Source code
Revision control
Copy as Markdown
Other Tools
/* 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
#![allow(unsafe_code)]
//! Wrapper definitions on top of Gecko types in order to be used in the style
//! system.
//!
//! This really follows the Servo pattern in
//! `components/script/layout_wrapper.rs`.
//!
//! This theoretically should live in its own crate, but now it lives in the
//! style system it's kind of pointless in the Stylo case, and only Servo forces
//! the separation between the style system implementation and everything else.
use crate::applicable_declarations::ApplicableDeclarationBlock;
use crate::bloom::each_relevant_element_hash;
use crate::context::{PostAnimationTasks, QuirksMode, SharedStyleContext, UpdateAnimationsTasks};
use crate::data::ElementData;
use crate::dom::{LayoutIterator, NodeInfo, OpaqueNode, TDocument, TElement, TNode, TShadowRoot};
use crate::gecko::selector_parser::{NonTSPseudoClass, PseudoElement, SelectorImpl};
use crate::gecko::snapshot_helpers;
use crate::gecko_bindings::bindings;
use crate::gecko_bindings::bindings::Gecko_ElementHasAnimations;
use crate::gecko_bindings::bindings::Gecko_ElementHasCSSAnimations;
use crate::gecko_bindings::bindings::Gecko_ElementHasCSSTransitions;
use crate::gecko_bindings::bindings::Gecko_ElementState;
use crate::gecko_bindings::bindings::Gecko_GetActiveLinkAttrDeclarationBlock;
use crate::gecko_bindings::bindings::Gecko_GetAnimationEffectCount;
use crate::gecko_bindings::bindings::Gecko_GetAnimationRule;
use crate::gecko_bindings::bindings::Gecko_GetExtraContentStyleDeclarations;
use crate::gecko_bindings::bindings::Gecko_GetHTMLPresentationAttrDeclarationBlock;
use crate::gecko_bindings::bindings::Gecko_GetStyleAttrDeclarationBlock;
use crate::gecko_bindings::bindings::Gecko_GetUnvisitedLinkAttrDeclarationBlock;
use crate::gecko_bindings::bindings::Gecko_GetVisitedLinkAttrDeclarationBlock;
use crate::gecko_bindings::bindings::Gecko_IsSignificantChild;
use crate::gecko_bindings::bindings::Gecko_MatchLang;
use crate::gecko_bindings::bindings::Gecko_UnsetDirtyStyleAttr;
use crate::gecko_bindings::bindings::Gecko_UpdateAnimations;
use crate::gecko_bindings::structs;
use crate::gecko_bindings::structs::nsChangeHint;
use crate::gecko_bindings::structs::EffectCompositor_CascadeLevel as CascadeLevel;
use crate::gecko_bindings::structs::ELEMENT_HANDLED_SNAPSHOT;
use crate::gecko_bindings::structs::ELEMENT_HAS_ANIMATION_ONLY_DIRTY_DESCENDANTS_FOR_SERVO;
use crate::gecko_bindings::structs::ELEMENT_HAS_DIRTY_DESCENDANTS_FOR_SERVO;
use crate::gecko_bindings::structs::ELEMENT_HAS_SNAPSHOT;
use crate::gecko_bindings::structs::NODE_DESCENDANTS_NEED_FRAMES;
use crate::gecko_bindings::structs::NODE_NEEDS_FRAME;
use crate::gecko_bindings::structs::{nsAtom, nsIContent, nsINode_BooleanFlag};
use crate::gecko_bindings::structs::{nsINode as RawGeckoNode, Element as RawGeckoElement};
use crate::global_style_data::GLOBAL_STYLE_DATA;
use crate::invalidation::element::restyle_hints::RestyleHint;
use crate::media_queries::Device;
use crate::properties::{
animated_properties::{AnimationValue, AnimationValueMap},
ComputedValues, Importance, OwnedPropertyDeclarationId, PropertyDeclaration,
PropertyDeclarationBlock, PropertyDeclarationId, PropertyDeclarationIdSet,
};
use crate::rule_tree::CascadeLevel as ServoCascadeLevel;
use crate::selector_parser::{AttrValue, Lang};
use crate::shared_lock::{Locked, SharedRwLock};
use crate::string_cache::{Atom, Namespace, WeakAtom, WeakNamespace};
use crate::stylist::CascadeData;
use crate::values::computed::Display;
use crate::values::{AtomIdent, AtomString};
use crate::CaseSensitivityExt;
use crate::LocalName;
use app_units::Au;
use atomic_refcell::{AtomicRef, AtomicRefCell, AtomicRefMut};
use dom::{DocumentState, ElementState};
use euclid::default::Size2D;
use fxhash::FxHashMap;
use selectors::attr::{AttrSelectorOperation, CaseSensitivity, NamespaceConstraint};
use selectors::bloom::{BloomFilter, BLOOM_HASH_MASK};
use selectors::matching::VisitedHandlingMode;
use selectors::matching::{ElementSelectorFlags, MatchingContext};
use selectors::sink::Push;
use selectors::{Element, OpaqueElement};
use servo_arc::{Arc, ArcBorrow};
use std::cell::Cell;
use std::fmt;
use std::hash::{Hash, Hasher};
use std::mem;
use std::ptr;
use std::sync::atomic::{AtomicU32, Ordering};
#[inline]
fn elements_with_id<'a, 'le>(
array: *const structs::nsTArray<*mut RawGeckoElement>,
) -> &'a [GeckoElement<'le>] {
unsafe {
if array.is_null() {
return &[];
}
let elements: &[*mut RawGeckoElement] = &**array;
// NOTE(emilio): We rely on the in-memory representation of
// GeckoElement<'ld> and *mut RawGeckoElement being the same.
#[allow(dead_code)]
unsafe fn static_assert() {
mem::transmute::<*mut RawGeckoElement, GeckoElement<'static>>(0xbadc0de as *mut _);
}
mem::transmute(elements)
}
}
/// A simple wrapper over `Document`.
#[derive(Clone, Copy)]
pub struct GeckoDocument<'ld>(pub &'ld structs::Document);
impl<'ld> TDocument for GeckoDocument<'ld> {
type ConcreteNode = GeckoNode<'ld>;
#[inline]
fn as_node(&self) -> Self::ConcreteNode {
GeckoNode(&self.0._base)
}
#[inline]
fn is_html_document(&self) -> bool {
self.0.mType == structs::Document_Type::eHTML
}
#[inline]
fn quirks_mode(&self) -> QuirksMode {
self.0.mCompatMode.into()
}
#[inline]
fn elements_with_id<'a>(&self, id: &AtomIdent) -> Result<&'a [GeckoElement<'ld>], ()>
where
Self: 'a,
{
Ok(elements_with_id(unsafe {
bindings::Gecko_Document_GetElementsWithId(self.0, id.as_ptr())
}))
}
fn shared_lock(&self) -> &SharedRwLock {
&GLOBAL_STYLE_DATA.shared_lock
}
}
/// A simple wrapper over `ShadowRoot`.
#[derive(Clone, Copy)]
pub struct GeckoShadowRoot<'lr>(pub &'lr structs::ShadowRoot);
impl<'ln> fmt::Debug for GeckoShadowRoot<'ln> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
// TODO(emilio): Maybe print the host or something?
write!(f, "<shadow-root> ({:#x})", self.as_node().opaque().0)
}
}
impl<'lr> PartialEq for GeckoShadowRoot<'lr> {
#[inline]
fn eq(&self, other: &Self) -> bool {
self.0 as *const _ == other.0 as *const _
}
}
impl<'lr> TShadowRoot for GeckoShadowRoot<'lr> {
type ConcreteNode = GeckoNode<'lr>;
#[inline]
fn as_node(&self) -> Self::ConcreteNode {
GeckoNode(&self.0._base._base._base._base)
}
#[inline]
fn host(&self) -> GeckoElement<'lr> {
GeckoElement(unsafe { &*self.0._base.mHost.mRawPtr })
}
#[inline]
fn style_data<'a>(&self) -> Option<&'a CascadeData>
where
Self: 'a,
{
let author_styles = unsafe { self.0.mServoStyles.mPtr.as_ref()? };
Some(&author_styles.data)
}
#[inline]
fn elements_with_id<'a>(&self, id: &AtomIdent) -> Result<&'a [GeckoElement<'lr>], ()>
where
Self: 'a,
{
Ok(elements_with_id(unsafe {
bindings::Gecko_ShadowRoot_GetElementsWithId(self.0, id.as_ptr())
}))
}
#[inline]
fn parts<'a>(&self) -> &[<Self::ConcreteNode as TNode>::ConcreteElement]
where
Self: 'a,
{
let slice: &[*const RawGeckoElement] = &*self.0.mParts;
#[allow(dead_code)]
unsafe fn static_assert() {
mem::transmute::<*const RawGeckoElement, GeckoElement<'static>>(0xbadc0de as *const _);
}
unsafe { mem::transmute(slice) }
}
}
/// A simple wrapper over a non-null Gecko node (`nsINode`) pointer.
///
/// Important: We don't currently refcount the DOM, because the wrapper lifetime
/// magic guarantees that our LayoutFoo references won't outlive the root, and
/// we don't mutate any of the references on the Gecko side during restyle.
