/* 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/. */ //! A collection of invalidations due to changes in which stylesheets affect a //! document. #![deny(unsafe_code)] use crate::context::QuirksMode; use crate::dom::{TDocument, TElement, TNode}; use crate::invalidation::element::element_wrapper::{ElementSnapshot, ElementWrapper}; use crate::invalidation::element::restyle_hints::RestyleHint; use crate::media_queries::Device; use crate::selector_map::{MaybeCaseInsensitiveHashMap, PrecomputedHashMap}; use crate::selector_parser::{SelectorImpl, Snapshot, SnapshotMap}; use crate::shared_lock::SharedRwLockReadGuard; use crate::stylesheets::{CssRule, StylesheetInDocument}; use crate::stylesheets::{EffectiveRules, EffectiveRulesIterator}; use crate::values::AtomIdent; use crate::LocalName as SelectorLocalName; use crate::{Atom, ShrinkIfNeeded}; use selectors::parser::{Component, LocalName, Selector}; /// The kind of change that happened for a given rule. #[repr(u32)] #[derive(Clone, Copy, Debug, Eq, Hash, MallocSizeOf, PartialEq)] pub enum RuleChangeKind { /// The rule was inserted. Insertion, /// The rule was removed. Removal, /// Some change in the rule which we don't know about, and could have made /// the rule change in any way. Generic, /// A change in the declarations of a style rule. StyleRuleDeclarations, } /// A style sheet invalidation represents a kind of element or subtree that may /// need to be restyled. Whether it represents a whole subtree or just a single /// element is determined by the given InvalidationKind in /// StylesheetInvalidationSet's maps. #[derive(Debug, Eq, Hash, MallocSizeOf, PartialEq)] enum Invalidation { /// An element with a given id. ID(AtomIdent), /// An element with a given class name. Class(AtomIdent), /// An element with a given local name. LocalName { name: SelectorLocalName, lower_name: SelectorLocalName, }, } impl Invalidation { fn is_id(&self) -> bool { matches!(*self, Invalidation::ID(..)) } fn is_id_or_class(&self) -> bool { matches!(*self, Invalidation::ID(..) | Invalidation::Class(..)) } } /// Whether we should invalidate just the element, or the whole subtree within /// it. #[derive(Clone, Copy, Debug, Eq, MallocSizeOf, Ord, PartialEq, PartialOrd)] enum InvalidationKind { None = 0, Element, Scope, } impl std::ops::BitOrAssign for InvalidationKind { #[inline] fn bitor_assign(&mut self, other: Self) { *self = std::cmp::max(*self, other); } } impl InvalidationKind { #[inline] fn is_scope(self) -> bool { matches!(self, Self::Scope) } #[inline] fn add(&mut self, other: Option<&InvalidationKind>) { if let Some(other) = other { *self |= *other; } } } /// A set of invalidations due to stylesheet additions. /// /// TODO(emilio): We might be able to do the same analysis for media query /// changes too (or even selector changes?). #[derive(Debug, Default, MallocSizeOf)] pub struct StylesheetInvalidationSet { classes: MaybeCaseInsensitiveHashMap, ids: MaybeCaseInsensitiveHashMap, local_names: PrecomputedHashMap, fully_invalid: bool, } impl StylesheetInvalidationSet { /// Create an empty `StylesheetInvalidationSet`. pub fn new() -> Self { Default::default() } /// Mark the DOM tree styles' as fully invalid. pub fn invalidate_fully(&mut self) { debug!("StylesheetInvalidationSet::invalidate_fully"); self.clear(); self.fully_invalid = true; } fn shrink_if_needed(&mut self) { if self.fully_invalid { return; } self.classes.shrink_if_needed(); self.ids.shrink_if_needed(); self.local_names.shrink_if_needed(); } /// Analyze the given stylesheet, and collect invalidations from their /// rules, in order to avoid doing a full restyle when we style the document /// next time. pub fn collect_invalidations_for( &mut self, device: &Device, stylesheet: &S, guard: &SharedRwLockReadGuard, ) where S: StylesheetInDocument, { debug!("StylesheetInvalidationSet::collect_invalidations_for"); if self.fully_invalid { debug!(" > Fully invalid already"); return; } if !stylesheet.enabled() || !stylesheet.is_effective_for_device(device, guard) { debug!