/* 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/. */
use dom::bindings::codegen::Bindings::HTMLCollectionBinding;
use dom::bindings::codegen::Bindings::HTMLCollectionBinding::HTMLCollectionMethods;
use dom::bindings::inheritance::Castable;
use dom::bindings::js::{JS, Root, MutNullableHeap};
use dom::bindings::reflector::{Reflector, reflect_dom_object};
use dom::bindings::str::DOMString;
use dom::bindings::trace::JSTraceable;
use dom::bindings::xmlname::namespace_from_domstring;
use dom::element::Element;
use dom::node::Node;
use dom::window::Window;
use std::ascii::AsciiExt;
use std::cell::Cell;
use string_cache::{Atom, Namespace, QualName};
use style::str::split_html_space_chars;
pub trait CollectionFilter : JSTraceable {
fn filter<'a>(&self, elem: &'a Element, root: &'a Node) -> bool;
}
// An optional u32, using maxint to represent None.
// It would be nicer just to use Option<u32> for this, but that would produce word
// alignment issues since Option<u32> uses 33 bits.
#[derive(Clone, Copy, JSTraceable, HeapSizeOf)]
struct OptionU32 {
bits: u32,
}
impl OptionU32 {
fn to_option(self) -> Option<u32> {
if self.bits == u32::max_value() {
None
} else {
Some(self.bits)
}
}
fn some(bits: u32) -> OptionU32 {
assert!(bits != u32::max_value());
OptionU32 { bits: bits }
}
fn none() -> OptionU32 {
OptionU32 { bits: u32::max_value() }
}
}
#[dom_struct]
pub struct HTMLCollection {
reflector_: Reflector,
root: JS<Node>,
#[ignore_heap_size_of = "Contains a trait object; can't measure due to #6870"]
filter: Box<CollectionFilter + 'static>,
// We cache the version of the root node and all its decendents,
// the length of the collection, and a cursor into the collection.
// FIXME: make the cached cursor element a weak pointer
cached_version: Cell<u64>,
cached_cursor_element: MutNullableHeap<JS<Element>>,
cached_cursor_index: Cell<OptionU32>,
cached_length: Cell<OptionU32>,
}
impl HTMLCollection {
#[allow(unrooted_must_root)]
pub fn new_inherited(root: &Node, filter: Box<CollectionFilter + 'static>) -> HTMLCollection {
HTMLCollection {
reflector_: Reflector::new(),
root: JS::from_ref(root),
filter: filter,
// Default values for the cache
cached_version: Cell::new(root.inclusive_descendants_version()),
cached_cursor_element: MutNullableHeap::new(None),
cached_cursor_index: Cell::new(OptionU32::none()),
cached_length: Cell::new(OptionU32::none()),
}
}
#[allow(unrooted_must_root)]
pub fn new(window: &Window, root: &Node, filter: Box<CollectionFilter + 'static>) -> Root<HTMLCollection> {
reflect_dom_object(box HTMLCollection::new_inherited(root, filter),
window, HTMLCollectionBinding::Wrap)
}
pub fn create(window: &Window, root: &Node,
filter: Box<CollectionFilter + 'static>) -> Root<HTMLCollection> {
HTMLCollection::new(window, root, filter)
}
fn validate_cache(&self) {
// Clear the cache if the root version is different from our cached version
let cached_version = self.cached_version.get();
let curr_version = self.root.inclusive_descendants_version();
if curr_version != cached_version {
// Default values for the cache
self.cached_version.set(curr_version);
self.cached_cursor_element.set(None);
self.cached_length.set(OptionU32::none());
self.cached_cursor_index.set(OptionU32::none());
}
}
fn set_cached_cursor(&self, index: u32, element: Option<Root<Element>>) -> Option<Root<Element>> {
if let Some(element) = element {
self.cached_cursor_index.set(OptionU32::some(index));
self.cached_cursor_element.set(Some(&element));
Some(element)
} else {
None
}
}
pub fn by_tag_name(window: &Window, root: &Node, mut tag: DOMString)
-> Root<HTMLCollection> {
let tag_atom = Atom::from(&*tag);
tag.make_ascii_lowercase();
let ascii_lower_tag = Atom::from(tag); // FIXME(ajeffrey): don't clone atom if it was already lowercased.