///
/// We could implement refcounting if need be (at a potentially non-trivial
/// performance cost) by implementing Drop and making LayoutFoo non-Copy.
#[derive(Clone, Copy)]
pub struct GeckoNode<'ln>(pub &'ln RawGeckoNode);
impl<'ln> PartialEq for GeckoNode<'ln> {
#[inline]
fn eq(&self, other: &Self) -> bool {
self.0 as *const _ == other.0 as *const _
}
}
impl<'ln> fmt::Debug for GeckoNode<'ln> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
if let Some(el) = self.as_element() {
return el.fmt(f);
}
if self.is_text_node() {
return write!(f, "<text node> ({:#x})", self.opaque().0);
}
if self.is_document() {
return write!(f, "<document> ({:#x})", self.opaque().0);
}
if let Some(sr) = self.as_shadow_root() {
return sr.fmt(f);
}
write!(f, "<non-text node> ({:#x})", self.opaque().0)
}
}
impl<'ln> GeckoNode<'ln> {
#[inline]
fn is_document(&self) -> bool {
// This is a DOM constant that isn't going to change.
const DOCUMENT_NODE: u16 = 9;
self.node_info().mInner.mNodeType == DOCUMENT_NODE
}
#[inline]
fn is_shadow_root(&self) -> bool {
self.is_in_shadow_tree() && self.parent_node().is_none()
}
#[inline]
fn from_content(content: &'ln nsIContent) -> Self {
GeckoNode(&content._base)
}
#[inline]
fn set_flags(&self, flags: u32) {
self.flags_atomic().fetch_or(flags, Ordering::Relaxed);
}
fn flags_atomic_for(flags: &Cell<u32>) -> &AtomicU32 {
const_assert!(std::mem::size_of::<Cell<u32>>() == std::mem::size_of::<AtomicU32>());
const_assert!(std::mem::align_of::<Cell<u32>>() == std::mem::align_of::<AtomicU32>());
// Rust doesn't provide standalone atomic functions like GCC/clang do
// (via the atomic intrinsics) or via std::atomic_ref, but it guarantees
// that the memory representation of u32 and AtomicU32 matches:
unsafe { std::mem::transmute::<&Cell<u32>, &AtomicU32>(flags) }
}
#[inline]
fn flags_atomic(&self) -> &AtomicU32 {
Self::flags_atomic_for(&self.0._base._base_1.mFlags)
}
#[inline]
fn flags(&self) -> u32 {
self.flags_atomic().load(Ordering::Relaxed)
}
#[inline]
fn selector_flags_atomic(&self) -> &AtomicU32 {
Self::flags_atomic_for(&self.0.mSelectorFlags)
}
#[inline]
fn selector_flags(&self) -> u32 {
self.selector_flags_atomic().load(Ordering::Relaxed)
}
#[inline]
fn set_selector_flags(&self, flags: u32) {
self.selector_flags_atomic()
.fetch_or(flags, Ordering::Relaxed);
}
#[inline]
fn node_info(&self) -> &structs::NodeInfo {
debug_assert!(!self.0.mNodeInfo.mRawPtr.is_null());
unsafe { &*self.0.mNodeInfo.mRawPtr }
}
// These live in different locations depending on processor architecture.
#[cfg(target_pointer_width = "64")]
#[inline]
fn bool_flags(&self) -> u32 {
(self.0)._base._base_1.mBoolFlags
}
#[cfg(target_pointer_width = "32")]
#[inline]
fn bool_flags(&self) -> u32 {
(self.0).mBoolFlags
}
#[inline]
fn get_bool_flag(&self, flag: nsINode_BooleanFlag) -> bool {
self.bool_flags() & (1u32 << flag as u32) != 0
}
/// This logic is duplicate in Gecko's nsINode::IsInShadowTree().
#[inline]
fn is_in_shadow_tree(&self) -> bool {
use crate::gecko_bindings::structs::NODE_IS_IN_SHADOW_TREE;
self.flags() & NODE_IS_IN_SHADOW_TREE != 0
}
/// Returns true if we know for sure that `flattened_tree_parent` and `parent_node` return the
/// same thing.
///
/// TODO(emilio): Measure and consider not doing this fast-path, it's only a function call and
/// from profiles it seems that keeping this fast path makes the compiler not inline
/// `flattened_tree_parent` as a whole, so we're not gaining much either.
#[inline]
fn flattened_tree_parent_is_parent(&self) -> bool {
use crate::gecko_bindings::structs::*;
let flags = self.flags();
let parent = match self.parent_node() {
Some(p) => p,
None => return true,
};
if parent.is_shadow_root() {
return false;
}
if let Some(parent) = parent.as_element() {
if flags & NODE_IS_NATIVE_ANONYMOUS_ROOT != 0 && parent.is_root() {
return false;
}
if parent.shadow_root().is_some() || parent.is_html_slot_element() {
return false;
}
}
true
}
#[inline]
fn flattened_tree_parent(&self) -> Option<Self> {
if self.flattened_tree_parent_is_parent() {
debug_assert_eq!(
unsafe {
bindings::Gecko_GetFlattenedTreeParentNode(self.0)
.as_ref()
.map(GeckoNode)
},
self.parent_node(),
"Fast path stopped holding!"
);
return self.parent_node();
}
// NOTE(emilio): If this call is too expensive, we could manually inline more aggressively.
unsafe {
bindings::Gecko_GetFlattenedTreeParentNode(self.0)
.as_ref()
.map(GeckoNode)
}
}
#[inline]
fn contains_non_whitespace_content(&self) -> bool {
unsafe { Gecko_IsSignificantChild(self.0, false) }
}
/// Returns the previous sibling of this node that is an element.
#[inline]
pub fn prev_sibling_element(&self) -> Option<GeckoElement> {
let mut prev = self.prev_sibling();
while let Some(p) = prev {
if let Some(e) = p.as_element() {
return Some(e);
}
prev = p.prev_sibling();
}
None
}
/// Returns the next sibling of this node that is an element.
#[inline]
pub fn next_sibling_element(&self) -> Option<GeckoElement> {
let mut next = self.next_sibling();
while let Some(n) = next {
if let Some(e) = n.as_element() {
return Some(e);
}
next = n.next_sibling();
}
None
}
/// Returns last child sibling of this node that is an element.
#[inline]
pub fn last_child_element(&self) -> Option<GeckoElement<'ln>> {
let last = match self.last_child() {
Some(n) => n,
None => return None,
};
if let Some(e) = last.as_element() {
return Some(e);
}
None
}
}
impl<'ln> NodeInfo for GeckoNode<'ln> {
#[inline]
fn is_element(&self) -> bool {
self.get_bool_flag(nsINode_BooleanFlag::NodeIsElement)
}
fn is_text_node(&self) -> bool {
// This is a DOM constant that isn't going to change.
const TEXT_NODE: u16 = 3;
self.node_info().mInner.mNodeType == TEXT_NODE
}
}
impl<'ln> TNode for GeckoNode<'ln> {
type ConcreteDocument = GeckoDocument<'ln>;
type ConcreteShadowRoot = GeckoShadowRoot<'ln>;
type ConcreteElement = GeckoElement<'ln>;
#[inline]
fn parent_node(&self) -> Option<Self> {
unsafe { self.0.mParent.as_ref().map(GeckoNode) }
}
#[inline]
fn first_child(&self) -> Option<Self> {
unsafe {
self.0
.mFirstChild
.raw()
.as_ref()
.map(GeckoNode::from_content)
}
}
#[inline]
fn last_child(&self) -> Option<Self> {
unsafe { bindings::Gecko_GetLastChild(self.0).as_ref().map(GeckoNode) }
}
#[inline]
fn prev_sibling(&self) -> Option<Self> {
unsafe {
let prev_or_last = GeckoNode::from_content(self.0.mPreviousOrLastSibling.as_ref()?);
if prev_or_last.0.mNextSibling.raw().is_null() {
return None;
}
Some(prev_or_last)
}
}
#[inline]
fn next_sibling(&self) -> Option<Self> {
unsafe {
self.0
.mNextSibling
.raw()
.as_ref()
.map(GeckoNode::from_content)
}
}
#[inline]
fn owner_doc(&self) -> Self::ConcreteDocument {
debug_assert!(!self.node_info().mDocument.is_null());
GeckoDocument(unsafe { &*self.node_info().mDocument })
}
#[inline]
fn is_in_document(&self) -> bool {
self.get_bool_flag(nsINode_BooleanFlag::IsInDocument)
}
fn traversal_parent(&self) -> Option<GeckoElement<'ln>> {
self.flattened_tree_parent().and_then(|n| n.as_element())
}
#[inline]
fn opaque(&self) -> OpaqueNode {
let ptr: usize = self.0 as *const _ as usize;
OpaqueNode(ptr)
}
fn debug_id(self) -> usize {
unimplemented!()
}
#[inline]
fn as_element(&self) -> Option<GeckoElement<'ln>> {
if !self.is_element() {
return None;
}
Some(GeckoElement(unsafe {
&*(self.0 as *const _ as *const RawGeckoElement)
}))
}
#[inline]
fn as_document(&self) -> Option<Self::ConcreteDocument> {
if !self.is_document() {
return None;
}
debug_assert_eq!(self.owner_doc().as_node(), *self, "How?");
Some(self.owner_doc())
}
#[inline]
fn as_shadow_root(&self) -> Option<Self::ConcreteShadowRoot> {
if !self.is_shadow_root() {
return None;
}
Some(GeckoShadowRoot(unsafe {
&*(self.0 as *const _ as *const structs::ShadowRoot)
}))
}
}
/// A wrapper on top of two kind of iterators, depending on the parent being
/// iterated.