(" > Stylesheet was not effective"); return; // Nothing to do here. } let quirks_mode = device.quirks_mode(); for rule in stylesheet.effective_rules(device, guard) { self.collect_invalidations_for_rule( rule, guard, device, quirks_mode, /* is_generic_change = */ false, ); if self.fully_invalid { break; } } self.shrink_if_needed(); debug!(" > resulting class invalidations: {:?}", self.classes); debug!(" > resulting id invalidations: {:?}", self.ids); debug!( " > resulting local name invalidations: {:?}", self.local_names ); debug!(" > fully_invalid: {}", self.fully_invalid); } /// Clears the invalidation set, invalidating elements as needed if /// `document_element` is provided. /// /// Returns true if any invalidations ocurred. pub fn flush(&mut self, document_element: Option, snapshots: Option<&SnapshotMap>) -> bool where E: TElement, { debug!( "Stylist::flush({:?}, snapshots: {})", document_element, snapshots.is_some() ); let have_invalidations = match document_element { Some(e) => self.process_invalidations(e, snapshots), None => false, }; self.clear(); have_invalidations } /// Returns whether there's no invalidation to process. pub fn is_empty(&self) -> bool { !self.fully_invalid && self.classes.is_empty() && self.ids.is_empty() && self.local_names.is_empty() } fn invalidation_kind_for( &self, element: E, snapshot: Option<&Snapshot>, quirks_mode: QuirksMode, ) -> InvalidationKind where E: TElement, { debug_assert!(!self.fully_invalid); let mut kind = InvalidationKind::None; if !self.classes.is_empty() { element.each_class(|c| { kind.add(self.classes.get(c, quirks_mode)); }); if kind.is_scope() { return kind; } if let Some(snapshot) = snapshot { snapshot.each_class(|c| { kind.add(self.classes.get(c, quirks_mode)); }); if kind.is_scope() { return kind; } } } if !self.ids.is_empty() { if let Some(ref id) = element.id() { kind.add(self.ids.get(id, quirks_mode)); if kind.is_scope() { return kind; } } if let Some(ref old_id) = snapshot.and_then(|s| s.id_attr()) { kind.add(self.ids.get(old_id, quirks_mode)); if kind.is_scope() { return kind; } } } if !self.local_names.is_empty() { kind.add(self.local_names.get(element.local_name())); } kind } /// Clears the invalidation set without processing. pub fn clear(&mut self) { self.classes.clear(); self.ids.clear(); self.local_names.clear(); self.fully_invalid = false; debug_assert!(self.is_empty()); } fn process_invalidations(&self, element: E, snapshots: Option<&SnapshotMap>) -> bool where E: TElement, { debug!("Stylist::process_invalidations({:?}, {:?})", element, self); { let mut data = match element.mutate_data() { Some(data) => data, None => return false, }; if self.fully_invalid { debug!("process_invalidations: fully_invalid({:?})", element); data.hint.insert(RestyleHint::restyle_subtree()); return true; } } if self.is_empty() { debug!("process_invalidations: empty invalidation set"); return false; } let quirks_mode = element.as_node().owner_doc().quirks_mode(); self.process_invalidations_in_subtree(element, snapshots, quirks_mode) } /// Process style invalidations in a given subtree. This traverses the /// subtree looking for elements that match the invalidations in our hash /// map members. /// /// Returns whether it invalidated at least one element's style. #[allow(unsafe_code)] fn process_invalidations_in_subtree( &self, element: E, snapshots: Option<&SnapshotMap>, quirks_mode: QuirksMode, ) -> bool where E: TElement, { debug!("process_invalidations_in_subtree({:?})", element); let mut data = match element.mutate_data() { Some(data) => data, None => return false, }; if !data.has_styles() { return false; } if data.hint.contains_subtree() { debug!( "process_invalidations_in_subtree: {:?} was already invalid", element ); return false; } let element_wrapper = snapshots.map(|s| ElementWrapper::new(element, s)); let snapshot = element_wrapper.as_ref().and_then(|e| e.snapshot()); match self.invalidation_kind_for(element, snapshot, quirks_mode) { InvalidationKind::None => {}, InvalidationKind::Element => { debug!( "process_invalidations_in_subtree: {:?} matched self", element ); data.hint.insert(RestyleHint::RESTYLE_SELF); }, InvalidationKind::Scope => { debug!