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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 https://mozilla.org/MPL/2.0/. */
//! Generic implementations of some DOM APIs so they can be shared between Servo
//! and Gecko.
use crate::context::QuirksMode;
use crate::dom::{TDocument, TElement, TNode, TShadowRoot};
use crate::invalidation::element::invalidation_map::Dependency;
use crate::invalidation::element::invalidator::{DescendantInvalidationLists, Invalidation};
use crate::invalidation::element::invalidator::{InvalidationProcessor, InvalidationVector};
use crate::selector_parser::SelectorImpl;
use crate::values::AtomIdent;
use selectors::attr::CaseSensitivity;
use selectors::matching::{self, MatchingContext, MatchingMode, NeedsSelectorFlags};
use selectors::parser::{Combinator, Component, LocalName};
use selectors::{Element, SelectorList};
use smallvec::SmallVec;
/// <https://dom.spec.whatwg.org/#dom-element-matches>
pub fn element_matches<E>(
element: &E,
selector_list: &SelectorList<E::Impl>,
quirks_mode: QuirksMode,
) -> bool
where
E: Element,
{
let mut nth_index_cache = Default::default();
let mut context = MatchingContext::new(
MatchingMode::Normal,
None,
&mut nth_index_cache,
quirks_mode,
NeedsSelectorFlags::No,
);
context.scope_element = Some(element.opaque());
context.current_host = element.containing_shadow_host().map(|e| e.opaque());
matching::matches_selector_list(selector_list, element, &mut context)
}
/// <https://dom.spec.whatwg.org/#dom-element-closest>
pub fn element_closest<E>(
element: E,
selector_list: &SelectorList<E::Impl>,
quirks_mode: QuirksMode,
) -> Option<E>
where
E: Element,
{
let mut nth_index_cache = Default::default();
let mut context = MatchingContext::new(
MatchingMode::Normal,
None,
&mut nth_index_cache,
quirks_mode,
NeedsSelectorFlags::No,
);
context.scope_element = Some(element.opaque());
context.current_host = element.containing_shadow_host().map(|e| e.opaque());
let mut current = Some(element);
while let Some(element) = current.take() {
if matching::matches_selector_list(selector_list, &element, &mut context) {
return Some(element);
}
current = element.parent_element();
}
return None;
}
/// A selector query abstraction, in order to be generic over QuerySelector and
/// QuerySelectorAll.
pub trait SelectorQuery<E: TElement> {
/// The output of the query.
type Output;
/// Whether the query should stop after the first element has been matched.
fn should_stop_after_first_match() -> bool;
/// Append an element matching after the first query.
fn append_element(output: &mut Self::Output, element: E);
/// Returns true if the output is empty.
fn is_empty(output: &Self::Output) -> bool;
}
/// The result of a querySelectorAll call.
pub type QuerySelectorAllResult<E> = SmallVec<[E; 128]>;
/// A query for all the elements in a subtree.
pub struct QueryAll;
impl<E: TElement> SelectorQuery<E> for QueryAll {
type Output = QuerySelectorAllResult<E>;
fn should_stop_after_first_match() -> bool {
false
}
fn append_element(output: &mut Self::Output, element: E) {
output.push(element);
}
fn is_empty(output: &Self::Output) -> bool {
output.is_empty()
}
}
/// A query for the first in-tree match of all the elements in a subtree.
pub struct QueryFirst;
impl<E: TElement> SelectorQuery<E> for QueryFirst {
type Output = Option<E>;
fn should_stop_after_first_match() -> bool {
true
}
fn append_element(output: &mut Self::Output, element: E) {
if output.is_none() {
*output = Some(element)
}
}
fn is_empty(output: &Self::Output) -> bool {
output.is_none()
}
}
struct QuerySelectorProcessor<'a, E, Q>
where
E: TElement + 'a,
Q: SelectorQuery<E>,
Q::Output: 'a,
{
results: &'a mut Q::Output,
matching_context: MatchingContext<'a, E::Impl>,
dependencies: &'a [Dependency],
}
impl<'a, E, Q> InvalidationProcessor<'a, E> for QuerySelectorProcessor<'a, E, Q>
where
E: TElement + 'a,
Q: SelectorQuery<E>,
Q::Output: 'a,
{
fn light_tree_only(&self) -> bool {
true
}
fn check_outer_dependency(&mut self, _: &Dependency, _: E) -> bool {
debug_assert!(
false,
"How? We should only have parent-less dependencies here!"
);
true
}
fn collect_invalidations(
&mut self,
element: E,
self_invalidations: &mut InvalidationVector<'a>,
descendant_invalidations: &mut DescendantInvalidationLists<'a>,
_sibling_invalidations: &mut InvalidationVector<'a>,
) -> bool {
// TODO(emilio): If the element is not a root element, and
// selector_list has any descendant combinator, we need to do extra work
// in order to handle properly things like:
//
// <div id="a">
// <div id="b">
// <div id="c"></div>
// </div>
// </div>
//
// b.querySelector('#a div'); // Should return "c".
