/* 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/. */ //! Selector matching. use crate::applicable_declarations::{ ApplicableDeclarationBlock, ApplicableDeclarationList, CascadePriority, }; use crate::context::{CascadeInputs, QuirksMode}; use crate::dom::{TElement, TShadowRoot}; #[cfg(feature = "gecko")] use crate::gecko_bindings::structs::{ServoStyleSetSizes, StyleRuleInclusion}; use crate::invalidation::element::invalidation_map::InvalidationMap; use crate::invalidation::media_queries::{ EffectiveMediaQueryResults, MediaListKey, ToMediaListKey, }; use crate::invalidation::stylesheets::RuleChangeKind; use crate::media_queries::Device; use crate::properties::{self, CascadeMode, ComputedValues}; use crate::properties::{AnimationDeclarations, PropertyDeclarationBlock}; use crate::rule_cache::{RuleCache, RuleCacheConditions}; use crate::rule_collector::{containing_shadow_ignoring_svg_use, RuleCollector}; use crate::rule_tree::{CascadeLevel, RuleTree, StrongRuleNode, StyleSource}; use crate::selector_map::{PrecomputedHashMap, PrecomputedHashSet, SelectorMap, SelectorMapEntry}; use crate::selector_parser::{PerPseudoElementMap, PseudoElement, SelectorImpl, SnapshotMap}; use crate::shared_lock::{Locked, SharedRwLockReadGuard, StylesheetGuards}; use crate::stylesheet_set::{DataValidity, DocumentStylesheetSet, SheetRebuildKind}; use crate::stylesheet_set::{DocumentStylesheetFlusher, SheetCollectionFlusher}; use crate::stylesheets::container_rule::ContainerCondition; use crate::stylesheets::keyframes_rule::KeyframesAnimation; use crate::stylesheets::layer_rule::{LayerName, LayerOrder}; use crate::stylesheets::viewport_rule::{self, MaybeNew, ViewportRule}; #[cfg(feature = "gecko")] use crate::stylesheets::{ CounterStyleRule, FontFaceRule, FontFeatureValuesRule, FontPaletteValuesRule, PageRule, }; use crate::stylesheets::{ CssRule, EffectiveRulesIterator, Origin, OriginSet, PerOrigin, PerOriginIter, }; use crate::stylesheets::{StyleRule, StylesheetContents, StylesheetInDocument}; use crate::AllocErr; use crate::{Atom, LocalName, Namespace, ShrinkIfNeeded, WeakAtom}; use dom::{DocumentState, ElementState}; use fxhash::FxHashMap; use malloc_size_of::MallocSizeOf; #[cfg(feature = "gecko")] use malloc_size_of::{MallocShallowSizeOf, MallocSizeOfOps, MallocUnconditionalShallowSizeOf}; use selectors::attr::{CaseSensitivity, NamespaceConstraint}; use selectors::bloom::BloomFilter; use selectors::matching::VisitedHandlingMode; use selectors::matching::{matches_selector, MatchingContext, MatchingMode, NeedsSelectorFlags}; use selectors::parser::{AncestorHashes, Combinator, Component, Selector, SelectorIter}; use selectors::visitor::SelectorVisitor; use selectors::NthIndexCache; use servo_arc::{Arc, ArcBorrow}; use smallbitvec::SmallBitVec; use smallvec::SmallVec; use std::cmp::Ordering; use std::hash::{Hash, Hasher}; use std::sync::Mutex; use std::{mem, ops}; use style_traits::viewport::ViewportConstraints; /// The type of the stylesheets that the stylist contains. #[cfg(feature = "servo")] pub type StylistSheet = crate::stylesheets::DocumentStyleSheet; /// The type of the stylesheets that the stylist contains. #[cfg(feature = "gecko")] pub type StylistSheet = crate::gecko::data::GeckoStyleSheet; #[derive(Debug, Clone)] struct StylesheetContentsPtr(Arc); impl PartialEq for StylesheetContentsPtr { #[inline] fn eq(&self, other: &Self) -> bool { Arc::ptr_eq(&self.0, &other.0) } } impl Eq for StylesheetContentsPtr {} impl Hash for StylesheetContentsPtr { fn hash(&self, state: &mut H) { let contents: &StylesheetContents = &*self.0; (contents as *const StylesheetContents).hash(state) } } type StyleSheetContentList = Vec; /// A key in the cascade data cache. #[derive(Debug, Hash, Default, PartialEq, Eq)] struct CascadeDataCacheKey { media_query_results: Vec, contents: StyleSheetContentList, } unsafe impl Send for CascadeDataCacheKey {} unsafe impl Sync for CascadeDataCacheKey {} trait CascadeDataCacheEntry: Sized { /// Returns a reference to the cascade data. fn cascade_data(&self) -> &CascadeData; /// Rebuilds the cascade data for the new stylesheet collection. The /// collection is guaranteed to be dirty. fn rebuild( device: &Device, quirks_mode: QuirksMode, collection: SheetCollectionFlusher, guard: &SharedRwLockReadGuard, old_entry: &Self, ) -> Result, AllocErr> where S: StylesheetInDocument + PartialEq + 'static; /// Measures heap memory usage. #[cfg(feature = "gecko")] fn add_size_of(&self, ops: &mut MallocSizeOfOps, sizes: &mut ServoStyleSetSizes); } struct CascadeDataCache { entries: FxHashMap>, } impl CascadeDataCache where Entry: CascadeDataCacheEntry, { fn new() -> Self { Self { entries: Default::default(), } } fn len(&self) -> usize { self.entries.len() } // FIXME(emilio): This may need to be keyed on quirks-mode too, though for // UA sheets there aren't class / id selectors on those sheets, usually, so // it's probably ok... For the other cache the quirks mode shouldn't differ // so also should be fine. fn lookup<'a, S>( &'a mut self, device: &Device, quirks_mode: QuirksMode, collection: SheetCollectionFlusher, guard: &SharedRwLockReadGuard, old_entry: &Entry, ) -> Result>, AllocErr> where S: StylesheetInDocument + PartialEq + 'static, { use std::collections::hash_map::Entry as HashMapEntry; debug!("StyleSheetCache::lookup({})", self.len()); if !collection.dirty() { return Ok(None); } let mut key = CascadeDataCacheKey::default(); for sheet in collection.sheets() { CascadeData::collect_applicable_media_query_results_into( device, sheet, guard, &mut key.media_query_results, &mut key.contents, ) } let new_entry; match self.entries.entry(key) { HashMapEntry::Vacant(e) => { debug!("> Picking the slow path (not in the cache)"); new_entry = Entry::rebuild(device, quirks_mode, collection, guard, old_entry)?; e.insert(new_entry.clone()); }, HashMapEntry::Occupied(mut e) => { // Avoid reusing our old entry (this can happen if we get // invalidated due to CSSOM mutations and our old stylesheet // contents were already unique, for example). if !std::ptr::eq(&**e.get(), old_entry) { if log_enabled!(log::Level::Debug) { debug!("cache hit for:"); for sheet in collection.sheets() { debug!(" > {:?}", sheet); } } // The line below ensures the "committed" bit is updated // properly. collection.each(|_, _| true); return Ok(Some(e.get().clone())); } debug!("> Picking the slow path due to same entry as old"); new_entry = Entry::rebuild(device, quirks_mode, collection, guard, old_entry)?; e.insert(new_entry.clone()); }, } Ok(Some(new_entry)) } /// Returns all the cascade datas that are not being used (that is, that are /// held alive just by this cache). /// /// We return them instead of dropping in place because some of them may /// keep alive some other documents (like the SVG documents kept alive by /// URL references), and thus we don't want to drop them while locking the /// cache to not deadlock. fn take_unused(&mut self) -> SmallVec<[Arc; 3]> { let mut unused = SmallVec::new(); self.entries.retain(|_key, value| { // is_unique() returns false for static references, but we never // have static references to UserAgentCascadeDatas. If we did, it // may not make sense to put them in the cache in the first place. if !value.is_unique() { return true; } unused.push(value.clone()); false }); unused } fn take_all(&mut self) -> FxHashMap> { mem::take(&mut self.entries) } #[cfg(feature = "gecko")] fn add_size_of(&self, ops: &mut MallocSizeOfOps, sizes: &mut ServoStyleSetSizes) { sizes.mOther += self.entries.shallow_size_of(ops); for (_key, arc) in self.entries.iter() { // These are primary Arc references that can be measured // unconditionally. sizes.mOther += arc.unconditional_shallow_size_of(ops); arc.add_size_of(ops, sizes); } } } /// Measure heap usage of UA_CASCADE_DATA_CACHE. #[cfg(feature = "gecko")] pub fn add_size_of_ua_cache(ops: &mut MallocSizeOfOps, sizes: &mut ServoStyleSetSizes) { UA_CASCADE_DATA_CACHE .lock() .unwrap() .add_size_of(ops, sizes); } lazy_static! { /// A cache of computed user-agent data, to be shared across documents. static ref UA_CASCADE_DATA_CACHE: Mutex = Mutex::new(UserAgentCascadeDataCache::new()); } impl CascadeDataCacheEntry for UserAgentCascadeData { fn cascade_data(&self) -> &CascadeData { &self.cascade_data } fn rebuild( device: &Device, quirks_mode: QuirksMode, collection: SheetCollectionFlusher, guard: &SharedRwLockReadGuard, _old: &Self, ) -> Result, AllocErr> where S: StylesheetInDocument + PartialEq + 'static, { // TODO: Maybe we should support incremental rebuilds, though they seem // uncommon and rebuild() doesn't deal with // precomputed_pseudo_element_decls for now so... let mut new_data = Self { cascade_data: CascadeData::new(), precomputed_pseudo_element_decls: PrecomputedPseudoElementDeclarations::default(), }; for sheet in collection.sheets() { new_data.cascade_data.add_stylesheet( device, quirks_mode, sheet, guard, SheetRebuildKind::Full, Some(&mut new_data.precomputed_pseudo_element_decls), )?; } new_data.cascade_data.did_finish_rebuild(); Ok(Arc::new(new_data)) } #[cfg(feature = "gecko")] fn add_size_of(&self, ops: &mut MallocSizeOfOps, sizes: &mut ServoStyleSetSizes) { self.cascade_data.add_size_of(ops, sizes); sizes.mPrecomputedPseudos += self.precomputed_pseudo_element_decls.size_of(ops); } } type UserAgentCascadeDataCache = CascadeDataCache; type PrecomputedPseudoElementDeclarations = PerPseudoElementMap>; #[derive(Default)] struct UserAgentCascadeData { cascade_data: CascadeData, /// Applicable declarations for a given non-eagerly cascaded pseudo-element. /// /// These are eagerly computed once, and then used to resolve the new /// computed values on the fly on layout. /// /// These are only filled from UA stylesheets. precomputed_pseudo_element_decls: PrecomputedPseudoElementDeclarations, } /// All the computed information for all the stylesheets that apply to the /// document. #[derive(Default)] #[cfg_attr(feature = "servo", derive(MallocSizeOf))] pub struct DocumentCascadeData { #[cfg_attr( feature = "servo", ignore_malloc_size_of = "Arc, owned by UserAgentCascadeDataCache" )] user_agent: Arc, user: CascadeData, author: CascadeData, per_origin: PerOrigin<()>, } /// An iterator over the cascade data of a given document. pub struct DocumentCascadeDataIter<'a> { iter: PerOriginIter<'a, ()>, cascade_data: &'a DocumentCascadeData, } impl<'a> Iterator for DocumentCascadeDataIter<'a> { type Item = (&'a CascadeData, Origin); fn next(&mut self) -> Option { let (_, origin) = self.iter.next()?; Some((self.cascade_data.borrow_for_origin(origin), origin)) } } impl DocumentCascadeData { /// Borrows the cascade data for a given origin. #[inline] pub fn borrow_for_origin(&self, origin: Origin) -> &CascadeData { match origin { Origin::UserAgent => &self.user_agent.cascade_data, Origin::Author => &self.author, Origin::User => &self.user, } } fn iter_origins(&self) -> DocumentCascadeDataIter { DocumentCascadeDataIter { iter: self.per_origin.iter_origins(), cascade_data: self, } } fn iter_origins_rev(&self) -> DocumentCascadeDataIter { DocumentCascadeDataIter { iter: self.per_origin.iter_origins_rev(), cascade_data: self, } } /// Rebuild the cascade data for the given document stylesheets, and /// optionally with a set of user agent stylesheets. Returns Err(..) /// to signify OOM. fn rebuild<'a, S>( &mut self, device: &Device, quirks_mode: QuirksMode, mut flusher: DocumentStylesheetFlusher<'a, S>, guards: &StylesheetGuards, ) -> Result<(), AllocErr> where S: StylesheetInDocument + PartialEq + 'static, { // First do UA sheets. { let origin_flusher = flusher.flush_origin(Origin::UserAgent); // Dirty check is just a minor optimization (no need to grab the // lock if nothing has changed). if origin_flusher.dirty() { let mut ua_cache = UA_CASCADE_DATA_CACHE.lock().unwrap(); let new_data = ua_cache.lookup( device, quirks_mode, origin_flusher, guards.ua_or_user, &self.user_agent, )?; if let Some(new_data) = new_data { self.user_agent = new_data; } let _unused_entries = ua_cache.take_unused(); // See the comments in take_unused() as for why the following // line. std::mem::drop(ua_cache); } } // Now do the user sheets. self.user.rebuild( device, quirks_mode, flusher.flush_origin(Origin::User), guards.ua_or_user, )?; // And now the author sheets. self.author.rebuild( device, quirks_mode, flusher.flush_origin(Origin::Author), guards.author, )?; Ok(()) } /// Measures heap usage. #[cfg(feature = "gecko")] pub fn add_size_of(&self, ops: &mut MallocSizeOfOps, sizes: &mut ServoStyleSetSizes) { self.user.add_size_of(ops, sizes); self.author.add_size_of(ops, sizes); } } /// Whether author styles are enabled. /// /// This is used to support Gecko. #[allow(missing_docs)] #[derive(Clone, Copy, Debug, Eq, MallocSizeOf, PartialEq)] pub enum AuthorStylesEnabled { Yes, No, } /// A wrapper over a DocumentStylesheetSet that can be `Sync`, since it's only /// used and exposed via mutable methods in the `Stylist`. #[cfg_attr(feature = "servo", derive(MallocSizeOf))] struct StylistStylesheetSet(DocumentStylesheetSet); // Read above to see why this is fine. unsafe impl Sync for StylistStylesheetSet {} impl StylistStylesheetSet { fn new() -> Self { StylistStylesheetSet(DocumentStylesheetSet::new()) } } impl ops::Deref for StylistStylesheetSet { type Target = DocumentStylesheetSet; fn deref(&self) -> &Self::Target { &self.0 } } impl ops::DerefMut for StylistStylesheetSet { fn deref_mut(&mut self) -> &mut Self::Target { &mut self.0 } } /// This structure holds all the selectors and device characteristics /// for a given document. The selectors are converted into `Rule`s /// and sorted into `SelectorMap`s keyed off stylesheet origin and /// pseudo-element (see `CascadeData`). /// /// This structure is effectively created once per pipeline, in the /// LayoutThread corresponding to that pipeline. #[cfg_attr(feature = "servo", derive(MallocSizeOf))] pub struct Stylist { /// Device that the stylist is currently evaluating against. /// /// This field deserves a bigger comment due to the different use that Gecko /// and Servo give to it (that we should eventually unify). /// /// With Gecko, the device is never changed. Gecko manually tracks whether /// the device data should be reconstructed, and "resets" the state of the /// device. /// /// On Servo, on the other hand, the device is a really cheap representation /// that is recreated each time some constraint changes and calling /// `set_device`. device: Device, /// Viewport constraints based on the current device. viewport_constraints: Option, /// The list of stylesheets. stylesheets: StylistStylesheetSet, /// A cache of CascadeDatas for AuthorStylesheetSets (i.e., shadow DOM). author_data_cache: CascadeDataCache, /// If true, the quirks-mode stylesheet is applied. #[cfg_attr(feature = "servo", ignore_malloc_size_of = "defined in selectors")] quirks_mode: QuirksMode, /// Selector maps for all of the style sheets in the stylist, after /// evalutaing media rules against the current device, split out per /// cascade level. cascade_data: DocumentCascadeData, /// Whether author styles are enabled. author_styles_enabled: AuthorStylesEnabled, /// The rule tree, that stores the results of selector matching. rule_tree: RuleTree, /// The total number of times the stylist has been rebuilt. num_rebuilds: usize, } /// What cascade levels to include when styling elements. #[derive(Clone, Copy, PartialEq)] pub enum RuleInclusion { /// Include rules for style sheets at all cascade levels. This is the /// normal rule inclusion mode. All, /// Only include rules from UA and user level sheets. Used to implement /// `getDefaultComputedStyle`. DefaultOnly, } #[cfg(feature = "gecko")] impl From for RuleInclusion { fn from(value: StyleRuleInclusion) -> Self { match value { StyleRuleInclusion::All => RuleInclusion::All, StyleRuleInclusion::DefaultOnly => RuleInclusion::DefaultOnly, } } } /// A struct containing state from ancestor rules like @layer / @import / /// @container. struct ContainingRuleState { layer_name: LayerName, layer_id: LayerId, container_condition_id: ContainerConditionId, } impl Default for ContainingRuleState { fn default() -> Self { Self { layer_name: LayerName::new_empty(), layer_id: LayerId::root(), container_condition_id: ContainerConditionId::none(), } } } struct SavedContainingRuleState { layer_name_len: usize, layer_id: LayerId, container_condition_id: ContainerConditionId, } impl ContainingRuleState { fn save(&self) -> SavedContainingRuleState { SavedContainingRuleState { layer_name_len: self.layer_name.0.len(), layer_id: self.layer_id, container_condition_id: self.container_condition_id, } } fn restore(&mut self, saved: &SavedContainingRuleState) { debug_assert!(self.layer_name.0.len() >= saved.layer_name_len); self.layer_name.0.truncate(saved.layer_name_len); self.layer_id = saved.layer_id; self.container_condition_id = saved.container_condition_id; } } impl Stylist { /// Construct a new `Stylist`, using given `Device` and `QuirksMode`. /// If more members are added here, think about whether they should /// be reset in clear(). #[inline] pub fn new(device: Device, quirks_mode: QuirksMode) -> Self { Self { viewport_constraints: None, device, quirks_mode, stylesheets: StylistStylesheetSet::new(), author_data_cache: CascadeDataCache::new(), cascade_data: Default::default(), author_styles_enabled: AuthorStylesEnabled::Yes, rule_tree: RuleTree::new(), num_rebuilds: 0, } } /// Returns the document cascade data. #[inline] pub fn cascade_data(&self) -> &DocumentCascadeData { &self.cascade_data } /// Returns whether author styles are enabled or not. #[inline] pub fn author_styles_enabled(&self) -> AuthorStylesEnabled { self.author_styles_enabled } /// Iterate through all the cascade datas from the document. #[inline] pub fn iter_origins(&self) -> DocumentCascadeDataIter { self.cascade_data.iter_origins() } /// Does what the name says, to prevent author_data_cache to grow without /// bound. pub fn remove_unique_author_data_cache_entries(&mut self) { self.author_data_cache.take_unused(); } /// Rebuilds (if needed) the CascadeData given a sheet collection. pub fn rebuild_author_data( &mut self, old_data: &CascadeData, collection: SheetCollectionFlusher, guard: &SharedRwLockReadGuard, ) -> Result>, AllocErr> where S: StylesheetInDocument + PartialEq + 'static, { self.author_data_cache .lookup(&self.device, self.quirks_mode, collection, guard, old_data) } /// Iterate over the extra data in origin order. #[inline] pub fn iter_extra_data_origins(&self) -> ExtraStyleDataIterator { ExtraStyleDataIterator(self.cascade_data.iter_origins()) } /// Iterate over the extra data in reverse origin order. #[inline] pub fn iter_extra_data_origins_rev(&self) -> ExtraStyleDataIterator { ExtraStyleDataIterator(self.cascade_data.iter_origins_rev()) } /// Returns the number of selectors. pub fn num_selectors(&self) -> usize { self.cascade_data .iter_origins() .map(|(d, _)| d.num_selectors) .sum() } /// Returns the number of declarations. pub fn num_declarations(&self) -> usize { self.cascade_data .iter_origins() .map(|(d, _)| d.num_declarations) .sum() } /// Returns the number of times the stylist has been rebuilt. pub fn num_rebuilds(&self) -> usize { self.num_rebuilds } /// Returns the number of revalidation_selectors. pub fn num_revalidation_selectors(&self) -> usize { self.cascade_data .iter_origins() .map(|(data, _)| data.selectors_for_cache_revalidation.len()) .sum() } /// Returns the number of entries in invalidation maps. pub fn num_invalidations(&self) -> usize { self.cascade_data .iter_origins() .map(|(data, _)| data.invalidation_map.len()) .sum() } /// Returns whether the given DocumentState bit is relied upon by a selector /// of some rule. pub fn has_document_state_dependency(&self, state: DocumentState) -> bool { self.cascade_data .iter_origins() .any(|(d, _)| d.document_state_dependencies.intersects(state)) } /// Flush the list of stylesheets if they changed, ensuring the stylist is /// up-to-date. pub fn flush( &mut self, guards: &StylesheetGuards, document_element: Option, snapshots: Option<&SnapshotMap>, ) -> bool where E: TElement, { if !self.stylesheets.has_changed() { return false; } self.num_rebuilds += 1; // Update viewport_constraints regardless of which origins' // `CascadeData` we're updating. self.viewport_constraints = None; if viewport_rule::enabled() { // TODO(emilio): This doesn't look so efficient. // // Presumably when we properly implement this we can at least have a // bit on the stylesheet that says whether it contains viewport // rules to skip it entirely? // // Processing it with the rest of rules seems tricky since it // overrides the viewport size which may change the evaluation of // media queries (or may not? how are viewport units in media // queries defined?) let cascaded_rule = ViewportRule { declarations: viewport_rule::Cascade::from_stylesheets( self.stylesheets.iter(), guards, &self.device, ) .finish(), }; self.viewport_constraints = ViewportConstraints::maybe_new(&self.device, &cascaded_rule, self.quirks_mode); if let Some(ref constraints) = self.viewport_constraints { self.device.account_for_viewport_rule(constraints); } } let flusher = self.stylesheets.flush(document_element, snapshots); let had_invalidations = flusher.had_invalidations(); self.cascade_data .rebuild(&self.device, self.quirks_mode, flusher, guards) .unwrap_or_else(|_| warn!