
}
},
// Step 6.3
NodeTypeId::DocumentType => {
if self.children()
.any(|c| c.is_doctype() &&
&*c != child)
{
return Err(Error::HierarchyRequest);
}
if self.children()
.take_while(|c| &**c != child)
.any(|c| c.is::<Element>())
{
return Err(Error::HierarchyRequest);
}
},
NodeTypeId::CharacterData(..) => (),
NodeTypeId::Document(_) => unreachable!(),
}
}
// Step 7-8.
let child_next_sibling = child.GetNextSibling();
let node_next_sibling = node.GetNextSibling();
let reference_child = if child_next_sibling.r() == Some(node) {
node_next_sibling.r()
} else {
child_next_sibling.r()
};
// Step 9.
let previous_sibling = child.GetPreviousSibling();
// Step 10.
let document = document_from_node(self);
Node::adopt(node, &document);
let removed_child = if node != child {
// Step 11.
Node::remove(child, self, SuppressObserver::Suppressed);
Some(child)
} else {
None
};
// Step 12.
rooted_vec!(let mut nodes);
let nodes = if node.type_id() == NodeTypeId::DocumentFragment {
nodes.extend(node.children().map(|node| JS::from_ref(&*node)));
nodes.r()
} else {
ref_slice(&node)
};
// Step 13.
Node::insert(node, self, reference_child, SuppressObserver::Suppressed);
// Step 14.
vtable_for(&self).children_changed(
&ChildrenMutation::replace(previous_sibling.r(),
&removed_child, nodes,
reference_child));
// Step 15.
Ok(Root::from_ref(child))
}
// https://dom.spec.whatwg.org/#dom-node-removechild
fn RemoveChild(&self, node: &Node)
-> Fallible<Root<Node>> {
Node::pre_remove(node, self)
}
// https://dom.spec.whatwg.org/#dom-node-normalize
fn Normalize(&self) {
let mut children = self.children().enumerate().peekable();
while let Some((_, node)) = children.next() {
if let Some(text) = node.downcast::<Text>() {
let cdata = text.upcast::<CharacterData>();
let mut length = cdata.Length();
if length == 0 {
Node::remove(&node, self, SuppressObserver::Unsuppressed);
continue;
}
while children.peek().map_or(false, |&(_, ref sibling)| sibling.is::<Text>()) {
let (index, sibling) = children.next().unwrap();
sibling.ranges.drain_to_preceding_text_sibling(&sibling, &node, length);
self.ranges.move_to_text_child_at(self, index as u32, &node, length as u32);
let sibling_cdata = sibling.downcast::<CharacterData>().unwrap();
length += sibling_cdata.Length();
cdata.append_data(&sibling_cdata.data());
Node::remove(&sibling, self, SuppressObserver::Unsuppressed);
}
} else {
node.Normalize();
}
}
}
// https://dom.spec.whatwg.org/#dom-node-clonenode
fn CloneNode(&self, deep: bool) -> Root<Node> {
Node::clone(self, None, if deep {
CloneChildrenFlag::CloneChildren
} else {
CloneChildrenFlag::DoNotCloneChildren
})
}
// https://dom.spec.whatwg.org/#dom-node-isequalnode
fn IsEqualNode(&self, maybe_node: Option<&Node>) -> bool {
fn is_equal_doctype(node: &Node, other: &Node) -> bool {
let doctype = node.downcast::<DocumentType>().unwrap();
let other_doctype = other.downcast::<DocumentType>().unwrap();
(*doctype.name() == *other_doctype.name()) &&
(*doctype.public_id() == *other_doctype.public_id()) &&
(*doctype.system_id() == *other_doctype.system_id())
}
fn is_equal_element(node: &Node, other: &Node) -> bool {
let element = node.downcast::<Element>().unwrap();
let other_element = other.downcast::<Element>().unwrap();
(*element.namespace() == *other_element.namespace()) &&
(element.prefix() == other_element.prefix()) &&
(*element.local_name() == *other_element.local_name()) &&
(element.attrs().len() == other_element.attrs().len())
}
fn is_equal_processinginstruction(node: &Node, other: &Node) -> bool {
let pi = node.downcast::<ProcessingInstruction>().unwrap();
let other_pi = other.downcast::<ProcessingInstruction>().unwrap();
(*pi.target() == *other_pi.target()) &&
(*pi.upcast::<CharacterData>().data() == *other_pi.upcast::<CharacterData>().data())
}
fn is_equal_characterdata(node: &Node, other: &Node) -> bool {
let characterdata = node.downcast::<CharacterData>().unwrap();
let other_characterdata = other.downcast::<CharacterData>().unwrap();
*characterdata.data() == *other_characterdata.data()
}
fn is_equal_element_attrs(node: &Node, other: &Node) -> bool {
let element = node.downcast::<Element>().unwrap();
let other_element = other.downcast::<Element>().unwrap();
assert!(element.attrs().len() == other_element.attrs().len());
element.attrs().iter().all(|attr| {
other_element.attrs().iter().any(|other_attr| {
(*attr.namespace() == *other_attr.namespace()) &&
(attr.local_name() == other_attr.local_name()) &&
(**attr.value() == **other_attr.value())
})
})
}
fn is_equal_node(this: &Node, node: &Node) -> bool {
// Step 2.
