/* 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/. */ //! Collects a series of applicable rules for a given element. use crate::applicable_declarations::{ApplicableDeclarationBlock, ApplicableDeclarationList}; use crate::dom::{TElement, TNode, TShadowRoot}; use crate::properties::{AnimationDeclarations, PropertyDeclarationBlock}; use crate::rule_tree::{CascadeLevel, ShadowCascadeOrder}; use crate::selector_map::SelectorMap; use crate::selector_parser::PseudoElement; use crate::shared_lock::Locked; use crate::stylesheets::{layer_rule::LayerOrder, Origin}; use crate::stylist::{AuthorStylesEnabled, CascadeData, Rule, RuleInclusion, Stylist}; use selectors::matching::{MatchingContext, MatchingMode}; use servo_arc::ArcBorrow; use smallvec::SmallVec; /// This is a bit of a hack so matches the rules of the enclosing /// tree. /// /// This function returns the containing shadow host ignoring shadow /// trees, since those match the enclosing tree's rules. /// /// Only a handful of places need to really care about this. This is not a /// problem for invalidation and that kind of stuff because they still don't /// match rules based on elements outside of the shadow tree, and because the /// subtrees are immutable and recreated each time the source tree /// changes. /// /// We historically allow cross-document to have these rules applied, /// but I think that's not great. Gecko is the only engine supporting that. /// /// See https://github.com/w3c/svgwg/issues/504 for the relevant spec /// discussion. #[inline] pub fn containing_shadow_ignoring_svg_use( element: E, ) -> Option<::ConcreteShadowRoot> { let mut shadow = element.containing_shadow()?; loop { let host = shadow.host(); let host_is_svg_use_element = host.is_svg_element() && host.local_name() == &**local_name!("use"); if !host_is_svg_use_element { return Some(shadow); } debug_assert!( shadow.style_data().is_none(), "We allow no stylesheets in subtrees" ); shadow = host.containing_shadow()?; } } /// An object that we use with all the intermediate state needed for the /// cascade. /// /// This is done basically to be able to organize the cascade in smaller /// functions, and be able to reason about it easily. pub struct RuleCollector<'a, 'b: 'a, E> where E: TElement, { element: E, rule_hash_target: E, stylist: &'a Stylist, pseudo_element: Option<&'a PseudoElement>, style_attribute: Option>>, smil_override: Option>>, animation_declarations: AnimationDeclarations, rule_inclusion: RuleInclusion, rules: &'a mut ApplicableDeclarationList, context: &'a mut MatchingContext<'b, E::Impl>, matches_user_and_content_rules: bool, matches_document_author_rules: bool, in_sort_scope: bool, } impl<'a, 'b: 'a, E> RuleCollector<'a, 'b, E> where E: TElement, { /// Trivially construct a new collector. pub fn new( stylist: &'a Stylist, element: E, pseudo_element: Option<&'a PseudoElement>, style_attribute: Option>>, smil_override: Option>>, animation_declarations: AnimationDeclarations, rule_inclusion: RuleInclusion, rules: &'a mut ApplicableDeclarationList, context: &'a mut MatchingContext<'b, E::Impl>, ) -> Self { // When we're matching with matching_mode = // `ForStatelessPseudoeElement`, the "target" for the rule hash is the // element itself, since it's what's generating the pseudo-element. let rule_hash_target = match context.matching_mode() { MatchingMode::ForStatelessPseudoElement => element, MatchingMode::Normal => element.rule_hash_target(), }; let matches_user_and_content_rules = rule_hash_target.matches_user_and_content_rules(); // Gecko definitely has pseudo-elements with style attributes, like // ::-moz-color-swatch. debug_assert!( cfg!(feature = "gecko") || style_attribute.is_none() || pseudo_element.is_none(), "Style attributes do not apply to pseudo-elements" ); debug_assert!(pseudo_element.map_or(true, |p| !p.is_precomputed())); Self { element, rule_hash_target, stylist, pseudo_element, style_attribute, smil_override, animation_declarations, rule_inclusion, context, rules, matches_user_and_content_rules, matches_document_author_rules: matches_user_and_content_rules, in_sort_scope: false, } } /// Sets up the state necessary to collect rules from a given DOM tree /// (either the document tree, or a shadow tree). /// /// All rules in the same tree need to be matched together, and this /// function takes care of sorting them by specificity and source order. #[inline] fn in_tree(&mut self, host: Option, f: impl FnOnce(&mut Self)) { debug_assert!