//
// For now, assert it's a root element.
debug_assert!(element.parent_element().is_none());
let target_vector = if self.matching_context.scope_element.is_some() {
&mut descendant_invalidations.dom_descendants
} else {
self_invalidations
};
for dependency in self.dependencies.iter() {
target_vector.push(Invalidation::new(
dependency,
self.matching_context.current_host.clone(),
))
}
false
}
fn matching_context(&mut self) -> &mut MatchingContext<'a, E::Impl> {
&mut self.matching_context
}
fn should_process_descendants(&mut self, _: E) -> bool {
if Q::should_stop_after_first_match() {
return Q::is_empty(&self.results);
}
true
}
fn invalidated_self(&mut self, e: E) {
Q::append_element(self.results, e);
}
fn invalidated_sibling(&mut self, e: E, _of: E) {
Q::append_element(self.results, e);
}
fn recursion_limit_exceeded(&mut self, _e: E) {}
fn invalidated_descendants(&mut self, _e: E, _child: E) {}
}
fn collect_all_elements<E, Q, F>(root: E::ConcreteNode, results: &mut Q::Output, mut filter: F)
where
E: TElement,
Q: SelectorQuery<E>,
F: FnMut(E) -> bool,
{
for node in root.dom_descendants() {
let element = match node.as_element() {
Some(e) => e,
None => continue,
};
if !filter(element) {
continue;
}
Q::append_element(results, element);
if Q::should_stop_after_first_match() {
return;
}
}
}
/// Returns whether a given element connected to `root` is descendant of `root`.
///
/// NOTE(emilio): if root == element, this returns false.
fn connected_element_is_descendant_of<E>(element: E, root: E::ConcreteNode) -> bool
where
E: TElement,
{
// Optimize for when the root is a document or a shadow root and the element
// is connected to that root.
if root.as_document().is_some() {
debug_assert!(element.as_node().is_in_document(), "Not connected?");
debug_assert_eq!(
root,
root.owner_doc().as_node(),
"Where did this element come from?",
);
return true;
}
if root.as_shadow_root().is_some() {
debug_assert_eq!(
element.containing_shadow().unwrap().as_node(),
root,
"Not connected?"
);
return true;
}
let mut current = element.as_node().parent_node();
while let Some(n) = current.take() {
if n == root {
return true;
}
current = n.parent_node();
}
false
}
/// Fast path for iterating over every element with a given id in the document
/// or shadow root that `root` is connected to.
fn fast_connected_elements_with_id<'a, N>(
root: N,
id: &AtomIdent,
quirks_mode: QuirksMode,
) -> Result<&'a [N::ConcreteElement], ()>
where
N: TNode + 'a,
{
let case_sensitivity = quirks_mode.classes_and_ids_case_sensitivity();
if case_sensitivity != CaseSensitivity::CaseSensitive {
return Err(());
}
if root.is_in_document() {
return root.owner_doc().elements_with_id(id);
}
if let Some(shadow) = root.as_shadow_root() {
return shadow.elements_with_id(id);
}
if let Some(shadow) = root.as_element().and_then(|e| e.containing_shadow()) {
return shadow.elements_with_id(id);
}
Err(())
}
/// Collects elements with a given id under `root`, that pass `filter`.
fn collect_elements_with_id<E, Q, F>(
root: E::ConcreteNode,
id: &AtomIdent,
results: &mut Q::Output,
quirks_mode: QuirksMode,
mut filter: F,
) where
E: TElement,
Q: SelectorQuery<E>,
F: FnMut(E) -> bool,
{
let elements = match fast_connected_elements_with_id(root, id, quirks_mode) {
Ok(elements) => elements,
Err(()) => {
let case_sensitivity = quirks_mode.classes_and_ids_case_sensitivity();
collect_all_elements::<E, Q, _>(root, results, |e| {
e.has_id(id, case_sensitivity) && filter(e)
});
return;
},
};
for element in elements {
// If the element is not an actual descendant of the root, even though
// it's connected, we don't really care about it.
if !connected_element_is_descendant_of(*element, root) {
continue;
}
if !filter(*element) {
continue;
}
Q::append_element(results, *element);
if Q::should_stop_after_first_match() {
break;
}
}
}
#[inline(always)]
fn local_name_matches<E>(element: E, local_name: &LocalName<E::Impl>) -> bool
where
E: TElement,
{
let LocalName {
ref name,
ref lower_name,
} = *local_name;
let chosen_name = if name == lower_name || element.is_html_element_in_html_document() {
lower_name
} else {
name
};
element.local_name() == &**chosen_name
}
fn get_id(component: &Component<SelectorImpl>) -> Option<&AtomIdent> {
use selectors::attr::AttrSelectorOperator;
Some(match component {
Component::ID(ref id) => id,
Component::AttributeInNoNamespace {
ref operator,
ref local_name,
ref value,
..