HTMLCollection::by_atomic_tag_name(window, root, tag_atom, ascii_lower_tag)
}
pub fn by_atomic_tag_name(window: &Window, root: &Node, tag_atom: Atom, ascii_lower_tag: Atom)
-> Root<HTMLCollection> {
#[derive(JSTraceable, HeapSizeOf)]
struct TagNameFilter {
tag: Atom,
ascii_lower_tag: Atom,
}
impl CollectionFilter for TagNameFilter {
fn filter(&self, elem: &Element, _root: &Node) -> bool {
if self.tag == atom!("*") {
true
} else if elem.html_element_in_html_document() {
*elem.local_name() == self.ascii_lower_tag
} else {
*elem.local_name() == self.tag
}
}
}
let filter = TagNameFilter {
tag: tag_atom,
ascii_lower_tag: ascii_lower_tag,
};
HTMLCollection::create(window, root, box filter)
}
pub fn by_tag_name_ns(window: &Window, root: &Node, tag: DOMString,
maybe_ns: Option<DOMString>) -> Root<HTMLCollection> {
let local = Atom::from(tag);
let ns = namespace_from_domstring(maybe_ns);
let qname = QualName::new(ns, local);
HTMLCollection::by_qual_tag_name(window, root, qname)
}
pub fn by_qual_tag_name(window: &Window, root: &Node, qname: QualName) -> Root<HTMLCollection> {
#[derive(JSTraceable, HeapSizeOf)]
struct TagNameNSFilter {
qname: QualName
}
impl CollectionFilter for TagNameNSFilter {
fn filter(&self, elem: &Element, _root: &Node) -> bool {
((self.qname.ns == Namespace(atom!("*"))) || (self.qname.ns == *elem.namespace())) &&
((self.qname.local == atom!("*")) || (self.qname.local == *elem.local_name()))
}
}
let filter = TagNameNSFilter {
qname: qname
};
HTMLCollection::create(window, root, box filter)
}
pub fn by_class_name(window: &Window, root: &Node, classes: DOMString)
-> Root<HTMLCollection> {
let class_atoms = split_html_space_chars(&classes).map(Atom::from).collect();
HTMLCollection::by_atomic_class_name(window, root, class_atoms)
}
pub fn by_atomic_class_name(window: &Window, root: &Node, classes: Vec<Atom>)
-> Root<HTMLCollection> {
#[derive(JSTraceable, HeapSizeOf)]
struct ClassNameFilter {
classes: Vec<Atom>
}
impl CollectionFilter for ClassNameFilter {
fn filter(&self, elem: &Element, _root: &Node) -> bool {
self.classes.iter().all(|class| elem.has_class(class))
}
}
let filter = ClassNameFilter {
classes: classes
};
HTMLCollection::create(window, root, box filter)
}
pub fn children(window: &Window, root: &Node) -> Root<HTMLCollection> {
#[derive(JSTraceable, HeapSizeOf)]
struct ElementChildFilter;
impl CollectionFilter for ElementChildFilter {
fn filter(&self, elem: &Element, root: &Node) -> bool {
root.is_parent_of(elem.upcast())
}
}
HTMLCollection::create(window, root, box ElementChildFilter)
}
pub fn elements_iter_after(&self, after: &Node) -> HTMLCollectionElementsIter {
// Iterate forwards from a node.
HTMLCollectionElementsIter {
node_iter: box after.following_nodes(&self.root),
root: Root::from_ref(&self.root),
filter: &self.filter,
}
}
pub fn elements_iter(&self) -> HTMLCollectionElementsIter {
// Iterate forwards from the root.
self.elements_iter_after(&*self.root)
}
pub fn elements_iter_before(&self, before: &Node) -> HTMLCollectionElementsIter {
// Iterate backwards from a node.