("OOM in Stylist::flush")); had_invalidations } /// Insert a given stylesheet before another stylesheet in the document. pub fn insert_stylesheet_before( &mut self, sheet: StylistSheet, before_sheet: StylistSheet, guard: &SharedRwLockReadGuard, ) { self.stylesheets .insert_stylesheet_before(Some(&self.device), sheet, before_sheet, guard) } /// Marks a given stylesheet origin as dirty, due to, for example, changes /// in the declarations that affect a given rule. /// /// FIXME(emilio): Eventually it'd be nice for this to become more /// fine-grained. pub fn force_stylesheet_origins_dirty(&mut self, origins: OriginSet) { self.stylesheets.force_dirty(origins) } /// Sets whether author style is enabled or not. pub fn set_author_styles_enabled(&mut self, enabled: AuthorStylesEnabled) { self.author_styles_enabled = enabled; } /// Returns whether we've recorded any stylesheet change so far. pub fn stylesheets_have_changed(&self) -> bool { self.stylesheets.has_changed() } /// Appends a new stylesheet to the current set. pub fn append_stylesheet(&mut self, sheet: StylistSheet, guard: &SharedRwLockReadGuard) { self.stylesheets .append_stylesheet(Some(&self.device), sheet, guard) } /// Remove a given stylesheet to the current set. pub fn remove_stylesheet(&mut self, sheet: StylistSheet, guard: &SharedRwLockReadGuard) { self.stylesheets .remove_stylesheet(Some(&self.device), sheet, guard) } /// Notify of a change of a given rule. pub fn rule_changed( &mut self, sheet: &StylistSheet, rule: &CssRule, guard: &SharedRwLockReadGuard, change_kind: RuleChangeKind, ) { self.stylesheets .rule_changed(Some(&self.device), sheet, rule, guard, change_kind) } /// Appends a new stylesheet to the current set. #[inline] pub fn sheet_count(&self, origin: Origin) -> usize { self.stylesheets.sheet_count(origin) } /// Appends a new stylesheet to the current set. #[inline] pub fn sheet_at(&self, origin: Origin, index: usize) -> Option<&StylistSheet> { self.stylesheets.get(origin, index) } /// Returns whether for any of the applicable style rule data a given /// condition is true. pub fn any_applicable_rule_data(&self, element: E, mut f: F) -> bool where E: TElement, F: FnMut(&CascadeData) -> bool, { if f(&self.cascade_data.user_agent.cascade_data) { return true; } let mut maybe = false; let doc_author_rules_apply = element.each_applicable_non_document_style_rule_data(|data, _| { maybe = maybe || f(&*data); }); if maybe || f(&self.cascade_data.user) { return true; } doc_author_rules_apply && f(&self.cascade_data.author) } /// Computes the style for a given "precomputed" pseudo-element, taking the /// universal rules and applying them. pub fn precomputed_values_for_pseudo( &self, guards: &StylesheetGuards, pseudo: &PseudoElement, parent: Option<&ComputedValues>, ) -> Arc where E: TElement, { debug_assert!(pseudo.is_precomputed()); let rule_node = self.rule_node_for_precomputed_pseudo(guards, pseudo, vec![]); self.precomputed_values_for_pseudo_with_rule_node::(guards, pseudo, parent, rule_node) } /// Computes the style for a given "precomputed" pseudo-element with /// given rule node. /// /// TODO(emilio): The type parameter could go away with a void type /// implementing TElement. pub fn precomputed_values_for_pseudo_with_rule_node( &self, guards: &StylesheetGuards, pseudo: &PseudoElement, parent: Option<&ComputedValues>, rules: StrongRuleNode, ) -> Arc where E: TElement, { self.compute_pseudo_element_style_with_inputs::( CascadeInputs { rules: Some(rules), visited_rules: None, flags: Default::default(), }, pseudo, guards, /* originating_element_style */ None, parent, /* element */ None, ) } /// Returns the rule node for a given precomputed pseudo-element. /// /// If we want to include extra declarations to this precomputed /// pseudo-element, we can provide a vector of ApplicableDeclarationBlocks /// to extra_declarations. This is useful for @page rules. pub fn rule_node_for_precomputed_pseudo( &self, guards: &StylesheetGuards, pseudo: &PseudoElement, mut extra_declarations: Vec, ) -> StrongRuleNode { let mut declarations_with_extra; let declarations = match self .cascade_data .user_agent .precomputed_pseudo_element_decls .get(pseudo) { Some(declarations) => { if !extra_declarations.is_empty() { declarations_with_extra = declarations.clone(); declarations_with_extra.append(&mut extra_declarations); &*declarations_with_extra } else { &**declarations } }, None => &[], }; self.rule_tree.insert_ordered_rules_with_important( declarations.into_iter().map(|a| a.clone().for_rule_tree()), guards, ) } /// Returns the style for an anonymous box of the given type. /// /// TODO(emilio): The type parameter could go away with a void type /// implementing TElement. #[cfg(feature = "servo")] pub fn style_for_anonymous( &self, guards: &StylesheetGuards, pseudo: &PseudoElement, parent_style: &ComputedValues, ) -> Arc where E: TElement, { self.precomputed_values_for_pseudo::(guards, &pseudo, Some(parent_style)) } /// Computes a pseudo-element style lazily during layout. /// /// This can only be done for a certain set of pseudo-elements, like /// :selection. /// /// Check the documentation on lazy pseudo-elements in /// docs/components/style.md pub fn lazily_compute_pseudo_element_style( &self, guards: &StylesheetGuards, element: E, pseudo: &PseudoElement, rule_inclusion: RuleInclusion, originating_element_style: &ComputedValues, parent_style: &Arc, is_probe: bool, matching_fn: Option<&dyn Fn(&PseudoElement) -> bool>, ) -> Option> where E: TElement, { let cascade_inputs = self.lazy_pseudo_rules( guards, element, originating_element_style, parent_style, pseudo, is_probe, rule_inclusion, matching_fn, )?; Some(self.compute_pseudo_element_style_with_inputs( cascade_inputs, pseudo, guards, Some(originating_element_style), Some(parent_style), Some(element), )) } /// Computes a pseudo-element style lazily using the given CascadeInputs. /// This can be used for truly lazy pseudo-elements or to avoid redoing /// selector matching for eager pseudo-elements when we need to recompute /// their style with a new parent style. pub fn compute_pseudo_element_style_with_inputs( &self, inputs: CascadeInputs, pseudo: &PseudoElement, guards: &StylesheetGuards, originating_element_style: Option<&ComputedValues>, parent_style: Option<&ComputedValues>, element: Option, ) -> Arc where E: TElement, { // FIXME(emilio): The lack of layout_parent_style here could be // worrying, but we're probably dropping the display fixup for // pseudos other than before and after, so it's probably ok. // // (Though the flags don't indicate so!) // // It'd be fine to assert that this isn't called with a parent style // where display contents is in effect, but in practice this is hard to // do for stuff like :-moz-fieldset-content with a //
. That is, the computed value of // display for the fieldset is "contents", even though it's not the used // value, so we don't need to adjust in a different way anyway. self.cascade_style_and_visited( element, Some(pseudo), inputs, guards, originating_element_style, parent_style, parent_style, parent_style, /* rule_cache = */ None, &mut RuleCacheConditions::default(), ) } /// Computes a style using the given CascadeInputs. This can be used to /// compute a style any time we know what rules apply and just need to use /// the given parent styles. /// /// parent_style is the style to inherit from for properties affected by /// first-line ancestors. /// /// parent_style_ignoring_first_line is the style to inherit from for /// properties not affected by first-line ancestors. /// /// layout_parent_style is the style used for some property fixups. It's /// the style of the nearest ancestor with a layout box. pub fn cascade_style_and_visited( &self, element: Option, pseudo: Option<&PseudoElement>, inputs: CascadeInputs, guards: &StylesheetGuards, originating_element_style: Option<&ComputedValues>, parent_style: Option<&ComputedValues>, parent_style_ignoring_first_line: Option<&ComputedValues>, layout_parent_style: Option<&ComputedValues>, rule_cache: Option<&RuleCache>, rule_cache_conditions: &mut RuleCacheConditions, ) -> Arc where E: TElement, { debug_assert!(pseudo.is_some() || element.is_some(), "Huh?"); // We need to compute visited values if we have visited rules or if our // parent has visited values. let visited_rules = match inputs.visited_rules.as_ref() { Some(rules) => Some(rules), None => { if parent_style.and_then(|s| s.visited_style()).is_some() { Some(inputs.rules.as_ref().unwrap_or(self.rule_tree.root())) } else { None } }, }; // Read the comment on `precomputed_values_for_pseudo` to see why it's // difficult to assert that display: contents nodes never arrive here // (tl;dr: It doesn't apply for replaced elements and such, but the // computed value is still "contents"). // // FIXME(emilio): We should assert that it holds if pseudo.is_none()! properties::cascade::( &self.device, pseudo, inputs.rules.as_ref().unwrap_or(self.rule_tree.root()), guards, originating_element_style, parent_style, parent_style_ignoring_first_line, layout_parent_style, visited_rules, inputs.flags, self.quirks_mode, rule_cache, rule_cache_conditions, element, ) } /// Computes the cascade inputs for a lazily-cascaded pseudo-element. /// /// See the documentation on lazy pseudo-elements in /// docs/components/style.md fn lazy_pseudo_rules( &self, guards: &StylesheetGuards, element: E, originating_element_style: &ComputedValues, parent_style: &Arc, pseudo: &PseudoElement, is_probe: bool, rule_inclusion: RuleInclusion, matching_fn: Option<&dyn Fn(&PseudoElement) -> bool>, ) -> Option where E: TElement, { debug_assert!