(!self.in_sort_scope, "Nested sorting makes no sense"); let start = self.rules.len(); self.in_sort_scope = true; let old_host = self.context.current_host.take(); self.context.current_host = host.map(|e| e.opaque()); f(self); if start != self.rules.len() { self.rules[start..].sort_unstable_by_key(|block| { (block.layer_order(), block.specificity, block.source_order()) }); } self.context.current_host = old_host; self.in_sort_scope = false; } #[inline] fn in_shadow_tree(&mut self, host: E, f: impl FnOnce(&mut Self)) { self.in_tree(Some(host), f); } fn collect_stylist_rules(&mut self, origin: Origin) { let cascade_level = match origin { Origin::UserAgent => CascadeLevel::UANormal, Origin::User => CascadeLevel::UserNormal, Origin::Author => CascadeLevel::same_tree_author_normal(), }; let cascade_data = self.stylist.cascade_data().borrow_for_origin(origin); let map = match cascade_data.normal_rules(self.pseudo_element) { Some(m) => m, None => return, }; self.in_tree(None, |collector| { collector.collect_rules_in_map(map, cascade_level, cascade_data); }); } fn collect_user_agent_rules(&mut self) { self.collect_stylist_rules(Origin::UserAgent); } fn collect_user_rules(&mut self) { if !self.matches_user_and_content_rules { return; } self.collect_stylist_rules(Origin::User); } /// Presentational hints. /// /// These go before author rules, but after user rules, see: /// https://drafts.csswg.org/css-cascade/#preshint fn collect_presentational_hints(&mut self) { if self.pseudo_element.is_some() { return; } let length_before_preshints = self.rules.len(); self.element .synthesize_presentational_hints_for_legacy_attributes( self.context.visited_handling(), self.rules, ); if cfg!(debug_assertions) { if self.rules.len() != length_before_preshints { for declaration in &self.rules[length_before_preshints..] { assert_eq!(declaration.level(), CascadeLevel::PresHints); } } } } #[inline] fn collect_rules_in_list( &mut self, part_rules: &[Rule], cascade_level: CascadeLevel, cascade_data: &CascadeData, ) { debug_assert!(self.in_sort_scope, "Rules gotta be sorted"); SelectorMap::get_matching_rules( self.element, part_rules, &mut self.rules, &mut self.context, cascade_level, cascade_data, &self.stylist, ); } #[inline] fn collect_rules_in_map( &mut self, map: &SelectorMap, cascade_level: CascadeLevel, cascade_data: &CascadeData, ) { debug_assert!(self.in_sort_scope, "Rules gotta be sorted"); map.get_all_matching_rules( self.element, self.rule_hash_target, &mut self.rules, &mut self.context, cascade_level, cascade_data, &self.stylist, ); } /// Collects the rules for the ::slotted pseudo-element and the :host /// pseudo-class. fn collect_host_and_slotted_rules(&mut self) { let mut slots = SmallVec::<[_; 3]>::new(); let mut current = self.rule_hash_target.assigned_slot(); let mut shadow_cascade_order = ShadowCascadeOrder::for_outermost_shadow_tree(); while let Some(slot) = current { debug_assert!( self.matches_user_and_content_rules, "We should not slot NAC anywhere" ); slots.push(slot); current = slot.assigned_slot(); shadow_cascade_order.dec(); } self.collect_host_rules(shadow_cascade_order); // Match slotted rules in reverse order, so that the outer slotted rules // come before the inner rules (and thus have less priority). for slot in slots.iter().rev() { shadow_cascade_order.inc(); let shadow = slot.containing_shadow().unwrap(); let data = match shadow.style_data() { Some(d) => d, None => continue, }; let slotted_rules = match data.slotted_rules(self.pseudo_element) { Some(r) => r, None => continue, }; self.in_shadow_tree(shadow.host(), |collector| { let cascade_level = CascadeLevel::AuthorNormal { shadow_cascade_order, }; collector.collect_rules_in_map(slotted_rules, cascade_level, data); }); } } fn collect_rules_from_containing_shadow_tree(&mut self) { if !self.matches_user_and_content_rules { return; } let containing_shadow = containing_shadow_ignoring_svg_use(self.rule_hash_target); let containing_shadow = match containing_shadow { Some(s) => s, None => return, }; self.matches_document_author_rules = false; let cascade_data = match containing_shadow.style_data() { Some(c) => c, None => return, }; let cascade_level = CascadeLevel::same_tree_author_normal(); self.in_shadow_tree(containing_shadow.host(), |collector| { if let Some(map) = cascade_data.normal_rules(collector.pseudo_element) { collector.collect_rules_in_map(map, cascade_level, cascade_data); } // Collect rules from :host::part() and