} => {
if *local_name != local_name!("id") {
return None;
}
if *operator != AttrSelectorOperator::Equal {
return None;
}
AtomIdent::cast(&value.0)
},
_ => return None,
})
}
/// Fast paths for querySelector with a single simple selector.
fn query_selector_single_query<E, Q>(
root: E::ConcreteNode,
component: &Component<E::Impl>,
results: &mut Q::Output,
quirks_mode: QuirksMode,
) -> Result<(), ()>
where
E: TElement,
Q: SelectorQuery<E>,
{
// TODO: Maybe we could implement a fast path for [name=""]?
match *component {
Component::ExplicitUniversalType => {
collect_all_elements::<E, Q, _>(root, results, |_| true)
},
Component::Class(ref class) => {
let case_sensitivity = quirks_mode.classes_and_ids_case_sensitivity();
collect_all_elements::<E, Q, _>(root, results, |element| {
element.has_class(class, case_sensitivity)
})
},
Component::LocalName(ref local_name) => {
collect_all_elements::<E, Q, _>(root, results, |element| {
local_name_matches(element, local_name)
})
},
ref other => {
let id = match get_id(other) {
Some(id) => id,
// TODO(emilio): More fast paths?
None => return Err(()),
};
collect_elements_with_id::<E, Q, _>(root, id, results, quirks_mode, |_| true);
},
}
Ok(())
}
enum SimpleFilter<'a> {
Class(&'a AtomIdent),
LocalName(&'a LocalName<SelectorImpl>),
}
/// Fast paths for a given selector query.
///
/// When there's only one component, we go directly to
/// `query_selector_single_query`, otherwise, we try to optimize by looking just
/// at the subtrees rooted at ids in the selector, and otherwise we try to look
/// up by class name or local name in the rightmost compound.
///
/// FIXME(emilio, nbp): This may very well be a good candidate for code to be
/// replaced by HolyJit :)
fn query_selector_fast<E, Q>(
root: E::ConcreteNode,
selector_list: &SelectorList<E::Impl>,
results: &mut Q::Output,
matching_context: &mut MatchingContext<E::Impl>,
) -> Result<(), ()>
where
E: TElement,
Q: SelectorQuery<E>,
{
// We need to return elements in document order, and reordering them
// afterwards is kinda silly.
if selector_list.0.len() > 1 {
return Err(());
}
let selector = &selector_list.0[0];
let quirks_mode = matching_context.quirks_mode();
// Let's just care about the easy cases for now.
if selector.len() == 1 {
return query_selector_single_query::<E, Q>(
root,
selector.iter().next().unwrap(),
results,
quirks_mode,
);
}
let mut iter = selector.iter();
let mut combinator: Option<Combinator> = None;
// We want to optimize some cases where there's no id involved whatsoever,
// like `.foo .bar`, but we don't want to make `#foo .bar` slower because of
// that.
let mut simple_filter = None;
'selector_loop: loop {
debug_assert!(combinator.map_or(true, |c| !c.is_sibling()));
'component_loop: for component in &mut iter {
match *component {
Component::Class(ref class) => {
if combinator.is_none() {
simple_filter = Some(SimpleFilter::Class(class));
}
},
Component::LocalName(ref local_name) => {
if combinator.is_none() {
// Prefer to look at class rather than local-name if
// both are present.
if let Some(SimpleFilter::Class(..)) = simple_filter {
continue;
}
simple_filter = Some(SimpleFilter::LocalName(local_name));
}
},
ref other => {
if let Some(id) = get_id(other) {
if combinator.is_none() {
// In the rightmost compound, just find descendants of root that match
// the selector list with that id.
collect_elements_with_id::<E, Q, _>(
root,
id,
results,
quirks_mode,
|e| {
matching::matches_selector_list(
selector_list,
&e,
matching_context,
)
},
);
return Ok(());
}
let elements = fast_connected_elements_with_id(root, id, quirks_mode)?;
if elements.is_empty() {
return Ok(());
}
// Results need to be in document order. Let's not bother
// reordering or deduplicating nodes, which we would need to
// do if one element with the given id were a descendant of
// another element with that given id.
if !Q::should_stop_after_first_match() && elements.len() > 1 {
continue;
}
for element in elements {
// If the element is not a descendant of the root, then
// it may have descendants that match our selector that
// _are_ descendants of the root, and other descendants
// that match our selector that are _not_.