HTMLCollectionElementsIter {
node_iter: box before.preceding_nodes(&self.root),
root: Root::from_ref(&self.root),
filter: &self.filter,
}
}
pub fn root_node(&self) -> Root<Node> {
Root::from_ref(&self.root)
}
}
// TODO: Make this generic, and avoid code duplication
pub struct HTMLCollectionElementsIter<'a> {
node_iter: Box<Iterator<Item = Root<Node>>>,
root: Root<Node>,
filter: &'a Box<CollectionFilter>,
}
impl<'a> Iterator for HTMLCollectionElementsIter<'a> {
type Item = Root<Element>;
fn next(&mut self) -> Option<Self::Item> {
let filter = &self.filter;
let root = &self.root;
self.node_iter.by_ref()
.filter_map(Root::downcast)
.filter(|element| filter.filter(&element, root))
.next()
}
}
impl HTMLCollectionMethods for HTMLCollection {
// https://dom.spec.whatwg.org/#dom-htmlcollection-length
fn Length(&self) -> u32 {
self.validate_cache();
if let Some(cached_length) = self.cached_length.get().to_option() {
// Cache hit
cached_length
} else {
// Cache miss, calculate the length
let length = self.elements_iter().count() as u32;
self.cached_length.set(OptionU32::some(length));
length
}
}
// https://dom.spec.whatwg.org/#dom-htmlcollection-item
fn Item(&self, index: u32) -> Option<Root<Element>> {
self.validate_cache();
if let Some(element) = self.cached_cursor_element.get() {
// Cache hit, the cursor element is set
if let Some(cached_index) = self.cached_cursor_index.get().to_option() {
if cached_index == index {
// The cursor is the element we're looking for
Some(element)
} else if cached_index < index {
// The cursor is before the element we're looking for
// Iterate forwards, starting at the cursor.
let offset = index - (cached_index + 1);
let node: Root<Node> = Root::upcast(element);
self.set_cached_cursor(index, self.elements_iter_after(&node).nth(offset as usize))
} else {
// The cursor is after the element we're looking for
// Iterate backwards, starting at the cursor.
let offset = cached_index - (index + 1);
let node: Root<Node> = Root::upcast(element);
self.set_cached_cursor(index, self.elements_iter_before(&node).nth(offset as usize))
}
} else {
// Cache miss
// Iterate forwards through all the nodes
self.set_cached_cursor(index, self.elements_iter().nth(index as usize))
}
} else {
// Cache miss
// Iterate forwards through all the nodes
self.set_cached_cursor(index, self.elements_iter().nth(index as usize))
}
}
// https://dom.spec.whatwg.org/#dom-htmlcollection-nameditem
fn NamedItem(&self, key: DOMString) -> Option<Root<Element>> {
// Step 1.
if key.is_empty() {
return None;
}
// Step 2.
self.elements_iter().find(|elem| {
elem.get_string_attribute(&atom!("id")) == key ||
(elem.namespace() == &ns!(html) && elem.get_string_attribute(&atom!("name")) == key)
})
}
// https://dom.spec.whatwg.org/#dom-htmlcollection-item
fn IndexedGetter(&self, index: u32) -> Option<Root<Element>> {
self.Item(index)
}
// check-tidy: no specs after this line
fn NamedGetter(&self, name: DOMString) -> Option<Root<Element>> {
self.NamedItem(name)
}
// https://dom.spec.whatwg.org/#interface-htmlcollection
fn SupportedPropertyNames(&self) -> Vec<DOMString> {
// Step 1
let mut result = vec![];
// Step 2
for elem in self.elements_iter() {
// Step 2.1
let id_attr = elem.get_string_attribute(&atom!("id"));
if !id_attr.is_empty() && !result.contains(&id_attr) {
result.push(id_attr)
}
// Step 2.2
let name_attr = elem.get_string_attribute(&atom!("name"));
if !name_attr.is_empty() && !result.contains(&name_attr) && *elem.namespace() == ns!(html) {
result.push(name_attr)
}
}
// Step 3
result
}
}