such let hash_target = collector.rule_hash_target; if !hash_target.has_part_attr() { return; } let part_rules = match cascade_data.part_rules(collector.pseudo_element) { Some(p) => p, None => return, }; hash_target.each_part(|part| { if let Some(part_rules) = part_rules.get(&part.0) { collector.collect_rules_in_list(part_rules, cascade_level, cascade_data); } }); }); } /// Collects the rules for the :host pseudo-class. fn collect_host_rules(&mut self, shadow_cascade_order: ShadowCascadeOrder) { let shadow = match self.rule_hash_target.shadow_root() { Some(s) => s, None => return, }; let style_data = match shadow.style_data() { Some(d) => d, None => return, }; let host_rules = match style_data.host_rules(self.pseudo_element) { Some(rules) => rules, None => return, }; let rule_hash_target = self.rule_hash_target; self.in_shadow_tree(rule_hash_target, |collector| { let cascade_level = CascadeLevel::AuthorNormal { shadow_cascade_order, }; collector.collect_rules_in_map(host_rules, cascade_level, style_data); }); } fn collect_document_author_rules(&mut self) { if !self.matches_document_author_rules { return; } self.collect_stylist_rules(Origin::Author); } fn collect_part_rules_from_outer_trees(&mut self) { if !self.rule_hash_target.has_part_attr() { return; } let mut inner_shadow = match self.rule_hash_target.containing_shadow() { Some(s) => s, None => return, }; let mut shadow_cascade_order = ShadowCascadeOrder::for_innermost_containing_tree(); let mut parts = SmallVec::<[_; 3]>::new(); self.rule_hash_target.each_part(|p| parts.push(p.clone())); loop { if parts.is_empty() { return; } let inner_shadow_host = inner_shadow.host(); let outer_shadow = inner_shadow_host.containing_shadow(); let cascade_data = match outer_shadow { Some(shadow) => shadow.style_data(), None => Some( self.stylist .cascade_data() .borrow_for_origin(Origin::Author), ), }; if let Some(cascade_data) = cascade_data { if let Some(part_rules) = cascade_data.part_rules(self.pseudo_element) { let containing_host = outer_shadow.map(|s| s.host()); let cascade_level = CascadeLevel::AuthorNormal { shadow_cascade_order, }; self.in_tree(containing_host, |collector| { for p in &parts { if let Some(part_rules) = part_rules.get(&p.0) { collector.collect_rules_in_list( part_rules, cascade_level, cascade_data, ); } } }); shadow_cascade_order.inc(); } } inner_shadow = match outer_shadow { Some(s) => s, None => break, // Nowhere to export to. }; let mut new_parts = SmallVec::new(); for part in &parts { inner_shadow_host.each_exported_part(part, |exported_part| { new_parts.push(exported_part.clone()); }); } parts = new_parts; } } fn collect_style_attribute(&mut self) { if let Some(sa) = self.style_attribute { self.rules .push(ApplicableDeclarationBlock::from_declarations( sa.clone_arc(), CascadeLevel::same_tree_author_normal(), LayerOrder::style_attribute(), )); } } fn collect_animation_rules(&mut self) { if let Some(so) = self.smil_override { self.rules .push(ApplicableDeclarationBlock::from_declarations( so.clone_arc(), CascadeLevel::SMILOverride, LayerOrder::root(), )); } // The animations sheet (CSS animations, script-generated // animations, and CSS transitions that are no longer tied to CSS // markup). if let Some(anim) = self.animation_declarations.animations.take() { self.rules .push(ApplicableDeclarationBlock::from_declarations( anim, CascadeLevel::Animations, LayerOrder::root(), )); } // The transitions sheet (CSS transitions that are tied to CSS // markup). if let Some(anim) = self.animation_declarations.transitions.take() { self.rules .push(ApplicableDeclarationBlock::from_declarations( anim, CascadeLevel::Transitions, LayerOrder::root(), )); } } /// Collects all the rules, leaving the result in `self.rules`. /// /// Note that `!important` rules are handled during rule tree insertion. pub fn collect_all(mut self) { self.collect_user_agent_rules(); self.collect_user_rules(); if self.rule_inclusion == RuleInclusion::DefaultOnly { return; } self.collect_presentational_hints(); // FIXME(emilio): Should the author styles enabled stuff avoid the // presentational hints from getting pushed? See bug 1505770. if self.stylist.author_styles_enabled() == AuthorStylesEnabled::No { return; } self.collect_host_and_slotted_rules(); self.collect_rules_from_containing_shadow_tree(); self.collect_document_author_rules(); self.collect_style_attribute(); self.collect_part_rules_from_outer_trees(); self.collect_animation_rules(); } }