( "process_invalidations_in_subtree: {:?} matched subtree", element ); data.hint.insert(RestyleHint::restyle_subtree()); return true; }, } let mut any_children_invalid = false; for child in element.traversal_children() { let child = match child.as_element() { Some(e) => e, None => continue, }; any_children_invalid |= self.process_invalidations_in_subtree(child, snapshots, quirks_mode); } if any_children_invalid { debug!( "Children of {:?} changed, setting dirty descendants", element ); unsafe { element.set_dirty_descendants() } } data.hint.contains(RestyleHint::RESTYLE_SELF) || any_children_invalid } /// TODO(emilio): Reuse the bucket stuff from selectormap? That handles /// :is() / :where() etc. fn scan_component( component: &Component, invalidation: &mut Option, ) { match *component { Component::LocalName(LocalName { ref name, ref lower_name, }) => { if invalidation.is_none() { *invalidation = Some(Invalidation::LocalName { name: name.clone(), lower_name: lower_name.clone(), }); } }, Component::Class(ref class) => { if invalidation.as_ref().map_or(true, |s| !s.is_id_or_class()) { *invalidation = Some(Invalidation::Class(class.clone())); } }, Component::ID(ref id) => { if invalidation.as_ref().map_or(true, |s| !s.is_id()) { *invalidation = Some(Invalidation::ID(id.clone())); } }, _ => { // Ignore everything else, at least for now. }, } } /// Collect invalidations for a given selector. /// /// We look at the outermost local name, class, or ID selector to the left /// of an ancestor combinator, in order to restyle only a given subtree. /// /// If the selector has no ancestor combinator, then we do the same for /// the only sequence it has, but record it as an element invalidation /// instead of a subtree invalidation. /// /// We prefer IDs to classs, and classes to local names, on the basis /// that the former should be more specific than the latter. We also /// prefer to generate subtree invalidations for the outermost part /// of the selector, to reduce the amount of traversal we need to do /// when flushing invalidations. fn collect_invalidations( &mut self, selector: &Selector, quirks_mode: QuirksMode, ) { debug!( "StylesheetInvalidationSet::collect_invalidations({:?})", selector ); let mut element_invalidation: Option = None; let mut subtree_invalidation: Option = None; let mut scan_for_element_invalidation = true; let mut scan_for_subtree_invalidation = false; let mut iter = selector.iter(); loop { for component in &mut iter { if scan_for_element_invalidation { Self::scan_component(component, &mut element_invalidation); } else if scan_for_subtree_invalidation { Self::scan_component(component, &mut subtree_invalidation); } } match iter.next_sequence() { None => break, Some(combinator) => { scan_for_subtree_invalidation = combinator.is_ancestor(); }, } scan_for_element_invalidation = false; } if let Some(s) = subtree_invalidation { debug!(" > Found subtree invalidation: {:?}", s); if self.insert_invalidation(s, InvalidationKind::Scope, quirks_mode) { return; } } if let Some(s) = element_invalidation { debug!(" > Found element invalidation: {:?}", s); if self.insert_invalidation(s, InvalidationKind::Element, quirks_mode) { return; } } // The selector was of a form that we can't handle. Any element could // match it, so let's just bail out. debug!(" > Can't handle selector or OOMd, marking fully invalid"); self.invalidate_fully() } fn insert_invalidation( &mut self, invalidation: Invalidation, kind: InvalidationKind, quirks_mode: QuirksMode, ) -> bool { match invalidation { Invalidation::Class(c) => { let entry = match self.classes.try_entry(c.0, quirks_mode) { Ok(e) => e, Err(..) => return false, }; *entry.or_insert(InvalidationKind::None) |= kind; }, Invalidation::ID(i) => { let entry = match self.ids.try_entry(i.0, quirks_mode) { Ok(e) => e, Err(..) => return false, }; *entry.or_insert(InvalidationKind::None) |= kind; }, Invalidation::LocalName { name, lower_name } => { let insert_lower = name != lower_name; if self.local_names.try_reserve(1).is_err() { return false; } let entry = self.local_names.entry(name); *entry.or_insert(InvalidationKind::None) |= kind; if