if this.NodeType() != node.NodeType() {
return false;
}
match node.type_id() {
// Step 3.
NodeTypeId::DocumentType
if !is_equal_doctype(this, node) => return false,
NodeTypeId::Element(..)
if !is_equal_element(this, node) => return false,
NodeTypeId::CharacterData(CharacterDataTypeId::ProcessingInstruction)
if !is_equal_processinginstruction(this, node) => return false,
NodeTypeId::CharacterData(CharacterDataTypeId::Text) |
NodeTypeId::CharacterData(CharacterDataTypeId::Comment)
if !is_equal_characterdata(this, node) => return false,
// Step 4.
NodeTypeId::Element(..)
if !is_equal_element_attrs(this, node) => return false,
_ => ()
}
// Step 5.
if this.children_count() != node.children_count() {
return false;
}
// Step 6.
this.children().zip(node.children()).all(|(child, other_child)| {
is_equal_node(&child, &other_child)
})
}
match maybe_node {
// Step 1.
None => false,
// Step 2-6.
Some(node) => is_equal_node(self, node)
}
}
// https://dom.spec.whatwg.org/#dom-node-issamenode
fn IsSameNode(&self, other_node: Option<&Node>) -> bool {
match other_node {
Some(node) => self == node,
None => false,
}
}
// https://dom.spec.whatwg.org/#dom-node-comparedocumentposition
fn CompareDocumentPosition(&self, other: &Node) -> u16 {
if self == other {
// step 2.
0
} else {
let mut lastself = Root::from_ref(self);
let mut lastother = Root::from_ref(other);
for ancestor in self.ancestors() {
if &*ancestor == other {
// step 4.
return NodeConstants::DOCUMENT_POSITION_CONTAINS +
NodeConstants::DOCUMENT_POSITION_PRECEDING;
}
lastself = ancestor;
}
for ancestor in other.ancestors() {
if &*ancestor == self {
// step 5.
return NodeConstants::DOCUMENT_POSITION_CONTAINED_BY +
NodeConstants::DOCUMENT_POSITION_FOLLOWING;
}
lastother = ancestor;
}
if lastself != lastother {
let abstract_uint: uintptr_t = as_uintptr(&self);
let other_uint: uintptr_t = as_uintptr(&*other);
let random = if abstract_uint < other_uint {
NodeConstants::DOCUMENT_POSITION_FOLLOWING
} else {
NodeConstants::DOCUMENT_POSITION_PRECEDING
};
// step 3.
return random +
NodeConstants::DOCUMENT_POSITION_DISCONNECTED +
NodeConstants::DOCUMENT_POSITION_IMPLEMENTATION_SPECIFIC;
}
for child in lastself.traverse_preorder() {
if &*child == other {
// step 6.
return NodeConstants::DOCUMENT_POSITION_PRECEDING;
}
if &*child == self {
// step 7.
return NodeConstants::DOCUMENT_POSITION_FOLLOWING;
}
}
unreachable!()
}
}
// https://dom.spec.whatwg.org/#dom-node-contains
fn Contains(&self, maybe_other: Option<&Node>) -> bool {
match maybe_other {
None => false,
Some(other) => self.is_inclusive_ancestor_of(other)
}
}
// https://dom.spec.whatwg.org/#dom-node-lookupprefix
fn LookupPrefix(&self, namespace: Option<DOMString>) -> Option<DOMString> {
let namespace = namespace_from_domstring(namespace);
// Step 1.