///
/// We generally iterate children by traversing the light-tree siblings of the
/// first child like Servo does.
///
/// However, for nodes with anonymous children, we use a custom (heavier-weight)
/// Gecko-implemented iterator.
///
/// FIXME(emilio): If we take into account shadow DOM, we're going to need the
/// flat tree pretty much always. We can try to optimize the case where there's
/// no shadow root sibling, probably.
pub enum GeckoChildrenIterator<'a> {
/// A simple iterator that tracks the current node being iterated and
/// replaces it with the next sibling when requested.
Current(Option<GeckoNode<'a>>),
/// A Gecko-implemented iterator we need to drop appropriately.
GeckoIterator(structs::StyleChildrenIterator),
}
impl<'a> Drop for GeckoChildrenIterator<'a> {
fn drop(&mut self) {
if let GeckoChildrenIterator::GeckoIterator(ref mut it) = *self {
unsafe {
bindings::Gecko_DestroyStyleChildrenIterator(it);
}
}
}
}
impl<'a> Iterator for GeckoChildrenIterator<'a> {
type Item = GeckoNode<'a>;
fn next(&mut self) -> Option<GeckoNode<'a>> {
match *self {
GeckoChildrenIterator::Current(curr) => {
let next = curr.and_then(|node| node.next_sibling());
*self = GeckoChildrenIterator::Current(next);
curr
},
GeckoChildrenIterator::GeckoIterator(ref mut it) => unsafe {
// We do this unsafe lengthening of the lifetime here because
// structs::StyleChildrenIterator is actually StyleChildrenIterator<'a>,
// however we can't express this easily with bindgen, and it would
// introduce functions with two input lifetimes into bindgen,
// which would be out of scope for elision.
bindings::Gecko_GetNextStyleChild(&mut *(it as *mut _))
.as_ref()
.map(GeckoNode)
},
}
}
}
/// A simple wrapper over a non-null Gecko `Element` pointer.
#[derive(Clone, Copy)]
pub struct GeckoElement<'le>(pub &'le RawGeckoElement);
impl<'le> fmt::Debug for GeckoElement<'le> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
use nsstring::nsCString;
write!(f, "<{}", self.local_name())?;
let mut attrs = nsCString::new();
unsafe {
bindings::Gecko_Element_DebugListAttributes(self.0, &mut attrs);
}
write!(f, "{}", attrs)?;
write!(f, "> ({:#x})", self.as_node().opaque().0)
}
}
impl<'le> GeckoElement<'le> {
/// Gets the raw `ElementData` refcell for the element.
#[inline(always)]
pub fn get_data(&self) -> Option<&AtomicRefCell<ElementData>> {
unsafe { self.0.mServoData.get().as_ref() }
}
/// Returns whether any animation applies to this element.
#[inline]
pub fn has_any_animation(&self) -> bool {
self.may_have_animations() && unsafe { Gecko_ElementHasAnimations(self.0) }
}
#[inline(always)]
fn attrs(&self) -> &[structs::AttrArray_InternalAttr] {
unsafe {
match self.0.mAttrs.mImpl.mPtr.as_ref() {
Some(attrs) => attrs.mBuffer.as_slice(attrs.mAttrCount as usize),
None => return &[],
}
}
}
#[inline(always)]
fn get_part_attr(&self) -> Option<&structs::nsAttrValue> {
if !self.has_part_attr() {
return None;
}
snapshot_helpers::find_attr(self.attrs(), &atom!("part"))
}
#[inline(always)]
fn get_class_attr(&self) -> Option<&structs::nsAttrValue> {
if !self.may_have_class() {
return None;
}
if self.is_svg_element() {
let svg_class = unsafe { bindings::Gecko_GetSVGAnimatedClass(self.0).as_ref() };
if let Some(c) = svg_class {
return Some(c);
}
}
snapshot_helpers::find_attr(self.attrs(), &atom!("class"))
}
#[inline]
fn may_have_anonymous_children(&self) -> bool {
self.as_node()
.get_bool_flag(nsINode_BooleanFlag::ElementMayHaveAnonymousChildren)
}
#[inline]
fn flags(&self) -> u32 {
self.as_node().flags()
}
#[inline]
fn set_flags(&self, flags: u32) {
self.as_node().set_flags(flags);
}
#[inline]
unsafe fn unset_flags(&self, flags: u32) {
self.as_node()
.flags_atomic()
.fetch_and(!flags, Ordering::Relaxed);
}
/// Returns true if this element has descendants for lazy frame construction.
#[inline]
pub fn descendants_need_frames(&self) -> bool {
self.flags() & NODE_DESCENDANTS_NEED_FRAMES != 0
}
/// Returns true if this element needs lazy frame construction.
#[inline]
pub fn needs_frame(&self) -> bool {
self.flags() & NODE_NEEDS_FRAME != 0
}
/// Returns a reference to the DOM slots for this Element, if they exist.
#[inline]
fn dom_slots(&self) -> Option<&structs::FragmentOrElement_nsDOMSlots> {
let slots = self.as_node().0.mSlots as *const structs::FragmentOrElement_nsDOMSlots;
unsafe { slots.as_ref() }
}
/// Returns a reference to the extended DOM slots for this Element.
#[inline]
fn extended_slots(&self) -> Option<&structs::FragmentOrElement_nsExtendedDOMSlots> {
self.dom_slots().and_then(|s| unsafe {
// For the bit usage, see nsContentSlots::GetExtendedSlots.
let e_slots = s._base.mExtendedSlots &
!structs::nsIContent_nsContentSlots_sNonOwningExtendedSlotsFlag;
(e_slots as *const structs::FragmentOrElement_nsExtendedDOMSlots).as_ref()
})
}
#[inline]
fn namespace_id(&self) -> i32 {
self.as_node().node_info().mInner.mNamespaceID
}
#[inline]
fn has_id(&self) -> bool {
self.as_node()
.get_bool_flag(nsINode_BooleanFlag::ElementHasID)
}
#[inline]
fn state_internal(&self) -> u64 {
if !self
.as_node()
.get_bool_flag(nsINode_BooleanFlag::ElementHasLockedStyleStates)
{
return self.0.mState.bits;
}
unsafe { Gecko_ElementState(self.0) }
}
#[inline]
fn document_state(&self) -> DocumentState {
DocumentState::from_bits_retain(self.as_node().owner_doc().0.mState.bits)
}
#[inline]
fn may_have_class(&self) -> bool {
self.as_node()
.get_bool_flag(nsINode_BooleanFlag::ElementMayHaveClass)
}
#[inline]
fn has_properties(&self) -> bool {
use crate::gecko_bindings::structs::NODE_HAS_PROPERTIES;
self.flags() & NODE_HAS_PROPERTIES != 0
}
#[inline]
fn before_or_after_pseudo(&self, is_before: bool) -> Option<Self> {
if !self.has_properties() {
return None;
}
unsafe {
bindings::Gecko_GetBeforeOrAfterPseudo(self.0, is_before)
.as_ref()
.map(GeckoElement)
}
}
#[inline]
fn may_have_style_attribute(&self) -> bool {
self.as_node()
.get_bool_flag(nsINode_BooleanFlag::ElementMayHaveStyle)
}
/// Only safe to call on the main thread, with exclusive access to the
/// element and its ancestors.
///
/// This function is also called after display property changed for SMIL
/// animation.
///
/// Also this function schedules style flush.
pub unsafe fn note_explicit_hints(&self, restyle_hint: RestyleHint, change_hint: nsChangeHint) {
use crate::gecko::restyle_damage::GeckoRestyleDamage;
let damage = GeckoRestyleDamage::new(change_hint);
debug!(
"note_explicit_hints: {:?}, restyle_hint={:?}, change_hint={:?}",
self, restyle_hint, change_hint
);
debug_assert!(
!(restyle_hint.has_animation_hint() && restyle_hint.has_non_animation_hint()),
"Animation restyle hints should not appear with non-animation restyle hints"
);
let mut data = match self.mutate_data() {
Some(d) => d,
None => {
debug!("(Element not styled, discarding hints)");
return;
},
};
debug_assert!(data.has_styles(), "how?");
// Propagate the bit up the chain.
if restyle_hint.has_animation_hint() {
bindings::Gecko_NoteAnimationOnlyDirtyElement(self.0);
} else {
bindings::Gecko_NoteDirtyElement(self.0);
}
data.hint.insert(restyle_hint);
data.damage |= damage;
}
/// This logic is duplicated in Gecko's nsIContent::IsRootOfNativeAnonymousSubtree.