insert_lower { if self.local_names.try_reserve(1).is_err() { return false; } let entry = self.local_names.entry(lower_name); *entry.or_insert(InvalidationKind::None) |= kind; } }, } true } /// Collects invalidations for a given CSS rule, if not fully invalid /// already. /// /// TODO(emilio): we can't check whether the rule is inside a non-effective /// subtree, we potentially could do that. pub fn rule_changed( &mut self, stylesheet: &S, rule: &CssRule, guard: &SharedRwLockReadGuard, device: &Device, quirks_mode: QuirksMode, change_kind: RuleChangeKind, ) where S: StylesheetInDocument, { debug!("StylesheetInvalidationSet::rule_changed"); if self.fully_invalid { return; } if !stylesheet.enabled() || !stylesheet.is_effective_for_device(device, guard) { debug!(" > Stylesheet was not effective"); return; // Nothing to do here. } // If the change is generic, we don't have the old rule information to know e.g., the old // media condition, or the old selector text, so we might need to invalidate more // aggressively. That only applies to the changed rules, for other rules we can just // collect invalidations as normal. let is_generic_change = change_kind == RuleChangeKind::Generic; self.collect_invalidations_for_rule(rule, guard, device, quirks_mode, is_generic_change); if self.fully_invalid { return; } if !is_generic_change && !EffectiveRules::is_effective(guard, device, quirks_mode, rule) { return; } let rules = EffectiveRulesIterator::effective_children(device, quirks_mode, guard, rule); for rule in rules { self.collect_invalidations_for_rule( rule, guard, device, quirks_mode, /* is_generic_change = */ false, ); if self.fully_invalid { break; } } } /// Collects invalidations for a given CSS rule. fn collect_invalidations_for_rule( &mut self, rule: &CssRule, guard: &SharedRwLockReadGuard, device: &Device, quirks_mode: QuirksMode, is_generic_change: bool, ) { use crate::stylesheets::CssRule::*; debug!("StylesheetInvalidationSet::collect_invalidations_for_rule"); debug_assert!(!self.fully_invalid, "Not worth being here!"); match *rule { Style(ref lock) => { if is_generic_change { // TODO(emilio): We need to do this for selector / keyframe // name / font-face changes, because we don't have the old // selector / name. If we distinguish those changes // specially, then we can at least use this invalidation for // style declaration changes. return self.invalidate_fully(); } let style_rule = lock.read_with(guard); for selector in style_rule.selectors.slice() { self.collect_invalidations(selector, quirks_mode); if self.fully_invalid { return; } } }, Namespace(..) => { // It's not clear what handling changes for this correctly would // look like. }, LayerStatement(..) => { // Layer statement insertions might alter styling order, so we need to always // invalidate fully. return self.invalidate_fully(); }, Document(..) | Import(..) | Media(..) | Supports(..) | Container(..) | LayerBlock(..) | StartingStyle(..) => { // Do nothing, relevant nested rules are visited as part of rule iteration. }, FontFace(..) => { // Do nothing, @font-face doesn't affect computed style information on it's own. // We'll restyle when the font face loads, if needed. }, Page(..) | Margin(..) => { // Do nothing, we don't support OM mutations on print documents, and page rules // can't affect anything else. }, Keyframes(ref lock) => { if is_generic_change { return self.invalidate_fully(); } let keyframes_rule = lock.read_with(guard); if device.animation_name_may_be_referenced(&keyframes_rule.name) { debug!( " > Found @keyframes rule potentially referenced \ from the page, marking the whole tree invalid." ); self.invalidate_fully(); } else { // Do nothing, this animation can't affect the style of existing elements. } }, CounterStyle(..) | Property(..) | FontFeatureValues(..) | FontPaletteValues(..) => { debug!(" > Found unsupported rule, marking the whole subtree invalid."); self.invalidate_fully(); }, Scope(..) => { // Addition/removal of @scope requires re-evaluation of scope proximity to properly // figure out the styling order. self.invalidate_fully(); }, } } }