(pseudo.is_lazy()); // No need to bother setting the selector flags when we're computing // default styles. let needs_selector_flags = if rule_inclusion == RuleInclusion::DefaultOnly { NeedsSelectorFlags::No } else { NeedsSelectorFlags::Yes }; let mut declarations = ApplicableDeclarationList::new(); let mut matching_context = MatchingContext::<'_, E::Impl>::new( MatchingMode::ForStatelessPseudoElement, None, None, self.quirks_mode, needs_selector_flags, ); matching_context.pseudo_element_matching_fn = matching_fn; matching_context.extra_data.originating_element_style = Some(originating_element_style); self.push_applicable_declarations( element, Some(&pseudo), None, None, /* animation_declarations = */ Default::default(), rule_inclusion, &mut declarations, &mut matching_context, ); if declarations.is_empty() && is_probe { return None; } let rules = self.rule_tree.compute_rule_node(&mut declarations, guards); let mut visited_rules = None; if parent_style.visited_style().is_some() { let mut declarations = ApplicableDeclarationList::new(); let mut matching_context = MatchingContext::<'_, E::Impl>::new_for_visited( MatchingMode::ForStatelessPseudoElement, None, None, VisitedHandlingMode::RelevantLinkVisited, self.quirks_mode, needs_selector_flags, ); matching_context.pseudo_element_matching_fn = matching_fn; matching_context.extra_data.originating_element_style = Some(originating_element_style); self.push_applicable_declarations( element, Some(&pseudo), None, None, /* animation_declarations = */ Default::default(), rule_inclusion, &mut declarations, &mut matching_context, ); if !declarations.is_empty() { let rule_node = self.rule_tree.insert_ordered_rules_with_important( declarations.drain(..).map(|a| a.for_rule_tree()), guards, ); if rule_node != *self.rule_tree.root() { visited_rules = Some(rule_node); } } } Some(CascadeInputs { rules: Some(rules), visited_rules, flags: matching_context.extra_data.cascade_input_flags, }) } /// Set a given device, which may change the styles that apply to the /// document. /// /// Returns the sheet origins that were actually affected. /// /// This means that we may need to rebuild style data even if the /// stylesheets haven't changed. /// /// Also, the device that arrives here may need to take the viewport rules /// into account. pub fn set_device(&mut self, mut device: Device, guards: &StylesheetGuards) -> OriginSet { if viewport_rule::enabled() { let cascaded_rule = { let stylesheets = self.stylesheets.iter(); ViewportRule { declarations: viewport_rule::Cascade::from_stylesheets( stylesheets, guards, &device, ) .finish(), } }; self.viewport_constraints = ViewportConstraints::maybe_new(&device, &cascaded_rule, self.quirks_mode); if let Some(ref constraints) = self.viewport_constraints { device.account_for_viewport_rule(constraints); } } self.device = device; self.media_features_change_changed_style(guards, &self.device) } /// Returns whether, given a media feature change, any previously-applicable /// style has become non-applicable, or vice-versa for each origin, using /// `device`. pub fn media_features_change_changed_style( &self, guards: &StylesheetGuards, device: &Device, ) -> OriginSet { debug!("Stylist::media_features_change_changed_style {:?}", device); let mut origins = OriginSet::empty(); let stylesheets = self.stylesheets.iter(); for (stylesheet, origin) in stylesheets { if origins.contains(origin.into()) { continue; } let guard = guards.for_origin(origin); let origin_cascade_data = self.cascade_data.borrow_for_origin(origin); let affected_changed = !origin_cascade_data.media_feature_affected_matches( stylesheet, guard, device, self.quirks_mode, ); if affected_changed { origins |= origin; } } origins } /// Returns the viewport constraints that apply to this document because of /// a @viewport rule. pub fn viewport_constraints(&self) -> Option<&ViewportConstraints> { self.viewport_constraints.as_ref() } /// Returns the Quirks Mode of the document. pub fn quirks_mode(&self) -> QuirksMode { self.quirks_mode } /// Sets the quirks mode of the document. pub fn set_quirks_mode(&mut self, quirks_mode: QuirksMode) { if self.quirks_mode == quirks_mode { return; } self.quirks_mode = quirks_mode; self.force_stylesheet_origins_dirty(OriginSet::all()); } /// Returns the applicable CSS declarations for the given element. pub fn push_applicable_declarations( &self, element: E, pseudo_element: Option<&PseudoElement>, style_attribute: Option>>, smil_override: Option>>, animation_declarations: AnimationDeclarations, rule_inclusion: RuleInclusion, applicable_declarations: &mut ApplicableDeclarationList, context: &mut MatchingContext, ) where E: TElement, { RuleCollector::new( self, element, pseudo_element, style_attribute, smil_override, animation_declarations, rule_inclusion, applicable_declarations, context, ) .collect_all(); } /// Given an id, returns whether there might be any rules for that id in any /// of our rule maps. #[inline] pub fn may_have_rules_for_id(&self, id: &WeakAtom, element: E) -> bool where E: TElement, { // If id needs to be compared case-insensitively, the logic below // wouldn't work. Just conservatively assume it may have such rules. match self.quirks_mode().classes_and_ids_case_sensitivity() { CaseSensitivity::AsciiCaseInsensitive => return true, CaseSensitivity::CaseSensitive => {}, } self.any_applicable_rule_data(element, |data| data.mapped_ids.contains(id)) } /// Returns the registered `@keyframes` animation for the specified name. #[inline] pub fn get_animation<'a, E>(&'a self, name: &Atom, element: E) -> Option<&'a KeyframesAnimation> where E: TElement + 'a, { macro_rules! try_find_in { ($data:expr) => { if let Some(animation) = $data.animations.get(name) { return Some(animation); } }; } // NOTE(emilio): We implement basically what Blink does for this case, // which is [1] as of this writing. // // See [2] for the spec discussion about what to do about this. WebKit's // behavior makes a bit more sense off-hand, but it's way more complex // to implement, and it makes value computation having to thread around // the cascade level, which is not great. Also, it breaks if you inherit // animation-name from an element in a different tree. // // See [3] for the bug to implement whatever gets resolved, and related // bugs for a bit more context. // // FIXME(emilio): This should probably work for pseudo-elements (i.e., // use rule_hash_target().shadow_root() instead of // element.shadow_root()). // // [1]: https://cs.chromium.org/chromium/src/third_party/blink/renderer/ // core/css/resolver/style_resolver.cc?l=1267&rcl=90f9f8680ebb4a87d177f3b0833372ae4e0c88d8 // [2]: https://github.com/w3c/csswg-drafts/issues/1995 // [3]: https://bugzil.la/1458189 if let Some(shadow) = element.shadow_root() { if let Some(data) = shadow.style_data() { try_find_in!(data); } } // Use the same rules to look for the containing host as we do for rule // collection. if let Some(shadow) = containing_shadow_ignoring_svg_use(element) { if let Some(data) = shadow.style_data() { try_find_in!(data); } } else { try_find_in!(self.cascade_data.author); } try_find_in!(self.cascade_data.user); try_find_in!(self.cascade_data.user_agent.cascade_data); None } /// Computes the match results of a given element against the set of /// revalidation selectors. pub fn match_revalidation_selectors( &self, element: E, bloom: Option<&BloomFilter>, nth_index_cache: &mut NthIndexCache, needs_selector_flags: NeedsSelectorFlags, ) -> SmallBitVec where E: TElement, { // NB: `MatchingMode` doesn't really matter, given we don't share style // between pseudos. let mut matching_context = MatchingContext::new( MatchingMode::Normal, bloom, Some(nth_index_cache), self.quirks_mode, needs_selector_flags, ); // Note that, by the time we're revalidating, we're guaranteed that the // candidate and the entry have the same id, classes, and local name. // This means we're guaranteed to get the same rulehash buckets for all // the lookups, which means that the bitvecs are comparable. We verify // this in the caller by asserting that the bitvecs are same-length. let mut results = SmallBitVec::new(); let matches_document_rules = element.each_applicable_non_document_style_rule_data(|data, host| { matching_context.with_shadow_host(Some(host), |matching_context| { data.selectors_for_cache_revalidation.lookup( element, self.quirks_mode, |selector_and_hashes| { results.push(matches_selector( &selector_and_hashes.selector, selector_and_hashes.selector_offset, Some(&selector_and_hashes.hashes), &element, matching_context, )); true }, ); }) }); for (data, origin) in self.cascade_data.iter_origins() { if origin == Origin::Author && !matches_document_rules { continue; } data.selectors_for_cache_revalidation.lookup( element, self.quirks_mode, |selector_and_hashes| { results.push(matches_selector( &selector_and_hashes.selector, selector_and_hashes.selector_offset, Some(&selector_and_hashes.hashes), &element, &mut matching_context, )); true }, ); } results } /// Computes styles for a given declaration with parent_style. /// /// FIXME(emilio): the lack of pseudo / cascade flags look quite dubious, /// hopefully this is only used for some canvas font stuff. /// /// TODO(emilio): The type parameter can go away when /// https://github.com/rust-lang/rust/issues/35121 is fixed. pub fn compute_for_declarations( &self, guards: &StylesheetGuards, parent_style: &ComputedValues, declarations: Arc>, ) -> Arc where E: TElement, { let block = declarations.read_with(guards.author); // We don't bother inserting these declarations in the rule tree, since // it'd be quite useless and slow. // // TODO(emilio): Now that we fixed bug 1493420, we should consider // reversing this as it shouldn't be slow anymore, and should avoid // generating two instantiations of apply_declarations. properties::apply_declarations::( &self.device, /* pseudo = */ None, self.rule_tree.root(), guards, block.declaration_importance_iter().map(|(declaration, _)| { ( declaration, CascadePriority::new( CascadeLevel::same_tree_author_normal(), LayerOrder::root(), ), ) }), /* originating_element_style */ None, Some(parent_style), Some(parent_style), Some(parent_style), CascadeMode::Unvisited { visited_rules: None, }, Default::default(), self.quirks_mode, /* rule_cache = */ None, &mut Default::default(), /* element = */ None, ) } /// Accessor for a shared reference to the device. #[inline] pub fn device(&self) -> &Device { &self.device } /// Accessor for a mutable reference to the device. #[inline] pub fn device_mut(&mut self) -> &mut Device { &mut self.device } /// Accessor for a shared reference to the rule tree. #[inline] pub fn rule_tree(&self) -> &RuleTree { &self.rule_tree } /// Measures heap usage. #[cfg(feature = "gecko")] pub fn add_size_of(&self, ops: &mut MallocSizeOfOps, sizes: &mut ServoStyleSetSizes) { self.cascade_data.add_size_of(ops, sizes); self.author_data_cache.add_size_of(ops, sizes); sizes.mRuleTree += self.rule_tree.size_of(ops); // We may measure other fields in the future if DMD says it's worth it. } /// Shutdown the static data that this module stores. pub fn shutdown() { let _entries = UA_CASCADE_DATA_CACHE.lock().unwrap().take_all(); } } /// A vector that is sorted in layer order. #[derive(Clone, Debug, Deref, MallocSizeOf)] pub struct LayerOrderedVec(Vec<(T, LayerId)>); impl Default for LayerOrderedVec { fn default() -> Self { Self(Default::default()) } } /// A map that is sorted in layer order. #[derive(Clone, Debug, Deref, MallocSizeOf)] pub struct LayerOrderedMap(PrecomputedHashMap>); impl Default for LayerOrderedMap { fn default() -> Self { Self(Default::default()) } } impl LayerOrderedVec { fn clear(&mut self) { self.0.clear(); } fn push(&mut self, v: T, id: LayerId) { self.0.push((v, id)); } fn sort(&mut self, layers: &[CascadeLayer]) { self.0 .sort_by_key(|&(_, ref id)| layers[id.0 