#[inline]
fn is_root_of_native_anonymous_subtree(&self) -> bool {
use crate::gecko_bindings::structs::NODE_IS_NATIVE_ANONYMOUS_ROOT;
return self.flags() & NODE_IS_NATIVE_ANONYMOUS_ROOT != 0;
}
fn css_transitions_info(&self) -> FxHashMap<OwnedPropertyDeclarationId, Arc<AnimationValue>> {
use crate::gecko_bindings::bindings::Gecko_ElementTransitions_EndValueAt;
use crate::gecko_bindings::bindings::Gecko_ElementTransitions_Length;
let collection_length = unsafe { Gecko_ElementTransitions_Length(self.0) } as usize;
let mut map = FxHashMap::with_capacity_and_hasher(collection_length, Default::default());
for i in 0..collection_length {
let end_value =
unsafe { Arc::from_raw_addrefed(Gecko_ElementTransitions_EndValueAt(self.0, i)) };
let property = end_value.id();
debug_assert!(!property.is_logical());
map.insert(property.to_owned(), end_value);
}
map
}
fn needs_transitions_update_per_property(
&self,
property_declaration_id: PropertyDeclarationId,
combined_duration_seconds: f32,
before_change_style: &ComputedValues,
after_change_style: &ComputedValues,
existing_transitions: &FxHashMap<OwnedPropertyDeclarationId, Arc<AnimationValue>>,
) -> bool {
debug_assert!(!property_declaration_id.is_logical());
// If there is an existing transition, update only if the end value
// differs.
//
// If the end value has not changed, we should leave the currently
// running transition as-is since we don't want to interrupt its timing
// function.
if let Some(ref existing) = existing_transitions.get(&property_declaration_id.to_owned()) {
let after_value =
AnimationValue::from_computed_values(property_declaration_id, after_change_style)
.unwrap();
return ***existing != after_value;
}
if combined_duration_seconds <= 0.0f32 {
return false;
}
let from =
AnimationValue::from_computed_values(property_declaration_id, before_change_style);
let to = AnimationValue::from_computed_values(property_declaration_id, after_change_style);
// If the declaration contains a custom property and getComputedValue was previously called
// before that custom property was defined, `from` will be `None` here.
debug_assert!(
to.is_some() == from.is_some() || matches!(to, Some(AnimationValue::Custom(..)))
);
from != to
}
/// Get slow selector flags required for nth-of invalidation.
pub fn slow_selector_flags(&self) -> ElementSelectorFlags {
slow_selector_flags_from_node_selector_flags(self.as_node().selector_flags())
}
}
/// Convert slow selector flags from the raw `NodeSelectorFlags`.
pub fn slow_selector_flags_from_node_selector_flags(flags: u32) -> ElementSelectorFlags {
use crate::gecko_bindings::structs::NodeSelectorFlags;
let mut result = ElementSelectorFlags::empty();
if flags & NodeSelectorFlags::HasSlowSelector.0 != 0 {
result.insert(ElementSelectorFlags::HAS_SLOW_SELECTOR);
}
if flags & NodeSelectorFlags::HasSlowSelectorLaterSiblings.0 != 0 {
result.insert(ElementSelectorFlags::HAS_SLOW_SELECTOR_LATER_SIBLINGS);
}
result
}
/// Converts flags from the layout used by rust-selectors to the layout used
/// by Gecko. We could align these and then do this without conditionals, but
/// it's probably not worth the trouble.
fn selector_flags_to_node_flags(flags: ElementSelectorFlags) -> u32 {
use crate::gecko_bindings::structs::NodeSelectorFlags;
let mut gecko_flags = 0u32;
if flags.contains(ElementSelectorFlags::HAS_SLOW_SELECTOR) {
gecko_flags |= NodeSelectorFlags::HasSlowSelector.0;
}
if flags.contains(ElementSelectorFlags::HAS_SLOW_SELECTOR_LATER_SIBLINGS) {
gecko_flags |= NodeSelectorFlags::HasSlowSelectorLaterSiblings.0;
}
if flags.contains(ElementSelectorFlags::HAS_SLOW_SELECTOR_NTH) {
gecko_flags |= NodeSelectorFlags::HasSlowSelectorNth.0;
}
if flags.contains(ElementSelectorFlags::HAS_SLOW_SELECTOR_NTH_OF) {
gecko_flags |= NodeSelectorFlags::HasSlowSelectorNthOf.0;
}
if flags.contains(ElementSelectorFlags::HAS_EDGE_CHILD_SELECTOR) {
gecko_flags |= NodeSelectorFlags::HasEdgeChildSelector.0;
}
if flags.contains(ElementSelectorFlags::HAS_EMPTY_SELECTOR) {
gecko_flags |= NodeSelectorFlags::HasEmptySelector.0;
}
if flags.contains(ElementSelectorFlags::ANCHORS_RELATIVE_SELECTOR) {
gecko_flags |= NodeSelectorFlags::RelativeSelectorAnchor.0;
}
if flags.contains(ElementSelectorFlags::ANCHORS_RELATIVE_SELECTOR_NON_SUBJECT) {
gecko_flags |= NodeSelectorFlags::RelativeSelectorAnchorNonSubject.0;
}
if flags.contains(ElementSelectorFlags::RELATIVE_SELECTOR_SEARCH_DIRECTION_ANCESTOR) {
gecko_flags |= NodeSelectorFlags::RelativeSelectorSearchDirectionAncestor.0;
}
if flags.contains(ElementSelectorFlags::RELATIVE_SELECTOR_SEARCH_DIRECTION_SIBLING) {
gecko_flags |= NodeSelectorFlags::RelativeSelectorSearchDirectionSibling.0;
}
gecko_flags
}
fn get_animation_rule(
element: &GeckoElement,
cascade_level: CascadeLevel,
) -> Option<Arc<Locked<PropertyDeclarationBlock>>> {
// There's a very rough correlation between the number of effects
// (animations) on an element and the number of properties it is likely to
// animate, so we use that as an initial guess for the size of the
// AnimationValueMap in order to reduce the number of re-allocations needed.
let effect_count = unsafe { Gecko_GetAnimationEffectCount(element.0) };
// Also, we should try to reuse the PDB, to avoid creating extra rule nodes.
let mut animation_values = AnimationValueMap::with_capacity_and_hasher(
effect_count.min(crate::properties::property_counts::ANIMATABLE),
Default::default(),
);
if unsafe { Gecko_GetAnimationRule(element.0, cascade_level, &mut animation_values) } {
let shared_lock = &GLOBAL_STYLE_DATA.shared_lock;
Some(Arc::new(shared_lock.wrap(
PropertyDeclarationBlock::from_animation_value_map(&animation_values),
)))
} else {
None
}
}
/// Turns a gecko namespace id into an atom. Might panic if you pass any random thing that isn't a
/// namespace id.
#[inline(always)]
pub unsafe fn namespace_id_to_atom(id: i32) -> *mut nsAtom {
unsafe {
let namespace_manager = structs::nsNameSpaceManager_sInstance.mRawPtr;
(*namespace_manager).mURIArray[id as usize].mRawPtr
}
}
impl<'le> TElement for GeckoElement<'le> {
type ConcreteNode = GeckoNode<'le>;
type TraversalChildrenIterator = GeckoChildrenIterator<'le>;
fn inheritance_parent(&self) -> Option<Self> {
if self.is_pseudo_element() {
return self.pseudo_element_originating_element();
}
self.as_node()
.flattened_tree_parent()
.and_then(|n| n.as_element())
}
fn traversal_children(&self) -> LayoutIterator<GeckoChildrenIterator<'le>> {
// This condition is similar to the check that
// StyleChildrenIterator::IsNeeded does, except that it might return
// true if we used to (but no longer) have anonymous content from
// ::before/::after, or nsIAnonymousContentCreators.
if self.is_html_slot_element() ||
self.shadow_root().is_some() ||
self.may_have_anonymous_children()
{
unsafe {
let mut iter: structs::StyleChildrenIterator = ::std::mem::zeroed();
bindings::Gecko_ConstructStyleChildrenIterator(self.0, &mut iter);
return LayoutIterator(GeckoChildrenIterator::GeckoIterator(iter));
}
}
LayoutIterator(GeckoChildrenIterator::Current(self.as_node().first_child()))
}
fn before_pseudo_element(&self) -> Option<Self> {
self.before_or_after_pseudo(/* is_before = */ true)
}
fn after_pseudo_element(&self) -> Option<Self> {
self.before_or_after_pseudo(/* is_before = */ false)
}
fn marker_pseudo_element(&self) -> Option<Self> {
if !self.has_properties() {
return None;
}
unsafe {
bindings::Gecko_GetMarkerPseudo(self.0)
.as_ref()
.map(GeckoElement)
}
}
#[inline]
fn is_html_element(&self) -> bool {
self.namespace_id() == structs::kNameSpaceID_XHTML as i32
}
#[inline]
fn is_mathml_element(&self) -> bool {
self.namespace_id() == structs::kNameSpaceID_MathML as i32
}
#[inline]
fn is_svg_element(&self) -> bool {
self.namespace_id() == structs::kNameSpaceID_SVG as i32
}
#[inline]
fn is_xul_element(&self) -> bool {
self.namespace_id() == structs::root::kNameSpaceID_XUL as i32
}
#[inline]
fn local_name(&self) -> &WeakAtom {
unsafe { WeakAtom::new(self.as_node().node_info().mInner.mName) }
}
#[inline]
fn namespace(&self) -> &WeakNamespace {
unsafe { WeakNamespace::new(namespace_id_to_atom(self.namespace_id())) }
}
#[inline]
fn query_container_size(&self, display: &Display) -> Size2D<Option<Au>> {
// If an element gets 'display: contents' and its nsIFrame has not been removed yet,
// Gecko_GetQueryContainerSize will not notice that it can't have size containment.