if namespace == ns!() {
return None;
}
// Step 2.
match self.type_id() {
NodeTypeId::Element(..) => {
self.downcast::<Element>().unwrap().lookup_prefix(namespace)
},
NodeTypeId::Document(_) => {
self.downcast::<Document>().unwrap().GetDocumentElement().and_then(|element| {
element.lookup_prefix(namespace)
})
},
NodeTypeId::DocumentType | NodeTypeId::DocumentFragment => None,
_ => {
self.GetParentElement().and_then(|element| {
element.lookup_prefix(namespace)
})
}
}
}
// https://dom.spec.whatwg.org/#dom-node-lookupnamespaceuri
fn LookupNamespaceURI(&self, prefix: Option<DOMString>) -> Option<DOMString> {
// Step 1.
let prefix = match prefix {
Some(ref p) if p.is_empty() => None,
pre => pre
};
// Step 2.
Node::namespace_to_string(Node::locate_namespace(self, prefix))
}
// https://dom.spec.whatwg.org/#dom-node-isdefaultnamespace
fn IsDefaultNamespace(&self, namespace: Option<DOMString>) -> bool {
// Step 1.
let namespace = namespace_from_domstring(namespace);
// Steps 2 and 3.
Node::locate_namespace(self, None) == namespace
}
}
pub fn document_from_node<T: DerivedFrom<Node> + DomObject>(derived: &T) -> Root<Document> {
derived.upcast().owner_doc()
}
pub fn window_from_node<T: DerivedFrom<Node> + DomObject>(derived: &T) -> Root<Window> {
let document = document_from_node(derived);
Root::from_ref(document.window())
}
impl VirtualMethods for Node {
fn super_type(&self) -> Option<&VirtualMethods> {
Some(self.upcast::<EventTarget>() as &VirtualMethods)
}
fn children_changed(&self, mutation: &ChildrenMutation) {
if let Some(ref s) = self.super_type() {
s.children_changed(mutation);
}
if let Some(list) = self.child_list.get() {
list.as_children_list().children_changed(mutation);
}
}
// This handles the ranges mentioned in steps 2-3 when removing a node.
// https://dom.spec.whatwg.org/#concept-node-remove
fn unbind_from_tree(&self, context: &UnbindContext) {
self.super_type().unwrap().unbind_from_tree(context);
self.ranges.drain_to_parent(context, self);
}
}
/// A summary of the changes that happened to a node.
#[derive(Copy, Clone, PartialEq, HeapSizeOf)]
pub enum NodeDamage {
/// The node's `style` attribute changed.
NodeStyleDamaged,
/// Other parts of a node changed; attributes, text content, etc.
OtherNodeDamage,
}
pub enum ChildrenMutation<'a> {
Append { prev: &'a Node, added: &'a [&'a Node] },
Insert { prev: &'a Node, added: &'a [&'a Node], next: &'a Node },
Prepend { added: &'a [&'a Node], next: &'a Node },
Replace {
prev: Option<&'a Node>,
removed: &'a Node,
added: &'a [&'a Node],
next: Option<&'a Node>,
},
ReplaceAll { removed: &'a [&'a Node], added: &'a [&'a Node] },
}
impl<'a> ChildrenMutation<'a> {
fn insert(prev: Option<&'a Node>, added: &'a [&'a Node], next: Option<&'a Node>)
-> ChildrenMutation<'a> {
match (prev, next) {
(None, None) => {
ChildrenMutation::ReplaceAll { removed: &[], added: added }
},
(Some(prev), None) => {
ChildrenMutation::Append { prev: prev, added: added }
},
(None, Some(next)) => {
ChildrenMutation::Prepend { added: added, next: next }
},
(Some(prev), Some(next)) => {
ChildrenMutation::Insert { prev: prev, added: added, next: next }
},
}
}
fn replace(prev: Option<&'a Node>,
removed: &'a Option<&'a Node>,
added: &'a [&'a Node],
next: Option<&'a Node>)
-> ChildrenMutation<'a> {
if let Some(ref removed) = *removed {
if let (None, None) = (prev, next) {
ChildrenMutation::ReplaceAll {
removed: ref_slice(removed),
added: added,
}
} else {
ChildrenMutation::Replace {
prev: prev,
removed: *removed,
added: added,
next: next,
}
}
} else {
ChildrenMutation::insert(prev, added, next)
}
}
fn replace_all(removed: &'a [&'a Node], added: &'a [&'a Node])
-> ChildrenMutation<'a> {
ChildrenMutation::ReplaceAll { removed: removed, added: added }
}
/// Get the child that follows the added or removed children.