as usize].order) } } impl LayerOrderedMap { fn clear(&mut self) { self.0.clear(); } fn try_insert(&mut self, name: Atom, v: T, id: LayerId) -> Result<(), AllocErr> { self.try_insert_with(name, v, id, |_, _| Ordering::Equal) } fn try_insert_with( &mut self, name: Atom, v: T, id: LayerId, cmp: impl Fn(&T, &T) -> Ordering, ) -> Result<(), AllocErr> { self.0.try_reserve(1)?; let vec = self.0.entry(name).or_default(); if let Some(&mut (ref mut val, ref last_id)) = vec.last_mut() { if *last_id == id { if cmp(&val, &v) != Ordering::Greater { *val = v; } return Ok(()); } } vec.push((v, id)); Ok(()) } fn sort(&mut self, layers: &[CascadeLayer]) { self.sort_with(layers, |_, _| Ordering::Equal) } fn sort_with(&mut self, layers: &[CascadeLayer], cmp: impl Fn(&T, &T) -> Ordering) { for (_, v) in self.0.iter_mut() { v.sort_by(|&(ref v1, ref id1), &(ref v2, ref id2)| { let order1 = layers[id1.0 as usize].order; let order2 = layers[id2.0 as usize].order; order1.cmp(&order2).then_with(|| cmp(v1, v2)) }) } } /// Get an entry on the LayerOrderedMap by name. pub fn get(&self, name: &Atom) -> Option<&T> { let vec = self.0.get(name)?; Some(&vec.last()?.0) } } /// Wrapper to allow better tracking of memory usage by page rule lists. /// /// This includes the layer ID for use with the named page table. #[derive(Clone, Debug, MallocSizeOf)] pub struct PageRuleData { /// Layer ID for sorting page rules after matching. pub layer: LayerId, /// Page rule #[ignore_malloc_size_of = "Arc, stylesheet measures as primary ref"] pub rule: Arc>, } /// Wrapper to allow better tracking of memory usage by page rule lists. /// /// This is meant to be used by the global page rule list which are already /// sorted by layer ID, since all global page rules are less specific than all /// named page rules that match a certain page. #[derive(Clone, Debug, Deref, MallocSizeOf)] pub struct PageRuleDataNoLayer( #[ignore_malloc_size_of = "Arc, stylesheet measures as primary ref"] pub Arc>, ); /// Stores page rules indexed by page names. #[derive(Clone, Debug, Default, MallocSizeOf)] pub struct PageRuleMap { /// Global, unnamed page rules. pub global: LayerOrderedVec, /// Named page rules pub named: PrecomputedHashMap>, } impl PageRuleMap { #[inline] fn clear(&mut self) { self.global.clear(); self.named.clear(); } } impl MallocShallowSizeOf for PageRuleMap { fn shallow_size_of(&self, ops: &mut MallocSizeOfOps) -> usize { self.global.size_of(ops) + self.named.shallow_size_of(ops) } } /// This struct holds data which users of Stylist may want to extract /// from stylesheets which can be done at the same time as updating. #[derive(Clone, Debug, Default)] #[cfg_attr(feature = "servo", derive(MallocSizeOf))] pub struct ExtraStyleData { /// A list of effective font-face rules and their origin. #[cfg(feature = "gecko")] pub font_faces: LayerOrderedVec>>, /// A list of effective font-feature-values rules. #[cfg(feature = "gecko")] pub font_feature_values: LayerOrderedVec>>, /// A list of effective font-palette-values rules. #[cfg(feature = "gecko")] pub font_palette_values: LayerOrderedVec>>, /// A map of effective counter-style rules. #[cfg(feature = "gecko")] pub counter_styles: LayerOrderedMap>>, /// A map of effective page rules. #[cfg(feature = "gecko")] pub pages: PageRuleMap, } #[cfg(feature = "gecko")] impl ExtraStyleData { /// Add the given @font-face rule. fn add_font_face(&mut self, rule: &Arc>, layer: LayerId) { self.font_faces.push(rule.clone(), layer); } /// Add the given @font-feature-values rule. fn add_font_feature_values( &mut self, rule: &Arc>, layer: LayerId, ) { self.font_feature_values.push(rule.clone(), layer); } /// Add the given @font-palette-values rule. fn add_font_palette_values( &mut self, rule: &Arc>, layer: LayerId, ) { self.font_palette_values.push(rule.clone(), layer); } /// Add the given @counter-style rule. fn add_counter_style( &mut self, guard: &SharedRwLockReadGuard, rule: &Arc>, layer: LayerId, ) -> Result<(), AllocErr> { let name = rule.read_with(guard).name().0.clone(); self.counter_styles.try_insert(name, rule.clone(), layer) } /// Add the given @page rule. fn add_page( &mut self, guard: &SharedRwLockReadGuard, rule: &Arc>, layer: LayerId, ) -> Result<(), AllocErr> { let page_rule = rule.read_with(guard); if page_rule.selectors.0.is_empty() { self.pages .global .push(PageRuleDataNoLayer(rule.clone()), layer); } else { // TODO: Handle pseudo-classes self.pages.named.try_reserve(page_rule.selectors.0.len())?; for name in page_rule.selectors.as_slice() { let vec = self.pages.named.entry(name.0 .0.clone()).or_default(); vec.try_reserve(1)?; vec.push(PageRuleData { layer, rule: rule.clone(), }); } } Ok(()) } fn sort_by_layer(&mut self, layers: &[CascadeLayer]) { self.font_faces.sort(layers); self.font_feature_values.sort(layers); self.font_palette_values.sort(layers); self.counter_styles.sort(layers); self.pages.global.sort(layers); } fn clear(&mut self) { #[cfg(feature = "gecko")] { self.font_faces.clear(); self.font_feature_values.clear(); self.font_palette_values.clear(); self.counter_styles.clear(); self.pages.clear(); } } } // Don't let a prefixed keyframes animation override // a non-prefixed one. fn compare_keyframes_in_same_layer(v1: &KeyframesAnimation, v2: &KeyframesAnimation) -> Ordering { if v1.vendor_prefix.is_some() == v2.vendor_prefix.is_some() { Ordering::Equal } else if v2.vendor_prefix.is_some() { Ordering::Greater } else { Ordering::Less } } /// An iterator over the different ExtraStyleData. pub struct ExtraStyleDataIterator<'a>(DocumentCascadeDataIter<'a>); impl<'a> Iterator for ExtraStyleDataIterator<'a> { type Item = (&'a ExtraStyleData, Origin); fn next(&mut self) -> Option { self.0.next().map(|d| (&d.0.extra_data, d.1)) } } #[cfg(feature = "gecko")] impl MallocSizeOf for ExtraStyleData { /// Measure heap usage. fn size_of(&self, ops: &mut MallocSizeOfOps) -> usize { let mut n = 0; n += self.font_faces.shallow_size_of(ops); n += self.font_feature_values.shallow_size_of(ops); n += self.font_palette_values.shallow_size_of(ops); n += self.counter_styles.shallow_size_of(ops); n += self.pages.shallow_size_of(ops); n } } /// SelectorMapEntry implementation for use in our revalidation selector map. #[cfg_attr(feature = "gecko", derive(MallocSizeOf))] #[derive(Clone, Debug)] struct RevalidationSelectorAndHashes { #[cfg_attr( feature = "gecko", ignore_malloc_size_of = "CssRules have primary refs, we measure there" )] selector: Selector, selector_offset: usize, hashes: AncestorHashes, } impl RevalidationSelectorAndHashes { fn new(selector: Selector, hashes: AncestorHashes) -> Self { let selector_offset = { // We basically want to check whether the first combinator is a // pseudo-element combinator. If it is, we want to use the offset // one past it. Otherwise, our offset is 0. let mut index = 0; let mut iter = selector.iter(); // First skip over the first ComplexSelector. // // We can't check what sort of what combinator we have until we do // that. for _ in &mut iter { index += 1; // Simple selector } match iter.next_sequence() { Some(Combinator::PseudoElement) => index + 1, // +1 for the combinator _ => 0, } }; RevalidationSelectorAndHashes { selector, selector_offset, hashes, } } } impl SelectorMapEntry for RevalidationSelectorAndHashes { fn selector(&self) -> SelectorIter { self.selector.iter_from(self.selector_offset) } } /// A selector visitor implementation that collects all the state the Stylist /// cares about a selector. struct StylistSelectorVisitor<'a> { /// Whether we've past the rightmost compound selector, not counting /// pseudo-elements. passed_rightmost_selector: bool, /// Whether the selector needs revalidation for the style sharing cache. needs_revalidation: &'a mut bool, /// The filter with all the id's getting referenced from rightmost /// selectors. mapped_ids: &'a mut PrecomputedHashSet, /// The filter with the local names of attributes there are selectors for. attribute_dependencies: &'a mut PrecomputedHashSet, /// All the states selectors in the page reference. state_dependencies: &'a mut ElementState, /// All the document states selectors in the page reference. document_state_dependencies: &'a mut DocumentState, } fn component_needs_revalidation( c: &Component, passed_rightmost_selector: bool, ) -> bool { match *c { Component::ID(_) => { // TODO(emilio): This could also check that the ID is not already in // the rule hash. In that case, we could avoid making this a // revalidation selector too. // // See https://bugzilla.mozilla.org/show_bug.cgi?id=1369611 passed_rightmost_selector }, Component::AttributeInNoNamespaceExists { .. } | Component::AttributeInNoNamespace { .. } | Component::AttributeOther(_) | Component::Empty | Component::Nth(_) | Component::NthOf(_) => true, Component::NonTSPseudoClass(ref p) => p.needs_cache_revalidation(), _ => false, } } impl<'a> SelectorVisitor for StylistSelectorVisitor<'a> { type Impl = SelectorImpl; fn visit_complex_selector(&mut self, combinator: Option) -> bool { *self.needs_revalidation = *self.needs_revalidation || combinator.map_or(false, |c| c.is_sibling()); // NOTE(emilio): this call happens before we visit any of the simple // selectors in the next ComplexSelector, so we can use this to skip // looking at them. self.passed_rightmost_selector = self.passed_rightmost_selector || !matches!(combinator, None | Some(Combinator::PseudoElement)); true } fn visit_selector_list(&mut self, list: &[Selector]) -> bool { for selector in list { let mut nested = StylistSelectorVisitor { passed_rightmost_selector: false, needs_revalidation: &mut *self.needs_revalidation, attribute_dependencies: &mut *self.attribute_dependencies, state_dependencies: &mut *self.state_dependencies, document_state_dependencies: &mut *self.document_state_dependencies, mapped_ids: &mut *self.mapped_ids, }; let _ret = selector.visit(&mut nested); debug_assert!