// Other cases like 'display: inline' will be handled once the new nsIFrame is created.
if display.is_contents() {
return Size2D::new(None, None);
}
let mut width = -1;
let mut height = -1;
unsafe {
bindings::Gecko_GetQueryContainerSize(self.0, &mut width, &mut height);
}
Size2D::new(
if width >= 0 { Some(Au(width)) } else { None },
if height >= 0 { Some(Au(height)) } else { None },
)
}
/// Return the list of slotted nodes of this node.
#[inline]
fn slotted_nodes(&self) -> &[Self::ConcreteNode] {
if !self.is_html_slot_element() || !self.as_node().is_in_shadow_tree() {
return &[];
}
let slot: &structs::HTMLSlotElement = unsafe { mem::transmute(self.0) };
if cfg!(debug_assertions) {
let base: &RawGeckoElement = &slot._base._base._base;
assert_eq!(base as *const _, self.0 as *const _, "Bad cast");
}
// FIXME(emilio): Workaround a bindgen bug on Android that causes
//
//
// The actual bindgen bug still needs reduction.
let assigned_nodes: &[structs::RefPtr<structs::nsINode>] = if !cfg!(target_os = "android") {
debug_assert_eq!(
unsafe { bindings::Gecko_GetAssignedNodes(self.0) },
&slot.mAssignedNodes as *const _,
);
&*slot.mAssignedNodes
} else {
unsafe { &**bindings::Gecko_GetAssignedNodes(self.0) }
};
debug_assert_eq!(
mem::size_of::<structs::RefPtr<structs::nsINode>>(),
mem::size_of::<Self::ConcreteNode>(),
"Bad cast!"
);
unsafe { mem::transmute(assigned_nodes) }
}
#[inline]
fn shadow_root(&self) -> Option<GeckoShadowRoot<'le>> {
let slots = self.extended_slots()?;
unsafe { slots.mShadowRoot.mRawPtr.as_ref().map(GeckoShadowRoot) }
}
#[inline]
fn containing_shadow(&self) -> Option<GeckoShadowRoot<'le>> {
let slots = self.extended_slots()?;
unsafe {
slots
._base
.mContainingShadow
.mRawPtr
.as_ref()
.map(GeckoShadowRoot)
}
}
fn each_anonymous_content_child<F>(&self, mut f: F)
where
F: FnMut(Self),
{
if !self.may_have_anonymous_children() {
return;
}
let array: *mut structs::nsTArray<*mut nsIContent> =
unsafe { bindings::Gecko_GetAnonymousContentForElement(self.0) };
if array.is_null() {
return;
}
for content in unsafe { &**array } {
let node = GeckoNode::from_content(unsafe { &**content });
let element = match node.as_element() {
Some(e) => e,
None => continue,
};
f(element);
}
unsafe { bindings::Gecko_DestroyAnonymousContentList(array) };
}
#[inline]
fn as_node(&self) -> Self::ConcreteNode {
unsafe { GeckoNode(&*(self.0 as *const _ as *const RawGeckoNode)) }
}
fn owner_doc_matches_for_testing(&self, device: &Device) -> bool {
self.as_node().owner_doc().0 as *const structs::Document == device.document() as *const _
}
fn style_attribute(&self) -> Option<ArcBorrow<Locked<PropertyDeclarationBlock>>> {
if !self.may_have_style_attribute() {
return None;
}
unsafe {
let declarations = Gecko_GetStyleAttrDeclarationBlock(self.0).as_ref()?;
Some(ArcBorrow::from_ref(declarations))
}
}
fn unset_dirty_style_attribute(&self) {
if !self.may_have_style_attribute() {
return;
}
unsafe { Gecko_UnsetDirtyStyleAttr(self.0) };
}
fn smil_override(&self) -> Option<ArcBorrow<Locked<PropertyDeclarationBlock>>> {
unsafe {
let slots = self.extended_slots()?;
let declaration: &structs::DeclarationBlock =
slots.mSMILOverrideStyleDeclaration.mRawPtr.as_ref()?;
let raw: &structs::StyleLockedDeclarationBlock = declaration.mRaw.mRawPtr.as_ref()?;
Some(ArcBorrow::from_ref(raw))
}
}
fn animation_rule(
&self,
_: &SharedStyleContext,
) -> Option<Arc<Locked<PropertyDeclarationBlock>>> {
get_animation_rule(self, CascadeLevel::Animations)
}
fn transition_rule(
&self,
_: &SharedStyleContext,
) -> Option<Arc<Locked<PropertyDeclarationBlock>>> {
get_animation_rule(self, CascadeLevel::Transitions)
}
#[inline]
fn state(&self) -> ElementState {
ElementState::from_bits_retain(self.state_internal())
}
#[inline]
fn has_part_attr(&self) -> bool {
self.as_node()
.get_bool_flag(nsINode_BooleanFlag::ElementHasPart)
}
#[inline]
fn exports_any_part(&self) -> bool {
snapshot_helpers::find_attr(self.attrs(), &atom!("exportparts")).is_some()
}
// FIXME(emilio): we should probably just return a reference to the Atom.
#[inline]
fn id(&self) -> Option<&WeakAtom> {
if !self.has_id() {
return None;
}
snapshot_helpers::get_id(self.attrs())
}
fn each_attr_name<F>(&self, mut callback: F)
where
F: FnMut(&AtomIdent),
{
for attr in self.attrs() {
unsafe { AtomIdent::with(attr.mName.name(), |a| callback(a)) }
}
}
fn each_class<F>(&self, callback: F)
where
F: FnMut(&AtomIdent),
{
let attr = match self.get_class_attr() {
Some(c) => c,
None => return,
};
snapshot_helpers::each_class_or_part(attr, callback)
}
#[inline]
fn each_custom_state<F>(&self, mut callback: F)
where
F: FnMut(&AtomIdent),
{
if let Some(slots) = self.extended_slots() {
unsafe {
for atom in slots.mCustomStates.iter() {
AtomIdent::with(atom.mRawPtr, &mut callback)
}
}
}
}
#[inline]
fn each_exported_part<F>(&self, name: &AtomIdent, callback: F)
where
F: FnMut(&AtomIdent),
{
snapshot_helpers::each_exported_part(self.attrs(), name, callback)
}
fn each_part<F>(&self, callback: F)
where
F: FnMut(&AtomIdent),
{
let attr = match self.get_part_attr() {
Some(c) => c,
None => return,
};
snapshot_helpers::each_class_or_part(attr, callback)
}
#[inline]
fn has_snapshot(&self) -> bool {
self.flags() & ELEMENT_HAS_SNAPSHOT != 0
}
#[inline]
fn handled_snapshot(&self) -> bool {
self.flags() & ELEMENT_HANDLED_SNAPSHOT != 0
}
unsafe fn set_handled_snapshot(&self) {
debug_assert!(self.has_data());
self.set_flags(ELEMENT_HANDLED_SNAPSHOT)
}
#[inline]
fn has_dirty_descendants(&self) -> bool {
self.flags() & ELEMENT_HAS_DIRTY_DESCENDANTS_FOR_SERVO != 0
}
unsafe fn set_dirty_descendants(&self) {
debug_assert!(self.has_data());
debug!("Setting dirty descendants: {:?}", self);
self.set_flags(ELEMENT_HAS_DIRTY_DESCENDANTS_FOR_SERVO)
}
unsafe fn unset_dirty_descendants(&self) {
self.unset_flags(ELEMENT_HAS_DIRTY_DESCENDANTS_FOR_SERVO)
}
#[inline]
fn has_animation_only_dirty_descendants(&self) -> bool {
self.flags() & ELEMENT_HAS_ANIMATION_ONLY_DIRTY_DESCENDANTS_FOR_SERVO != 0
}
unsafe fn set_animation_only_dirty_descendants(&self) {
self.set_flags(ELEMENT_HAS_ANIMATION_ONLY_DIRTY_DESCENDANTS_FOR_SERVO)
}
unsafe fn unset_animation_only_dirty_descendants(&self) {
self.unset_flags(ELEMENT_HAS_ANIMATION_ONLY_DIRTY_DESCENDANTS_FOR_SERVO)
}
unsafe fn clear_descendant_bits(&self) {
self.unset_flags(
ELEMENT_HAS_DIRTY_DESCENDANTS_FOR_SERVO |
ELEMENT_HAS_ANIMATION_ONLY_DIRTY_DESCENDANTS_FOR_SERVO |
NODE_DESCENDANTS_NEED_FRAMES,
)
}
fn is_visited_link(&self) -> bool {
self.state().intersects(ElementState::VISITED)
}
/// We want to match rules from the same tree in all cases, except for native anonymous content
/// that _isn't_ part directly of a UA widget (e.g., such generated by form controls, or
/// pseudo-elements).