pub fn next_child(&self) -> Option<&Node> {
match *self {
ChildrenMutation::Append { .. } => None,
ChildrenMutation::Insert { next, .. } => Some(next),
ChildrenMutation::Prepend { next, .. } => Some(next),
ChildrenMutation::Replace { next, .. } => next,
ChildrenMutation::ReplaceAll { .. } => None,
}
}
/// If nodes were added or removed at the start or end of a container, return any
/// previously-existing child whose ":first-child" or ":last-child" status *may* have changed.
///
/// NOTE: This does not check whether the inserted/removed nodes were elements, so in some
/// cases it will return a false positive. This doesn't matter for correctness, because at
/// worst the returned element will be restyled unnecessarily.
pub fn modified_edge_element(&self) -> Option<Root<Node>> {
match *self {
// Add/remove at start of container: Return the first following element.
ChildrenMutation::Prepend { next, .. } |
ChildrenMutation::Replace { prev: None, next: Some(next), .. } => {
next.inclusively_following_siblings().filter(|node| node.is::<Element>()).next()
}
// Add/remove at end of container: Return the last preceding element.
ChildrenMutation::Append { prev, .. } |
ChildrenMutation::Replace { prev: Some(prev), next: None, .. } => {
prev.inclusively_preceding_siblings().filter(|node| node.is::<Element>()).next()
}
// Insert or replace in the middle:
ChildrenMutation::Insert { prev, next, .. } |
ChildrenMutation::Replace { prev: Some(prev), next: Some(next), .. } => {
if prev.inclusively_preceding_siblings().all(|node| !node.is::<Element>()) {
// Before the first element: Return the first following element.
next.inclusively_following_siblings().filter(|node| node.is::<Element>()).next()
} else if next.inclusively_following_siblings().all(|node| !node.is::<Element>()) {
// After the last element: Return the last preceding element.
prev.inclusively_preceding_siblings().filter(|node| node.is::<Element>()).next()
} else {
None
}
}
ChildrenMutation::Replace { prev: None, next: None, .. } => unreachable!(),
ChildrenMutation::ReplaceAll { .. } => None,
}
}
}
/// The context of the unbinding from a tree of a node when one of its
/// inclusive ancestors is removed.
pub struct UnbindContext<'a> {
/// The index of the inclusive ancestor that was removed.
index: Cell<Option<u32>>,
/// The parent of the inclusive ancestor that was removed.
pub parent: &'a Node,
/// The previous sibling of the inclusive ancestor that was removed.
prev_sibling: Option<&'a Node>,
/// Whether the tree is in a document.
pub tree_in_doc: bool,
}
impl<'a> UnbindContext<'a> {
/// Create a new `UnbindContext` value.
fn new(parent: &'a Node,
prev_sibling: Option<&'a Node>,
cached_index: Option<u32>) -> Self {
UnbindContext {
index: Cell::new(cached_index),
parent: parent,
prev_sibling: prev_sibling,
tree_in_doc: parent.is_in_doc(),
}
}
/// The index of the inclusive ancestor that was removed from the tree.
#[allow(unsafe_code)]
pub fn index(&self) -> u32 {
if let Some(index) = self.index.get() {
return index;
}
let index = self.prev_sibling.map_or(0, |sibling| sibling.index() + 1);
self.index.set(Some(index));
index
}
}
/// A node's unique ID, for devtools.
struct UniqueId {
cell: UnsafeCell<Option<Box<Uuid>>>,
}
unsafe_no_jsmanaged_fields!(UniqueId);
impl HeapSizeOf for UniqueId {
#[allow(unsafe_code)]
fn heap_size_of_children(&self) -> usize {
if let &Some(ref uuid) = unsafe { &*self.cell.get() } {
unsafe { heap_size_of(&** uuid as *const Uuid as *const _) }
} else {
0
}
}
}
impl UniqueId {
/// Create a new `UniqueId` value. The underlying `Uuid` is lazily created.
fn new() -> UniqueId {
UniqueId { cell: UnsafeCell::new(None) }
}
/// The Uuid of that unique ID.