(_ret, "We never return false"); } true } fn visit_attribute_selector( &mut self, _ns: &NamespaceConstraint<&Namespace>, name: &LocalName, lower_name: &LocalName, ) -> bool { self.attribute_dependencies.insert(name.clone()); self.attribute_dependencies.insert(lower_name.clone()); true } fn visit_simple_selector(&mut self, s: &Component) -> bool { *self.needs_revalidation = *self.needs_revalidation || component_needs_revalidation(s, self.passed_rightmost_selector); match *s { Component::NonTSPseudoClass(ref p) => { self.state_dependencies.insert(p.state_flag()); self.document_state_dependencies .insert(p.document_state_flag()); }, Component::ID(ref id) if !self.passed_rightmost_selector => { // We want to stop storing mapped ids as soon as we've moved off // the rightmost ComplexSelector that is not a pseudo-element. // // That can be detected by a visit_complex_selector call with a // combinator other than None and PseudoElement. // // Importantly, this call happens before we visit any of the // simple selectors in that ComplexSelector. // // NOTE(emilio): See the comment regarding on when this may // break in visit_complex_selector. self.mapped_ids.insert(id.0.clone()); }, _ => {}, } true } } /// A set of rules for element and pseudo-elements. #[derive(Clone, Debug, Default, MallocSizeOf)] struct GenericElementAndPseudoRules { /// Rules from stylesheets at this `CascadeData`'s origin. element_map: Map, /// Rules from stylesheets at this `CascadeData`'s origin that correspond /// to a given pseudo-element. /// /// FIXME(emilio): There are a bunch of wasted entries here in practice. /// Figure out a good way to do a `PerNonAnonBox` and `PerAnonBox` (for /// `precomputed_values_for_pseudo`) without duplicating a lot of code. pseudos_map: PerPseudoElementMap>, } impl GenericElementAndPseudoRules { #[inline(always)] fn for_insertion(&mut self, pseudo_element: Option<&PseudoElement>) -> &mut Map { debug_assert!( pseudo_element.map_or(true, |pseudo| { !pseudo.is_precomputed() && !pseudo.is_unknown_webkit_pseudo_element() }), "Precomputed pseudos should end up in precomputed_pseudo_element_decls, \ and unknown webkit pseudos should be discarded before getting here" ); match pseudo_element { None => &mut self.element_map, Some(pseudo) => self .pseudos_map .get_or_insert_with(pseudo, || Box::new(Default::default())), } } #[inline] fn rules(&self, pseudo: Option<&PseudoElement>) -> Option<&Map> { match pseudo { Some(pseudo) => self.pseudos_map.get(pseudo).map(|p| &**p), None => Some(&self.element_map), } } /// Measures heap usage. #[cfg(feature = "gecko")] fn add_size_of(&self, ops: &mut MallocSizeOfOps, sizes: &mut ServoStyleSetSizes) { sizes.mElementAndPseudosMaps += self.element_map.size_of(ops); for elem in self.pseudos_map.iter() { if let Some(ref elem) = *elem { sizes.mElementAndPseudosMaps += as MallocSizeOf>::size_of(elem, ops); } } } } type ElementAndPseudoRules = GenericElementAndPseudoRules>; type PartMap = PrecomputedHashMap>; type PartElementAndPseudoRules = GenericElementAndPseudoRules; impl ElementAndPseudoRules { // TODO(emilio): Should we retain storage of these? fn clear(&mut self) { self.element_map.clear(); self.pseudos_map.clear(); } fn shrink_if_needed(&mut self) { self.element_map.shrink_if_needed(); for pseudo in self.pseudos_map.iter_mut() { if let Some(ref mut pseudo) = pseudo { pseudo.shrink_if_needed(); } } } } impl PartElementAndPseudoRules { // TODO(emilio): Should we retain storage of these? fn clear(&mut self) { self.element_map.clear(); self.pseudos_map.clear(); } } /// The id of a given layer, a sequentially-increasing identifier. #[derive(Clone, Copy, Debug, Eq, MallocSizeOf, PartialEq, PartialOrd, Ord)] pub struct LayerId(u16); impl LayerId { /// The id of the root layer. pub const fn root() -> Self { Self(0) } } #[derive(Clone, Debug, MallocSizeOf)] struct CascadeLayer { id: LayerId, order: LayerOrder, children: Vec, } impl CascadeLayer { const fn root() -> Self { Self { id: LayerId::root(), order: LayerOrder::root(), children: vec![], } } } /// The id of a given container condition, a sequentially-increasing identifier /// for a given style set. #[derive(Clone, Copy, Debug, Eq, MallocSizeOf, PartialEq, PartialOrd, Ord)] pub struct ContainerConditionId(u16); impl ContainerConditionId { /// A special id that represents no container rule all. pub const fn none() -> Self { Self(0) } } #[derive(Clone, Debug, MallocSizeOf)] struct ContainerConditionReference { parent: ContainerConditionId, #[ignore_malloc_size_of = "Arc"] condition: Option>, } impl ContainerConditionReference { const fn none() -> Self { Self { parent: ContainerConditionId::none(), condition: None, } } } /// Data resulting from performing the CSS cascade that is specific to a given /// origin. /// /// FIXME(emilio): Consider renaming and splitting in `CascadeData` and /// `InvalidationData`? That'd make `clear_cascade_data()` clearer. #[derive(Debug, Clone, MallocSizeOf)] pub struct CascadeData { /// The data coming from normal style rules that apply to elements at this /// cascade level. normal_rules: ElementAndPseudoRules, /// The `:host` pseudo rules that are the rightmost selector (without /// accounting for pseudo-elements). host_rules: Option>, /// The data coming from ::slotted() pseudo-element rules. /// /// We need to store them separately because an element needs to match /// ::slotted() pseudo-element rules in different shadow roots. /// /// In particular, we need to go through all the style data in all the /// containing style scopes starting from the closest assigned slot. slotted_rules: Option>, /// The data coming from ::part() pseudo-element rules. /// /// We need to store them separately because an element needs to match /// ::part() pseudo-element rules in different shadow roots. part_rules: Option>, /// The invalidation map for these rules. invalidation_map: InvalidationMap, /// The attribute local names that appear in attribute selectors. Used /// to avoid taking element snapshots when an irrelevant attribute changes. /// (We don't bother storing the namespace, since namespaced attributes are /// rare.) attribute_dependencies: PrecomputedHashSet, /// The element state bits that are relied on by selectors. Like /// `attribute_dependencies`, this is used to avoid taking element snapshots /// when an irrelevant element state bit changes. state_dependencies: ElementState, /// The document state bits that are relied on by selectors. This is used /// to tell whether we need to restyle the entire document when a document /// state bit changes. document_state_dependencies: DocumentState, /// The ids that appear in the rightmost complex selector of selectors (and /// hence in our selector maps). Used to determine when sharing styles is /// safe: we disallow style sharing for elements whose id matches this /// filter, and hence might be in one of our selector maps. mapped_ids: PrecomputedHashSet, /// Selectors that require explicit cache revalidation (i.e. which depend /// on state that is not otherwise visible to the cache, like attributes or /// tree-structural state like child index and pseudos). #[ignore_malloc_size_of = "Arc"] selectors_for_cache_revalidation: SelectorMap, /// A map with all the animations at this `CascadeData`'s origin, indexed /// by name. animations: LayerOrderedMap, /// A map from cascade layer name to layer order. layer_id: FxHashMap, /// The list of cascade layers, indexed by their layer id. layers: SmallVec<[CascadeLayer; 1]>, /// The list of container conditions, indexed by their id. container_conditions: SmallVec<[ContainerConditionReference; 1]>, /// Effective media query results cached from the last rebuild. effective_media_query_results: EffectiveMediaQueryResults, /// Extra data, like different kinds of rules, etc. extra_data: ExtraStyleData, /// A monotonically increasing counter to represent the order on which a /// style rule appears in a stylesheet, needed to sort them by source order. rules_source_order: u32, /// The total number of selectors. num_selectors: usize, /// The total number of declarations. num_declarations: usize, } impl CascadeData { /// Creates an empty `CascadeData`. pub fn new() -> Self { Self { normal_rules: ElementAndPseudoRules::default(), host_rules: None, slotted_rules: None, part_rules: None, invalidation_map: InvalidationMap::new(), attribute_dependencies: PrecomputedHashSet::default(), state_dependencies: ElementState::empty(), document_state_dependencies: DocumentState::empty(), mapped_ids: PrecomputedHashSet::default(), // NOTE: We disable attribute bucketing for revalidation because we // rely on the buckets to match, but we don't want to just not share // style across elements with different attributes. // // An alternative to this would be to perform a style sharing check // like may_match_different_id_rules which would check that the // attribute buckets match on all scopes. But that seems // somewhat gnarly. selectors_for_cache_revalidation: SelectorMap::new_without_attribute_bucketing(), animations: Default::default(), layer_id: Default::default(), layers: smallvec::smallvec![CascadeLayer::root()], container_conditions: smallvec::smallvec![ContainerConditionReference::none()], extra_data: ExtraStyleData::default(), effective_media_query_results: EffectiveMediaQueryResults::new(), rules_source_order: 0, num_selectors: 0, num_declarations: 0, } } /// Rebuild the cascade data from a given SheetCollection, incrementally if /// possible. pub fn rebuild<'a, S>( &mut self, device: &Device, quirks_mode: QuirksMode, collection: SheetCollectionFlusher, guard: &SharedRwLockReadGuard, ) -> Result<(), AllocErr> where S: StylesheetInDocument + PartialEq + 'static, { if !collection.dirty() { return Ok(()); } let validity = collection.data_validity(); match validity { DataValidity::Valid => {}, DataValidity::CascadeInvalid => self.clear_cascade_data(), DataValidity::FullyInvalid => self.clear(), } let mut result = Ok(()); collection.each(|stylesheet, rebuild_kind| { result = self.add_stylesheet( device, quirks_mode, stylesheet, guard, rebuild_kind, /* precomputed_pseudo_element_decls = */ None, ); result.is_ok() }); self.did_finish_rebuild(); result } /// Returns the invalidation map. pub fn invalidation_map(&self) -> &InvalidationMap { &self.invalidation_map } /// Returns whether the given ElementState bit is relied upon by a selector /// of some rule. #[inline] pub fn has_state_dependency(&self, state: ElementState) -> bool { self.state_dependencies.intersects(state) } /// Returns whether the given attribute might appear in an attribute /// selector of some rule. #[inline] pub fn might_have_attribute_dependency(&self, local_name: &LocalName) -> bool { self.attribute_dependencies.contains(local_name) } /// Returns the normal rule map for a given pseudo-element. #[inline] pub fn normal_rules(&self, pseudo: Option<&PseudoElement>) -> Option<&SelectorMap> { self.normal_rules.rules(pseudo) } /// Returns the host pseudo rule map for a given pseudo-element. #[inline] pub fn host_rules(&self, pseudo: Option<&PseudoElement>) -> Option<&SelectorMap> { self.host_rules.as_ref().and_then(|d| d.rules(pseudo)) } /// Whether there's any host rule that could match in this scope. pub fn any_host_rules(&self) -> bool { self.host_rules.is_some() } /// Returns the slotted rule map for a given pseudo-element. #[inline] pub fn slotted_rules(&self, pseudo: Option<&PseudoElement>) -> Option<&SelectorMap> { self.slotted_rules.as_ref().and_then(|d| d.rules(pseudo)) } /// Whether there's any ::slotted rule that could