#[inline]
fn matches_user_and_content_rules(&self) -> bool {
use crate::gecko_bindings::structs::{
NODE_HAS_BEEN_IN_UA_WIDGET, NODE_IS_IN_NATIVE_ANONYMOUS_SUBTREE,
};
let flags = self.flags();
(flags & NODE_IS_IN_NATIVE_ANONYMOUS_SUBTREE) == 0 ||
(flags & NODE_HAS_BEEN_IN_UA_WIDGET) != 0
}
#[inline]
fn implemented_pseudo_element(&self) -> Option<PseudoElement> {
if self.matches_user_and_content_rules() {
return None;
}
if !self.has_properties() {
return None;
}
PseudoElement::from_pseudo_type(
unsafe { bindings::Gecko_GetImplementedPseudo(self.0) },
None,
)
}
#[inline]
fn store_children_to_process(&self, _: isize) {
// This is only used for bottom-up traversal, and is thus a no-op for Gecko.
}
fn did_process_child(&self) -> isize {
panic!("Atomic child count not implemented in Gecko");
}
unsafe fn ensure_data(&self) -> AtomicRefMut<ElementData> {
if !self.has_data() {
debug!("Creating ElementData for {:?}", self);
let ptr = Box::into_raw(Box::new(AtomicRefCell::new(ElementData::default())));
self.0.mServoData.set(ptr);
}
self.mutate_data().unwrap()
}
unsafe fn clear_data(&self) {
let ptr = self.0.mServoData.get();
self.unset_flags(
ELEMENT_HAS_SNAPSHOT |
ELEMENT_HANDLED_SNAPSHOT |
structs::Element_kAllServoDescendantBits |
NODE_NEEDS_FRAME,
);
if !ptr.is_null() {
debug!("Dropping ElementData for {:?}", self);
let data = Box::from_raw(self.0.mServoData.get());
self.0.mServoData.set(ptr::null_mut());
// Perform a mutable borrow of the data in debug builds. This
// serves as an assertion that there are no outstanding borrows
// when we destroy the data.
debug_assert!({
let _ = data.borrow_mut();
true
});
}
}
#[inline]
fn skip_item_display_fixup(&self) -> bool {
debug_assert!(
!self.is_pseudo_element(),
"Just don't call me if I'm a pseudo, you should know the answer already"
);
self.is_root_of_native_anonymous_subtree()
}
#[inline]
fn may_have_animations(&self) -> bool {
if let Some(pseudo) = self.implemented_pseudo_element() {
if pseudo.animations_stored_in_parent() {
// FIXME(emilio): When would the parent of a ::before / ::after
// pseudo-element be null?
return self.parent_element().map_or(false, |p| {
p.as_node()
.get_bool_flag(nsINode_BooleanFlag::ElementHasAnimations)
});
}
}
self.as_node()
.get_bool_flag(nsINode_BooleanFlag::ElementHasAnimations)
}
/// Process various tasks that are a result of animation-only restyle.
fn process_post_animation(&self, tasks: PostAnimationTasks) {
debug_assert!(!tasks.is_empty(), "Should be involved a task");
// If display style was changed from none to other, we need to resolve
// the descendants in the display:none subtree. Instead of resolving
// those styles in animation-only restyle, we defer it to a subsequent
// normal restyle.
if tasks.intersects(PostAnimationTasks::DISPLAY_CHANGED_FROM_NONE_FOR_SMIL) {
debug_assert!(
self.implemented_pseudo_element()
.map_or(true, |p| !p.is_before_or_after()),
"display property animation shouldn't run on pseudo elements \
since it's only for SMIL"
);
unsafe {
self.note_explicit_hints(
RestyleHint::restyle_subtree(),
nsChangeHint::nsChangeHint_Empty,
);
}
}
}
/// Update various animation-related state on a given (pseudo-)element as
/// results of normal restyle.
fn update_animations(
&self,
before_change_style: Option<Arc<ComputedValues>>,
tasks: UpdateAnimationsTasks,
) {
// We have to update animations even if the element has no computed
// style since it means the element is in a display:none subtree, we
// should destroy all CSS animations in display:none subtree.
let computed_data = self.borrow_data();
let computed_values = computed_data.as_ref().map(|d| d.styles.primary());
let before_change_values = before_change_style
.as_ref()
.map_or(ptr::null(), |x| x.as_gecko_computed_style());
let computed_values_opt = computed_values
.as_ref()
.map_or(ptr::null(), |x| x.as_gecko_computed_style());
unsafe {
Gecko_UpdateAnimations(
self.0,
before_change_values,
computed_values_opt,
tasks.bits(),
);
}
}
#[inline]
fn has_animations(&self, _: &SharedStyleContext) -> bool {
self.has_any_animation()
}
fn has_css_animations(&self, _: &SharedStyleContext, _: Option<PseudoElement>) -> bool {
self.may_have_animations() && unsafe { Gecko_ElementHasCSSAnimations(self.0) }
}
fn has_css_transitions(&self, _: &SharedStyleContext, _: Option<PseudoElement>) -> bool {
self.may_have_animations() && unsafe { Gecko_ElementHasCSSTransitions(self.0) }
}
// Detect if there are any changes that require us to update transitions.
//
// This is used as a more thoroughgoing check than the cheaper
// might_need_transitions_update check.
//
// The following logic shadows the logic used on the Gecko side
// (nsTransitionManager::DoUpdateTransitions) where we actually perform the
// update.
//
fn needs_transitions_update(
&self,
before_change_style: &ComputedValues,
after_change_style: &ComputedValues,
) -> bool {
let after_change_ui_style = after_change_style.get_ui();
let existing_transitions = self.css_transitions_info();
if after_change_style.get_box().clone_display().is_none() {
// We need to cancel existing transitions.
return !existing_transitions.is_empty();
}
let mut transitions_to_keep = PropertyDeclarationIdSet::default();
for transition_property in after_change_style.transition_properties() {
let physical_property = transition_property
.property
.as_borrowed()
.to_physical(after_change_style.writing_mode);
transitions_to_keep.insert(physical_property);
if self.needs_transitions_update_per_property(
physical_property,
after_change_ui_style
.transition_combined_duration_at(transition_property.index)
.seconds(),
before_change_style,
after_change_style,
&existing_transitions,
) {
return true;
}
}
// Check if we have to cancel the running transition because this is not
// a matching transition-property value.
existing_transitions
.keys()
.any(|property| !transitions_to_keep.contains(property.as_borrowed()))
}
/// Whether there is an ElementData container.
#[inline]
fn has_data(&self) -> bool {
self.get_data().is_some()
}
/// Immutably borrows the ElementData.
fn borrow_data(&self) -> Option<AtomicRef<ElementData>> {
self.get_data().map(|x| x.borrow())
}
/// Mutably borrows the ElementData.
fn mutate_data(&self) -> Option<AtomicRefMut<ElementData>> {
self.get_data().map(|x| x.borrow_mut())
}
#[inline]
fn lang_attr(&self) -> Option<AttrValue> {
let ptr = unsafe { bindings::Gecko_LangValue(self.0) };
if ptr.is_null() {
None
} else {
Some(AtomString(unsafe { Atom::from_addrefed(ptr) }))
}
}
fn match_element_lang(&self, override_lang: Option<Option<AttrValue>>, value: &Lang) -> bool {
// Gecko supports :lang() from CSS Selectors 4, which accepts a list
// of language tags, and does BCP47-style range matching.