#[allow(unsafe_code)]
fn borrow(&self) -> &Uuid {
unsafe {
let ptr = self.cell.get();
if (*ptr).is_none() {
*ptr = Some(box Uuid::new_v4());
}
&(&*ptr).as_ref().unwrap()
}
}
}
impl Into<LayoutNodeType> for NodeTypeId {
#[inline(always)]
fn into(self) -> LayoutNodeType {
match self {
NodeTypeId::Element(e) =>
LayoutNodeType::Element(e.into()),
NodeTypeId::CharacterData(CharacterDataTypeId::Text) =>
LayoutNodeType::Text,
x => unreachable!("Layout should not traverse nodes of type {:?}", x),
}
}
}
impl Into<LayoutElementType> for ElementTypeId {
#[inline(always)]
fn into(self) -> LayoutElementType {
match self {
ElementTypeId::HTMLElement(HTMLElementTypeId::HTMLCanvasElement) =>
LayoutElementType::HTMLCanvasElement,
ElementTypeId::HTMLElement(HTMLElementTypeId::HTMLIFrameElement) =>
LayoutElementType::HTMLIFrameElement,
ElementTypeId::HTMLElement(HTMLElementTypeId::HTMLImageElement) =>
LayoutElementType::HTMLImageElement,
ElementTypeId::HTMLElement(HTMLElementTypeId::HTMLInputElement) =>
LayoutElementType::HTMLInputElement,
ElementTypeId::HTMLElement(HTMLElementTypeId::HTMLObjectElement) =>
LayoutElementType::HTMLObjectElement,
ElementTypeId::HTMLElement(HTMLElementTypeId::HTMLTableCellElement(_)) =>
LayoutElementType::HTMLTableCellElement,
ElementTypeId::HTMLElement(HTMLElementTypeId::HTMLTableColElement) =>
LayoutElementType::HTMLTableColElement,
ElementTypeId::HTMLElement(HTMLElementTypeId::HTMLTableElement) =>
LayoutElementType::HTMLTableElement,
ElementTypeId::HTMLElement(HTMLElementTypeId::HTMLTableRowElement) =>
LayoutElementType::HTMLTableRowElement,
ElementTypeId::HTMLElement(HTMLElementTypeId::HTMLTableSectionElement) =>
LayoutElementType::HTMLTableSectionElement,
ElementTypeId::HTMLElement(HTMLElementTypeId::HTMLTextAreaElement) =>
LayoutElementType::HTMLTextAreaElement,
ElementTypeId::SVGElement(SVGElementTypeId::SVGGraphicsElement(SVGGraphicsElementTypeId::SVGSVGElement)) =>
LayoutElementType::SVGSVGElement,
_ => LayoutElementType::Element,
}
}
}
/// Helper trait to insert an element into vector whose elements
/// are maintained in tree order
pub trait VecPreOrderInsertionHelper<T> {
fn insert_pre_order(&mut self, elem: &T, tree_root: &Node);
}
impl<T> VecPreOrderInsertionHelper<T> for Vec<JS<T>>
where T: DerivedFrom<Node> + DomObject
{
/// This algorithm relies on the following assumptions:
/// * any elements inserted in this vector share the same tree root
/// * any time an element is removed from the tree root, it is also removed from this array
/// * any time an element is moved within the tree, it is removed from this array and re-inserted
///
/// Under these assumptions, an element's tree-order position in this array can be determined by
/// performing a [preorder traversal](https://dom.spec.whatwg.org/#concept-tree-order) of the tree root's children,
/// and increasing the destination index in the array every time a node in the array is encountered during
/// the traversal.
fn insert_pre_order(&mut self, elem: &T, tree_root: &Node) {
if self.is_empty() {
self.push(JS::from_ref(elem));
return;
}
let elem_node = elem.upcast::<Node>();
let mut head: usize = 0;
for node in tree_root.traverse_preorder() {
let head_node = Root::upcast::<Node>(Root::from_ref(&*self[head]));
if head_node == node {
head += 1;
}
if elem_node == node.r() || head == self.len() {
break;
}
}
self.insert(head, JS::from_ref(elem));
}
}
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