match in this scope. pub fn any_slotted_rule(&self) -> bool { self.slotted_rules.is_some() } /// Returns the parts rule map for a given pseudo-element. #[inline] pub fn part_rules(&self, pseudo: Option<&PseudoElement>) -> Option<&PartMap> { self.part_rules.as_ref().and_then(|d| d.rules(pseudo)) } /// Whether there's any ::part rule that could match in this scope. pub fn any_part_rule(&self) -> bool { self.part_rules.is_some() } #[inline] fn layer_order_for(&self, id: LayerId) -> LayerOrder { self.layers[id.0 as usize].order } pub(crate) fn container_condition_matches( &self, mut id: ContainerConditionId, stylist: &Stylist, element: E, context: &mut MatchingContext, ) -> bool where E: TElement, { loop { let condition_ref = &self.container_conditions[id.0 as usize]; let condition = match condition_ref.condition { None => return true, Some(ref c) => c, }; let matches = condition .matches( stylist.device(), element, context.extra_data.originating_element_style, &mut context.extra_data.cascade_input_flags, ) .to_bool(/* unknown = */ false); if !matches { return false; } id = condition_ref.parent; } } fn did_finish_rebuild(&mut self) { self.shrink_maps_if_needed(); self.compute_layer_order(); } fn shrink_maps_if_needed(&mut self) { self.normal_rules.shrink_if_needed(); if let Some(ref mut host_rules) = self.host_rules { host_rules.shrink_if_needed(); } if let Some(ref mut slotted_rules) = self.slotted_rules { slotted_rules.shrink_if_needed(); } self.invalidation_map.shrink_if_needed(); self.attribute_dependencies.shrink_if_needed(); self.mapped_ids.shrink_if_needed(); self.layer_id.shrink_if_needed(); self.selectors_for_cache_revalidation.shrink_if_needed(); } fn compute_layer_order(&mut self) { debug_assert_ne!( self.layers.len(), 0, "There should be at least the root layer!" ); if self.layers.len() == 1 { return; // Nothing to do } let (first, remaining) = self.layers.split_at_mut(1); let root = &mut first[0]; let mut order = LayerOrder::first(); compute_layer_order_for_subtree(root, remaining, &mut order); // NOTE(emilio): This is a bit trickier than it should to avoid having // to clone() around layer indices. fn compute_layer_order_for_subtree( parent: &mut CascadeLayer, remaining_layers: &mut [CascadeLayer], order: &mut LayerOrder, ) { for child in parent.children.iter() { debug_assert!( parent.id < *child, "Children are always registered after parents" ); let child_index = (child.0 - parent.id.0 - 1) as usize; let (first, remaining) = remaining_layers.split_at_mut(child_index + 1); let child = &mut first[child_index]; compute_layer_order_for_subtree(child, remaining, order); } if parent.id != LayerId::root() { parent.order = *order; order.inc(); } } self.extra_data.sort_by_layer(&self.layers); self.animations .sort_with(&self.layers, compare_keyframes_in_same_layer); } /// Collects all the applicable media query results into `results`. /// /// This duplicates part of the logic in `add_stylesheet`, which is /// a bit unfortunate. /// /// FIXME(emilio): With a bit of smartness in /// `media_feature_affected_matches`, we could convert /// `EffectiveMediaQueryResults` into a vector without too much effort. fn collect_applicable_media_query_results_into( device: &Device, stylesheet: &S, guard: &SharedRwLockReadGuard, results: &mut Vec, contents_list: &mut StyleSheetContentList, ) where S: StylesheetInDocument + 'static, { if !stylesheet.enabled() || !stylesheet.is_effective_for_device(device, guard) { return; } debug!(" + {:?}", stylesheet); let contents = stylesheet.contents(); results.push(contents.to_media_list_key()); // Safety: StyleSheetContents are reference-counted with Arc. contents_list.push(StylesheetContentsPtr(unsafe { Arc::from_raw_addrefed(contents) })); for rule in stylesheet.effective_rules(device, guard) { match *rule { CssRule::Import(ref lock) => { let import_rule = lock.read_with(guard); debug!(" + {:?}", import_rule.stylesheet.media(guard)); results.push(import_rule.to_media_list_key()); }, CssRule::Media(ref lock) => { let media_rule = lock.read_with(guard); debug!(" + {:?}", media_rule.media_queries.read_with(guard)); results.push(media_rule.to_media_list_key()); }, _ => {}, } } } fn add_rule_list( &mut self, rules: std::slice::Iter<'_, CssRule>, device: &Device, quirks_mode: QuirksMode, stylesheet: &S, guard: &SharedRwLockReadGuard, rebuild_kind: SheetRebuildKind, containing_rule_state: &mut ContainingRuleState, mut precomputed_pseudo_element_decls: Option<&mut PrecomputedPseudoElementDeclarations>, ) -> Result<(), AllocErr> where S: StylesheetInDocument + 'static, { for rule in rules { // Handle leaf rules first, as those are by far the most common // ones, and are always effective, so we can skip some checks. let mut handled = true; match *rule { CssRule::Style(ref locked) => { let style_rule = locked.read_with(&guard); self.num_declarations += style_rule.block.read_with(&guard).len(); for selector in &style_rule.selectors.0 { self.num_selectors += 1; let pseudo_element = selector.pseudo_element(); if let Some(pseudo) = pseudo_element { if pseudo.is_precomputed() { debug_assert!(selector.is_universal()); debug_assert_eq!(stylesheet.contents().origin, Origin::UserAgent); debug_assert_eq!(containing_rule_state.layer_id, LayerId::root()); precomputed_pseudo_element_decls .as_mut() .expect("Expected precomputed declarations for the UA level") .get_or_insert_with(pseudo, Vec::new) .push(ApplicableDeclarationBlock::new( StyleSource::from_rule(locked.clone()), self.rules_source_order, CascadeLevel::UANormal, selector.specificity(), LayerOrder::root(), )); continue; } if pseudo.is_unknown_webkit_pseudo_element() { continue; } } let hashes = AncestorHashes::new(&selector, quirks_mode); let rule = Rule::new( selector.clone(), hashes, locked.clone(), self.rules_source_order, containing_rule_state.layer_id, containing_rule_state.container_condition_id, ); if rebuild_kind.should_rebuild_invalidation() { self.invalidation_map.note_selector(selector, quirks_mode)?; let mut needs_revalidation = false; let mut visitor = StylistSelectorVisitor { needs_revalidation: &mut needs_revalidation, passed_rightmost_selector: false, attribute_dependencies: &mut self.attribute_dependencies, state_dependencies: &mut self.state_dependencies, document_state_dependencies: &mut self.document_state_dependencies, mapped_ids: &mut self.mapped_ids, }; rule.selector.visit(&mut visitor); if needs_revalidation { self.selectors_for_cache_revalidation.insert( RevalidationSelectorAndHashes::new( rule.selector.clone(), rule.hashes.clone(), ), quirks_mode, )?; } } // Part is special, since given it doesn't have any // selectors inside, it's not worth using a whole // SelectorMap for it. if let Some(parts) = selector.parts() { // ::part() has all semantics, so we just need to // put any of them in the selector map. // // We choose the last one quite arbitrarily, // expecting it's slightly more likely to be more // specific. let map = self .part_rules .get_or_insert_with(|| Box::new(Default::default())) .for_insertion(pseudo_element); map.try_reserve(1)?; let vec = map.entry(parts.last().unwrap().clone().0).or_default(); vec.try_reserve(1)?; vec.push(rule); } else { // NOTE(emilio): It's fine to look at :host and then at // ::slotted(..), since :host::slotted(..) could never // possibly match, as is not a valid shadow host. let rules = if selector.is_featureless_host_selector_or_pseudo_element() { self.host_rules .get_or_insert_with(|| Box::new(Default::default())) } else if selector.is_slotted() { self.slotted_rules .get_or_insert_with(|| Box::new(Default::default())) } else { &mut self.normal_rules } .for_insertion(pseudo_element); rules.insert(rule, quirks_mode)?; } } self.rules_source_order += 1; }, CssRule::Keyframes(ref keyframes_rule) => { debug!("Found valid keyframes rule: {:?}", *keyframes_rule); let keyframes_rule = keyframes_rule.read_with(guard); let name = keyframes_rule.name.as_atom().clone(); let animation = KeyframesAnimation::from_keyframes( &keyframes_rule.keyframes, keyframes_rule.vendor_prefix.clone(), guard, ); self.animations.try_insert_with( name, animation, containing_rule_state.layer_id, compare_keyframes_in_same_layer, )?; }, #[cfg(feature = "gecko")] CssRule::FontFace(ref rule) => { // NOTE(emilio): We don't care about container_condition_id // because: // // Global, name-defining at-rules such as @keyframes or // @font-face or @layer that are defined inside container // queries are not constrained by the container query // conditions. // // https://drafts.csswg.org/css-contain-3/#container-rule // (Same elsewhere) self.extra_data .add_font_face(rule, containing_rule_state.layer_id); }, #[cfg(feature = "gecko")] CssRule::FontFeatureValues(ref rule) => { self.extra_data .add_font_feature_values(rule, containing_rule_state.layer_id); }, #[cfg(feature = "gecko")] CssRule::FontPaletteValues(ref rule) => { self.extra_data .add_font_palette_values(rule, containing_rule_state.layer_id); }, #[cfg(feature = "gecko")] CssRule::CounterStyle(ref rule) => { self.extra_data.add_counter_style( guard, rule, containing_rule_state.layer_id, )?; }, #[cfg(feature = "gecko")] CssRule::Page(ref rule) => { self.extra_data .add_page(guard, rule, containing_rule_state.layer_id)?; }, CssRule::Viewport(..) => {}, _ => { handled = false; }, } if handled { // Assert that there are no children, and that the rule is // effective. if cfg!(debug_assertions) { let mut effective = false; let children = EffectiveRulesIterator::children( rule, device, quirks_mode, guard, &mut effective, ); debug_assert!(children.is_none()); debug_assert!(effective); } continue; } let mut effective = false; let children = EffectiveRulesIterator::children(rule, device, quirks_mode, guard, &mut effective); if !effective { continue; } fn maybe_register_layer(data: &mut CascadeData, layer: &LayerName) -> LayerId { // TODO: Measure what's more common / expensive, if // layer.clone() or the double hash lookup in the insert // case. if let Some(id) = data.layer_id.get(layer) { return *id; } let id = LayerId(data.layers.len() as u16); let parent_layer_id = if layer.layer_names().len() > 1 { let mut parent = layer.clone(); parent.0.pop(); *data .layer_id .get_mut(&parent) .expect("Parent layers should be registered before child layers") } else { LayerId::root() }; data.layers[parent_layer_id.0 as usize].children.push(id); data.layers.push(CascadeLayer { id, // NOTE(emilio): Order is evaluated after rebuild in // compute_layer_order. order: LayerOrder::first(), children: vec![], }); data.layer_id.insert(layer.clone(), id); id } fn maybe_register_layers( data: &mut CascadeData, name: Option<&LayerName>, containing_rule_state: &mut ContainingRuleState, ) { let anon_name; let name = match name { Some(name) => name, None => { anon_name = LayerName::new_anonymous(); &anon_name }, }; for name in name.layer_names() { containing_rule_state.layer_name.0.push(name.clone()); containing_rule_state.layer_id = maybe_register_layer(data, &containing_rule_state.layer_name); } debug_assert_ne!