let override_lang_ptr = match override_lang {
Some(Some(ref atom)) => atom.as_ptr(),
_ => ptr::null_mut(),
};
value.0.iter().any(|lang| unsafe {
Gecko_MatchLang(
self.0,
override_lang_ptr,
override_lang.is_some(),
lang.as_slice().as_ptr(),
)
})
}
fn is_html_document_body_element(&self) -> bool {
if self.local_name() != &**local_name!("body") {
return false;
}
if !self.is_html_element() {
return false;
}
unsafe { bindings::Gecko_IsDocumentBody(self.0) }
}
fn synthesize_presentational_hints_for_legacy_attributes<V>(
&self,
visited_handling: VisitedHandlingMode,
hints: &mut V,
) where
V: Push<ApplicableDeclarationBlock>,
{
use crate::properties::longhands::_x_lang::SpecifiedValue as SpecifiedLang;
use crate::properties::longhands::color::SpecifiedValue as SpecifiedColor;
use crate::stylesheets::layer_rule::LayerOrder;
use crate::values::specified::{color::Color, font::XTextScale};
lazy_static! {
static ref TABLE_COLOR_RULE: ApplicableDeclarationBlock = {
let global_style_data = &*GLOBAL_STYLE_DATA;
let pdb = PropertyDeclarationBlock::with_one(
PropertyDeclaration::Color(SpecifiedColor(Color::InheritFromBodyQuirk.into())),
Importance::Normal,
);
let arc = Arc::new_leaked(global_style_data.shared_lock.wrap(pdb));
ApplicableDeclarationBlock::from_declarations(
arc,
ServoCascadeLevel::PresHints,
LayerOrder::root(),
)
};
static ref MATHML_LANG_RULE: ApplicableDeclarationBlock = {
let global_style_data = &*GLOBAL_STYLE_DATA;
let pdb = PropertyDeclarationBlock::with_one(
PropertyDeclaration::XLang(SpecifiedLang(atom!("x-math"))),
Importance::Normal,
);
let arc = Arc::new_leaked(global_style_data.shared_lock.wrap(pdb));
ApplicableDeclarationBlock::from_declarations(
arc,
ServoCascadeLevel::PresHints,
LayerOrder::root(),
)
};
static ref SVG_TEXT_DISABLE_SCALE_RULE: ApplicableDeclarationBlock = {
let global_style_data = &*GLOBAL_STYLE_DATA;
let pdb = PropertyDeclarationBlock::with_one(
PropertyDeclaration::XTextScale(XTextScale::None),
Importance::Normal,
);
let arc = Arc::new_leaked(global_style_data.shared_lock.wrap(pdb));
ApplicableDeclarationBlock::from_declarations(
arc,
ServoCascadeLevel::PresHints,
LayerOrder::root(),
)
};
};
let ns = self.namespace_id();
// <th> elements get a default MozCenterOrInherit which may get overridden
if ns == structs::kNameSpaceID_XHTML as i32 {
if self.local_name().as_ptr() == atom!("table").as_ptr() &&
self.as_node().owner_doc().quirks_mode() == QuirksMode::Quirks
{
hints.push(TABLE_COLOR_RULE.clone());
}
}
if ns == structs::kNameSpaceID_SVG as i32 {
if self.local_name().as_ptr() == atom!("text").as_ptr() {
hints.push(SVG_TEXT_DISABLE_SCALE_RULE.clone());
}
}
let declarations =
unsafe { Gecko_GetHTMLPresentationAttrDeclarationBlock(self.0).as_ref() };
if let Some(decl) = declarations {
hints.push(ApplicableDeclarationBlock::from_declarations(
unsafe { Arc::from_raw_addrefed(decl) },
ServoCascadeLevel::PresHints,
LayerOrder::root(),
));
}
let declarations = unsafe { Gecko_GetExtraContentStyleDeclarations(self.0).as_ref() };
if let Some(decl) = declarations {
hints.push(ApplicableDeclarationBlock::from_declarations(
unsafe { Arc::from_raw_addrefed(decl) },
ServoCascadeLevel::PresHints,
LayerOrder::root(),
));
}
// Support for link, vlink, and alink presentation hints on <body>
if self.is_link() {
// Unvisited vs. visited styles are computed up-front based on the
// visited mode (not the element's actual state).
let declarations = match visited_handling {
VisitedHandlingMode::AllLinksVisitedAndUnvisited => {
unreachable!(
"We should never try to selector match with \
AllLinksVisitedAndUnvisited"
);
},
VisitedHandlingMode::AllLinksUnvisited => unsafe {
Gecko_GetUnvisitedLinkAttrDeclarationBlock(self.0).as_ref()
},
VisitedHandlingMode::RelevantLinkVisited => unsafe {
Gecko_GetVisitedLinkAttrDeclarationBlock(self.0).as_ref()
},
};
if let Some(decl) = declarations {
hints.push(ApplicableDeclarationBlock::from_declarations(
unsafe { Arc::from_raw_addrefed(decl) },
ServoCascadeLevel::PresHints,
LayerOrder::root(),
));
}
let active = self
.state()
.intersects(NonTSPseudoClass::Active.state_flag());
if active {
let declarations =
unsafe { Gecko_GetActiveLinkAttrDeclarationBlock(self.0).as_ref() };
if let Some(decl) = declarations {
hints.push(ApplicableDeclarationBlock::from_declarations(
unsafe { Arc::from_raw_addrefed(decl) },
ServoCascadeLevel::PresHints,
LayerOrder::root(),
));
}
}
}
// xml:lang has precedence over lang, which can be
// set by Gecko_GetHTMLPresentationAttrDeclarationBlock
//
let ptr = unsafe { bindings::Gecko_GetXMLLangValue(self.0) };
if !ptr.is_null() {
let global_style_data = &*GLOBAL_STYLE_DATA;
let pdb = PropertyDeclarationBlock::with_one(
PropertyDeclaration::XLang(SpecifiedLang(unsafe { Atom::from_addrefed(ptr) })),
Importance::Normal,
);
let arc = Arc::new(global_style_data.shared_lock.wrap(pdb));
hints.push(ApplicableDeclarationBlock::from_declarations(
arc,
ServoCascadeLevel::PresHints,
LayerOrder::root(),
))
}
// MathML's default lang has precedence over both `lang` and `xml:lang`
if ns == structs::kNameSpaceID_MathML as i32 {
if self.local_name().as_ptr() == atom!("math").as_ptr() {
hints.push(MATHML_LANG_RULE.clone());
}
}
}
fn has_selector_flags(&self, flags: ElementSelectorFlags) -> bool {
let node_flags = selector_flags_to_node_flags(flags);
self.as_node().selector_flags() & node_flags == node_flags
}
fn relative_selector_search_direction(&self) -> ElementSelectorFlags {
use crate::gecko_bindings::structs::NodeSelectorFlags;
let flags = self.as_node().selector_flags();
if (flags & NodeSelectorFlags::RelativeSelectorSearchDirectionAncestorSibling.0) != 0 {
ElementSelectorFlags::RELATIVE_SELECTOR_SEARCH_DIRECTION_ANCESTOR_SIBLING
} else if (flags & NodeSelectorFlags::RelativeSelectorSearchDirectionAncestor.0) != 0 {
ElementSelectorFlags::RELATIVE_SELECTOR_SEARCH_DIRECTION_ANCESTOR
} else if (flags & NodeSelectorFlags::RelativeSelectorSearchDirectionSibling.0) != 0 {
ElementSelectorFlags::RELATIVE_SELECTOR_SEARCH_DIRECTION_SIBLING
} else {
ElementSelectorFlags::empty()
}
}
}
impl<'le> PartialEq for GeckoElement<'le> {
#[inline]
fn eq(&self, other: &Self) -> bool {
self.0 as *const _ == other.0 as *const _
}
}
impl<'le> Eq for GeckoElement<'le> {}
impl<'le> Hash for GeckoElement<'le> {
#[inline]
fn hash<H: Hasher>(&self, state: &mut H) {
(self.0 as *const RawGeckoElement).hash(state);
}
}
impl<'le> ::selectors::Element for GeckoElement<'le> {
type Impl = SelectorImpl;
#[inline]
fn opaque(&self) -> OpaqueElement {
OpaqueElement::new(self.0)
}
#[inline]
fn parent_element(&self) -> Option<Self> {
let parent_node = self.as_node().parent_node();
parent_node.and_then(|n| n.as_element())
}
#[inline]
fn parent_node_is_shadow_root(&self) -> bool {
self.as_node()
.parent_node()
.map_or(false, |p| p.is_shadow_root())
}
#[inline]
fn containing_shadow_host(&self) -> Option<Self> {
let shadow = self.containing_shadow()?;
Some(shadow.host())
}
#[inline]
fn is_pseudo_element(&self) -> bool {
self.implemented_pseudo_element().is_some()
}
#[inline]
fn pseudo_element_originating_element(&self) -> Option<Self> {
debug_assert!(self.is_pseudo_element());
debug_assert!(!self.matches_user_and_content_rules());
let mut current = *self;
loop {
if current.is_root_of_native_anonymous_subtree() {
return current.traversal_parent();
}
current = current.traversal_parent()?;
}
}
#[inline]
fn assigned_slot(&self) -> Option<Self> {
let slot = self.extended_slots()?._base.mAssignedSlot.mRawPtr;
unsafe { Some(GeckoElement(&slot.as_ref()?._base._base._base)) }
}
#[inline]
fn prev_sibling_element(&self) -> Option<Self> {
let mut sibling = self.as_node().prev_sibling();
while let Some(sibling_node) = sibling {
if let Some(el) = sibling_node.as_element() {
return Some(el);
}
sibling = sibling_node.prev_sibling();
}
None
}
#[inline]
fn next_sibling_element(&self) -> Option<Self> {
let mut sibling = self.as_node().next_sibling();
while let Some(sibling_node) = sibling {
if let Some(el) = sibling_node.as_element() {
return Some(el);
}
sibling = sibling_node.next_sibling();
}
None
}
#[inline]
fn first_element_child(&self) -> Option<Self> {
let mut child = self.as_node().first_child();
while let Some(child_node) = child {
if let Some(el) = child_node.as_element() {
return Some(el);
}
child = child_node.next_sibling();
}
None
}
fn apply_selector_flags(&self, flags: ElementSelectorFlags) {
// Handle flags that apply to the element.
let self_flags = flags.for_self();
if !self_flags.is_empty() {
self.as_node()
.set_selector_flags(selector_flags_to_node_flags(flags))
}
// Handle flags that apply to the parent.