//
// So we can't just walk over the element's descendants
// and match the selector against all of them, nor can
// we skip looking at this element's descendants.
//
// Give up on trying to optimize based on this id and
// keep walking our selector.
if !connected_element_is_descendant_of(*element, root) {
continue 'component_loop;
}
query_selector_slow::<E, Q>(
element.as_node(),
selector_list,
results,
matching_context,
);
if Q::should_stop_after_first_match() && !Q::is_empty(&results) {
break;
}
}
return Ok(());
}
},
}
}
loop {
let next_combinator = match iter.next_sequence() {
None => break 'selector_loop,
Some(c) => c,
};
// We don't want to scan stuff affected by sibling combinators,
// given we scan the subtree of elements with a given id (and we
// don't want to care about scanning the siblings' subtrees).
if next_combinator.is_sibling() {
// Advance to the next combinator.
for _ in &mut iter {}
continue;
}
combinator = Some(next_combinator);
break;
}
}
// We got here without finding any ID or such that we could handle. Try to
// use one of the simple filters.
let simple_filter = match simple_filter {
Some(f) => f,
None => return Err(()),
};
match simple_filter {
SimpleFilter::Class(ref class) => {
let case_sensitivity = quirks_mode.classes_and_ids_case_sensitivity();
collect_all_elements::<E, Q, _>(root, results, |element| {
element.has_class(class, case_sensitivity) &&
matching::matches_selector_list(selector_list, &element, matching_context)
});
},
SimpleFilter::LocalName(ref local_name) => {
collect_all_elements::<E, Q, _>(root, results, |element| {
local_name_matches(element, local_name) &&
matching::matches_selector_list(selector_list, &element, matching_context)
});
},
}
Ok(())
}
// Slow path for a given selector query.
fn query_selector_slow<E, Q>(
root: E::ConcreteNode,
selector_list: &SelectorList<E::Impl>,
results: &mut Q::Output,
matching_context: &mut MatchingContext<E::Impl>,
) where
E: TElement,
Q: SelectorQuery<E>,
{
collect_all_elements::<E, Q, _>(root, results, |element| {
matching::matches_selector_list(selector_list, &element, matching_context)
});
}
/// Whether the invalidation machinery should be used for this query.
#[derive(PartialEq)]
pub enum MayUseInvalidation {
/// We may use it if we deem it useful.
Yes,
/// Don't use it.
No,
}
/// <https://dom.spec.whatwg.org/#dom-parentnode-queryselector>
pub fn query_selector<E, Q>(
root: E::ConcreteNode,
selector_list: &SelectorList<E::Impl>,
results: &mut Q::Output,
may_use_invalidation: MayUseInvalidation,
) where
E: TElement,
Q: SelectorQuery<E>,
{
use crate::invalidation::element::invalidator::TreeStyleInvalidator;
let mut nth_index_cache = Default::default();
let quirks_mode = root.owner_doc().quirks_mode();
let mut matching_context = MatchingContext::new(
MatchingMode::Normal,
None,
&mut nth_index_cache,
quirks_mode,
NeedsSelectorFlags::No,
);
let root_element = root.as_element();
matching_context.scope_element = root_element.map(|e| e.opaque());
matching_context.current_host = match root_element {
Some(root) => root.containing_shadow_host().map(|host| host.opaque()),
None => root.as_shadow_root().map(|root| root.host().opaque()),
};
let fast_result =
query_selector_fast::<E, Q>(root, selector_list, results, &mut matching_context);
if fast_result.is_ok() {
return;
}
// Slow path: Use the invalidation machinery if we're a root, and tree
// traversal otherwise.
//
// See the comment in collect_invalidations to see why only if we're a root.
//
// The invalidation mechanism is only useful in presence of combinators.
//
// We could do that check properly here, though checking the length of the
// selectors is a good heuristic.
//
// A selector with a combinator needs to have a length of at least 3: A
// simple selector, a combinator, and another simple selector.
let invalidation_may_be_useful = may_use_invalidation == MayUseInvalidation::Yes &&
selector_list.0.iter().any(|s| s.len() > 2);
if root_element.is_some() || !invalidation_may_be_useful {
query_selector_slow::<E, Q>(root, selector_list, results, &mut matching_context);
} else {
let dependencies = selector_list
.0
.iter()
.map(|selector| Dependency::for_full_selector_invalidation(selector.clone()))
.collect::<SmallVec<[_; 5]>>();
let mut processor = QuerySelectorProcessor::<E, Q> {
results,
matching_context,
dependencies: &dependencies,
};
for node in root.dom_children() {
if let Some(e) = node.as_element() {
TreeStyleInvalidator::new(e, /* stack_limit_checker = */ None, &mut processor)
.invalidate();
}
}
}
}
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