(containing_rule_state.layer_id, LayerId::root()); } let saved_containing_rule_state = containing_rule_state.save(); match *rule { CssRule::Import(ref lock) => { let import_rule = lock.read_with(guard); if rebuild_kind.should_rebuild_invalidation() { self.effective_media_query_results .saw_effective(import_rule); } if let Some(ref layer) = import_rule.layer { maybe_register_layers(self, layer.name.as_ref(), containing_rule_state); } }, CssRule::Media(ref lock) => { if rebuild_kind.should_rebuild_invalidation() { let media_rule = lock.read_with(guard); self.effective_media_query_results.saw_effective(media_rule); } }, CssRule::LayerBlock(ref lock) => { let layer_rule = lock.read_with(guard); maybe_register_layers(self, layer_rule.name.as_ref(), containing_rule_state); }, CssRule::LayerStatement(ref lock) => { let layer_rule = lock.read_with(guard); for name in &*layer_rule.names { maybe_register_layers(self, Some(name), containing_rule_state); // Register each layer individually. containing_rule_state.restore(&saved_containing_rule_state); } }, CssRule::Container(ref lock) => { let container_rule = lock.read_with(guard); let id = ContainerConditionId(self.container_conditions.len() as u16); self.container_conditions.push(ContainerConditionReference { parent: containing_rule_state.container_condition_id, condition: Some(container_rule.condition.clone()), }); containing_rule_state.container_condition_id = id; }, // We don't care about any other rule. _ => {}, } if let Some(children) = children { self.add_rule_list( children, device, quirks_mode, stylesheet, guard, rebuild_kind, containing_rule_state, precomputed_pseudo_element_decls.as_deref_mut(), )?; } containing_rule_state.restore(&saved_containing_rule_state); } Ok(()) } // Returns Err(..) to signify OOM fn add_stylesheet( &mut self, device: &Device, quirks_mode: QuirksMode, stylesheet: &S, guard: &SharedRwLockReadGuard, rebuild_kind: SheetRebuildKind, mut precomputed_pseudo_element_decls: Option<&mut PrecomputedPseudoElementDeclarations>, ) -> Result<(), AllocErr> where S: StylesheetInDocument + 'static, { if !stylesheet.enabled() || !stylesheet.is_effective_for_device(device, guard) { return Ok(()); } let contents = stylesheet.contents(); if rebuild_kind.should_rebuild_invalidation() { self.effective_media_query_results.saw_effective(contents); } let mut state = ContainingRuleState::default(); self.add_rule_list( contents.rules(guard).iter(), device, quirks_mode, stylesheet, guard, rebuild_kind, &mut state, precomputed_pseudo_element_decls.as_deref_mut(), )?; Ok(()) } /// Returns whether all the media-feature affected values matched before and /// match now in the given stylesheet. pub fn media_feature_affected_matches( &self, stylesheet: &S, guard: &SharedRwLockReadGuard, device: &Device, quirks_mode: QuirksMode, ) -> bool where S: StylesheetInDocument + 'static, { use crate::invalidation::media_queries::PotentiallyEffectiveMediaRules; let effective_now = stylesheet.is_effective_for_device(device, guard); let effective_then = self .effective_media_query_results .was_effective(stylesheet.contents()); if effective_now != effective_then { debug!( " > Stylesheet {:?} changed -> {}, {}", stylesheet.media(guard), effective_then, effective_now ); return false; } if !effective_now { return true; } let mut iter = stylesheet.iter_rules::(device, guard); while let Some(rule) = iter.next() { match *rule { CssRule::Style(..) | CssRule::Namespace(..) | CssRule::FontFace(..) | CssRule::Container(..) | CssRule::CounterStyle(..) | CssRule::Supports(..) | CssRule::Keyframes(..) | CssRule::Page(..) | CssRule::Viewport(..) | CssRule::Document(..) | CssRule::LayerBlock(..) | CssRule::LayerStatement(..) | CssRule::FontPaletteValues(..) | CssRule::FontFeatureValues(..) => { // Not affected by device changes. continue; }, CssRule::Import(ref lock) => { let import_rule = lock.read_with(guard); let effective_now = match import_rule.stylesheet.media(guard) { Some(m) => m.evaluate(device, quirks_mode), None => true, }; let effective_then = self .effective_media_query_results .was_effective(import_rule); if effective_now != effective_then { debug!( " > @import rule {:?} changed {} -> {}", import_rule.stylesheet.media(guard), effective_then, effective_now ); return false; } if !effective_now { iter.skip_children(); } }, CssRule::Media(ref lock) => { let media_rule = lock.read_with(guard); let mq = media_rule.media_queries.read_with(guard); let effective_now = mq.evaluate(device, quirks_mode); let effective_then = self.effective_media_query_results.was_effective(media_rule); if effective_now != effective_then { debug!( " > @media rule {:?} changed {} -> {}", mq, effective_then, effective_now ); return false; } if !effective_now { iter.skip_children(); } }, } } true } /// Clears the cascade data, but not the invalidation data. fn clear_cascade_data(&mut self) { self.normal_rules.clear(); if let Some(ref mut slotted_rules) = self.slotted_rules { slotted_rules.clear(); } if let Some(ref mut part_rules) = self.part_rules { part_rules.clear(); } if let Some(ref mut host_rules) = self.host_rules { host_rules.clear(); } self.animations.clear(); self.layer_id.clear(); self.layers.clear(); self.layers.push(CascadeLayer::root()); self.container_conditions.clear(); self.container_conditions .push(ContainerConditionReference::none()); self.extra_data.clear(); self.rules_source_order = 0; self.num_selectors = 0; self.num_declarations = 0; } fn clear(&mut self) { self.clear_cascade_data(); self.invalidation_map.clear(); self.attribute_dependencies.clear(); self.state_dependencies = ElementState::empty(); self.document_state_dependencies = DocumentState::empty(); self.mapped_ids.clear(); self.selectors_for_cache_revalidation.clear(); self.effective_media_query_results.clear(); } } impl CascadeDataCacheEntry for CascadeData { fn cascade_data(&self) -> &CascadeData { self } fn rebuild( device: &Device, quirks_mode: QuirksMode, collection: SheetCollectionFlusher, guard: &SharedRwLockReadGuard, old: &Self, ) -> Result, AllocErr> where S: StylesheetInDocument + PartialEq + 'static, { debug_assert!(collection.dirty(), "We surely need to do something?"); // If we're doing a full rebuild anyways, don't bother cloning the data. let mut updatable_entry = match collection.data_validity() { DataValidity::Valid | DataValidity::CascadeInvalid => old.clone(), DataValidity::FullyInvalid => Self::new(), }; updatable_entry.rebuild(device, quirks_mode, collection, guard)?; Ok(Arc::new(updatable_entry)) } #[cfg(feature = "gecko")] fn add_size_of(&self, ops: &mut MallocSizeOfOps, sizes: &mut ServoStyleSetSizes) { self.normal_rules.add_size_of(ops, sizes); if let Some(ref slotted_rules) = self.slotted_rules { slotted_rules.add_size_of(ops, sizes); } if let Some(ref part_rules) = self.part_rules { part_rules.add_size_of(ops, sizes); } if let Some(ref host_rules) = self.host_rules { host_rules.add_size_of(ops, sizes); } sizes.mInvalidationMap += self.invalidation_map.size_of(ops); sizes.mRevalidationSelectors += self.selectors_for_cache_revalidation.size_of(ops); sizes.mOther += self.animations.size_of(ops); sizes.mOther += self.effective_media_query_results.size_of(ops); sizes.mOther += self.extra_data.size_of(ops); } } impl Default for CascadeData { fn default() -> Self { CascadeData::new() } } /// A rule, that wraps a style rule, but represents a single selector of the /// rule. #[derive(Clone, Debug, MallocSizeOf)] pub struct Rule { /// The selector this struct represents. We store this and the /// any_{important,normal} booleans inline in the Rule to avoid /// pointer-chasing when gathering applicable declarations, which /// can ruin performance when there are a lot of rules. #[ignore_malloc_size_of = "CssRules have primary refs, we measure there"] pub selector: Selector, /// The ancestor hashes associated with the selector. pub hashes: AncestorHashes, /// The source order this style rule appears in. Note that we only use /// three bytes to store this value in ApplicableDeclarationsBlock, so /// we could repurpose that storage here if we needed to. pub source_order: u32, /// The current layer id of this style rule. pub layer_id: LayerId, /// The current @container rule id. pub container_condition_id: ContainerConditionId, /// The actual style rule. #[cfg_attr( feature = "gecko", ignore_malloc_size_of = "Secondary ref. Primary ref is in StyleRule under Stylesheet." )] #[cfg_attr(feature = "servo", ignore_malloc_size_of = "Arc")] pub style_rule: Arc>, } impl SelectorMapEntry for Rule { fn selector(&self) -> SelectorIter { self.selector.iter() } } impl Rule { /// Returns the specificity of the rule. pub fn specificity(&self) -> u32 { self.selector.specificity() } /// Turns this rule into an `ApplicableDeclarationBlock` for the given /// cascade level. pub fn to_applicable_declaration_block( &self, level: CascadeLevel, cascade_data: &CascadeData, ) -> ApplicableDeclarationBlock { let source = StyleSource::from_rule(self.style_rule.clone()); ApplicableDeclarationBlock::new( source, self.source_order, level, self.specificity(), cascade_data.layer_order_for(self.layer_id), ) } /// Creates a new Rule. pub fn new( selector: Selector, hashes: AncestorHashes, style_rule: Arc>, source_order: u32, layer_id: LayerId, container_condition_id: ContainerConditionId, ) -> Self { Rule { selector, hashes, style_rule, source_order, layer_id, container_condition_id, } } } // The size of this is critical to performance on the bloom-basic // microbenchmark. // When iterating over a large Rule array, we want to be able to fast-reject // selectors (with the inline hashes) with as few cache misses as possible. size_of_test!(Rule, 40); /// A function to be able to test the revalidation stuff. pub fn needs_revalidation_for_testing(s: &Selector) -> bool { let mut attribute_dependencies = Default::default(); let mut mapped_ids = Default::default(); let mut state_dependencies = ElementState::empty(); let mut document_state_dependencies = DocumentState::empty(); let mut needs_revalidation = false; let mut visitor = StylistSelectorVisitor { passed_rightmost_selector: false, needs_revalidation: &mut needs_revalidation, attribute_dependencies: &mut attribute_dependencies, state_dependencies: &mut state_dependencies, document_state_dependencies: &mut document_state_dependencies, mapped_ids: &mut mapped_ids, }; s.visit(&mut visitor); needs_revalidation }