let parent_flags = flags.for_parent();
if !parent_flags.is_empty() {
if let Some(p) = self.as_node().parent_node() {
if p.is_element() || p.is_shadow_root() {
p.set_selector_flags(selector_flags_to_node_flags(parent_flags));
}
}
}
}
fn has_attr_in_no_namespace(&self, local_name: &LocalName) -> bool {
for attr in self.attrs() {
if attr.mName.mBits == local_name.as_ptr() as usize {
return true;
}
}
false
}
fn attr_matches(
&self,
ns: &NamespaceConstraint<&Namespace>,
local_name: &LocalName,
operation: &AttrSelectorOperation<&AttrValue>,
) -> bool {
snapshot_helpers::attr_matches(self.attrs(), ns, local_name, operation)
}
#[inline]
fn is_root(&self) -> bool {
if self
.as_node()
.get_bool_flag(nsINode_BooleanFlag::ParentIsContent)
{
return false;
}
if !self.as_node().is_in_document() {
return false;
}
debug_assert!(self
.as_node()
.parent_node()
.map_or(false, |p| p.is_document()));
// XXX this should always return true at this point, shouldn't it?
unsafe { bindings::Gecko_IsRootElement(self.0) }
}
fn is_empty(&self) -> bool {
!self
.as_node()
.dom_children()
.any(|child| unsafe { Gecko_IsSignificantChild(child.0, true) })
}
#[inline]
fn has_local_name(&self, name: &WeakAtom) -> bool {
self.local_name() == name
}
#[inline]
fn has_namespace(&self, ns: &WeakNamespace) -> bool {
self.namespace() == ns
}
#[inline]
fn is_same_type(&self, other: &Self) -> bool {
self.local_name() == other.local_name() && self.namespace() == other.namespace()
}
fn match_non_ts_pseudo_class(
&self,
pseudo_class: &NonTSPseudoClass,
context: &mut MatchingContext<Self::Impl>,
) -> bool {
use selectors::matching::*;
match *pseudo_class {
NonTSPseudoClass::Autofill |
NonTSPseudoClass::Defined |
NonTSPseudoClass::Focus |
NonTSPseudoClass::Enabled |
NonTSPseudoClass::Disabled |
NonTSPseudoClass::Checked |
NonTSPseudoClass::Fullscreen |
NonTSPseudoClass::Indeterminate |
NonTSPseudoClass::MozInert |
NonTSPseudoClass::PopoverOpen |
NonTSPseudoClass::PlaceholderShown |
NonTSPseudoClass::Target |
NonTSPseudoClass::Valid |
NonTSPseudoClass::Invalid |
NonTSPseudoClass::MozBroken |
NonTSPseudoClass::Required |
NonTSPseudoClass::Optional |
NonTSPseudoClass::ReadOnly |
NonTSPseudoClass::ReadWrite |
NonTSPseudoClass::FocusWithin |
NonTSPseudoClass::FocusVisible |
NonTSPseudoClass::MozDragOver |
NonTSPseudoClass::MozDevtoolsHighlighted |
NonTSPseudoClass::MozStyleeditorTransitioning |
NonTSPseudoClass::MozMathIncrementScriptLevel |
NonTSPseudoClass::InRange |
NonTSPseudoClass::OutOfRange |
NonTSPseudoClass::Default |
NonTSPseudoClass::UserValid |
NonTSPseudoClass::UserInvalid |
NonTSPseudoClass::MozMeterOptimum |
NonTSPseudoClass::MozMeterSubOptimum |
NonTSPseudoClass::MozMeterSubSubOptimum |
NonTSPseudoClass::MozHasDirAttr |
NonTSPseudoClass::MozDirAttrLTR |
NonTSPseudoClass::MozDirAttrRTL |
NonTSPseudoClass::MozDirAttrLikeAuto |
NonTSPseudoClass::Modal |
NonTSPseudoClass::MozTopmostModal |
NonTSPseudoClass::Active |
NonTSPseudoClass::Hover |
NonTSPseudoClass::MozAutofillPreview |
NonTSPseudoClass::MozRevealed |
NonTSPseudoClass::MozValueEmpty => self.state().intersects(pseudo_class.state_flag()),
NonTSPseudoClass::Dir(ref dir) => {
self.state().intersects(dir.element_state())
},
NonTSPseudoClass::AnyLink => self.is_link(),
NonTSPseudoClass::Link => {
self.is_link() && context.visited_handling().matches_unvisited()
},
NonTSPseudoClass::CustomState(ref state) => self.has_custom_state(&state.0),
NonTSPseudoClass::Visited => {
self.is_link() && context.visited_handling().matches_visited()
},
NonTSPseudoClass::MozFirstNode => {
if context.needs_selector_flags() {
self.apply_selector_flags(ElementSelectorFlags::HAS_EDGE_CHILD_SELECTOR);
}
let mut elem = self.as_node();
while let Some(prev) = elem.prev_sibling() {
if prev.contains_non_whitespace_content() {
return false;
}
elem = prev;
}
true
},
NonTSPseudoClass::MozLastNode => {
if context.needs_selector_flags() {
self.apply_selector_flags(ElementSelectorFlags::HAS_EDGE_CHILD_SELECTOR);
}
let mut elem = self.as_node();
while let Some(next) = elem.next_sibling() {
if next.contains_non_whitespace_content() {
return false;
}
elem = next;
}
true
},
NonTSPseudoClass::MozOnlyWhitespace => {
if context.needs_selector_flags() {
self.apply_selector_flags(ElementSelectorFlags::HAS_EMPTY_SELECTOR);
}
if self
.as_node()
.dom_children()
.any(|c| c.contains_non_whitespace_content())
{
return false;
}
true
},
NonTSPseudoClass::MozNativeAnonymous => !self.matches_user_and_content_rules(),
NonTSPseudoClass::MozTableBorderNonzero => unsafe {
bindings::Gecko_IsTableBorderNonzero(self.0)
},
NonTSPseudoClass::MozSelectListBox => unsafe {
bindings::Gecko_IsSelectListBox(self.0)
},
NonTSPseudoClass::MozIsHTML => self.as_node().owner_doc().is_html_document(),
NonTSPseudoClass::MozLocaleDir(..) |
NonTSPseudoClass::MozWindowInactive => {
let state_bit = pseudo_class.document_state_flag();
if state_bit.is_empty() {
debug_assert!(
matches!(pseudo_class, NonTSPseudoClass::MozLocaleDir(..)),
"Only moz-locale-dir should ever return an empty state"
);
return false;
}
if context
.extra_data
.invalidation_data
.document_state
.intersects(state_bit)
{
return !context.in_negation();
}
self.document_state().contains(state_bit)
},
NonTSPseudoClass::MozPlaceholder => false,
NonTSPseudoClass::Lang(ref lang_arg) => self.match_element_lang(None, lang_arg),
}
}
fn match_pseudo_element(
&self,
pseudo_element: &PseudoElement,
_context: &mut MatchingContext<Self::Impl>,
) -> bool {
// TODO(emilio): I believe we could assert we are a pseudo-element and
// match the proper pseudo-element, given how we rulehash the stuff
// based on the pseudo.
match self.implemented_pseudo_element() {
Some(ref pseudo) => *pseudo == *pseudo_element,
None => false,
}
}
#[inline]
fn is_link(&self) -> bool {
self.state().intersects(ElementState::VISITED_OR_UNVISITED)
}
#[inline]
fn has_id(&self, id: &AtomIdent, case_sensitivity: CaseSensitivity) -> bool {
if !self.has_id() {
return false;
}
let element_id = match snapshot_helpers::get_id(self.attrs()) {
Some(id) => id,
None => return false,
};
case_sensitivity.eq_atom(element_id, id)
}
#[inline]
fn is_part(&self, name: &AtomIdent) -> bool {
let attr = match self.get_part_attr() {
Some(c) => c,
None => return false,
};
snapshot_helpers::has_class_or_part(name, CaseSensitivity::CaseSensitive, attr)
}
#[inline]
fn imported_part(&self, name: &AtomIdent) -> Option<AtomIdent> {
snapshot_helpers::imported_part(self.attrs(), name)
}
#[inline(always)]
fn has_class(&self, name: &AtomIdent, case_sensitivity: CaseSensitivity) -> bool {
let attr = match self.get_class_attr() {
Some(c) => c,
None => return false,
};
snapshot_helpers::has_class_or_part(name, case_sensitivity, attr)
}
#[inline]
fn has_custom_state(&self, state: &AtomIdent) -> bool {
if !self.is_html_element() {
return false;
}
let check_state_ptr: *const nsAtom = state.as_ptr();
self.extended_slots().map_or(false, |slot| {
(&slot.mCustomStates).iter().any(|setstate| {
let setstate_ptr: *const nsAtom = setstate.mRawPtr;
setstate_ptr == check_state_ptr
})
})
}
#[inline]
fn is_html_element_in_html_document(&self) -> bool {
self.is_html_element() && self.as_node().owner_doc().is_html_document()
}
#[inline]
fn is_html_slot_element(&self) -> bool {
self.is_html_element() && self.local_name().as_ptr() == local_name!("slot").as_ptr()
}
#[inline]
fn ignores_nth_child_selectors(&self) -> bool {
self.is_root_of_native_anonymous_subtree()
}
fn add_element_unique_hashes(&self, filter: &mut BloomFilter) -> bool {
each_relevant_element_hash(*self, |hash| filter.insert_hash(hash & BLOOM_HASH_MASK));
true
}
}