/* 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/. */ //! Different checks done during the style sharing process in order to determine //! quickly whether it's worth to share style, and whether two different //! elements can indeed share the same style. use crate::bloom::StyleBloom; use crate::context::SharedStyleContext; use crate::dom::TElement; use crate::sharing::{StyleSharingCandidate, StyleSharingTarget}; use selectors::matching::SelectorCaches; /// Determines whether a target and a candidate have compatible parents for /// sharing. pub fn parents_allow_sharing( target: &mut StyleSharingTarget, candidate: &mut StyleSharingCandidate, ) -> bool where E: TElement, { // If the identity of the parent style isn't equal, we can't share. We check // this first, because the result is cached. if target.parent_style_identity() != candidate.parent_style_identity() { return false; } // Siblings can always share. let parent = target.inheritance_parent().unwrap(); let candidate_parent = candidate.element.inheritance_parent().unwrap(); if parent == candidate_parent { return true; } // If a parent element was already styled and we traversed past it without // restyling it, that may be because our clever invalidation logic was able // to prove that the styles of that element would remain unchanged despite // changes to the id or class attributes. However, style sharing relies in // the strong guarantee that all the classes and ids up the respective parent // chains are identical. As such, if we skipped styling for one (or both) of // the parents on this traversal, we can't share styles across cousins. // // This is a somewhat conservative check. We could tighten it by having the // invalidation logic explicitly flag elements for which it ellided styling. let parent_data = parent.borrow_data().unwrap(); let candidate_parent_data = candidate_parent.borrow_data().unwrap(); if !parent_data.safe_for_cousin_sharing() || !candidate_parent_data.safe_for_cousin_sharing() { return false; } true } /// Whether two elements have the same same style attribute (by pointer identity). pub fn have_same_style_attribute( target: &mut StyleSharingTarget, candidate: &mut StyleSharingCandidate, ) -> bool where E: TElement, { match (target.style_attribute(), candidate.style_attribute()) { (None, None) => true, (Some(_), None) | (None, Some(_)) => false, (Some(a), Some(b)) => &*a as *const _ == &*b as *const _, } } /// Whether two elements have the same same presentational attributes. pub fn have_same_presentational_hints( target: &mut StyleSharingTarget, candidate: &mut StyleSharingCandidate, ) -> bool where E: TElement, { target.pres_hints() == candidate.pres_hints() } /// Whether a given element has the same class attribute as a given candidate. /// /// We don't try to share style across elements with different class attributes. pub fn have_same_class( target: &mut StyleSharingTarget, candidate: &mut StyleSharingCandidate, ) -> bool where E: TElement, { target.class_list() == candidate.class_list() } /// Whether a given element has the same part attribute as a given candidate. /// /// We don't try to share style across elements with different part attributes. pub fn have_same_parts( target: &mut StyleSharingTarget, candidate: &mut StyleSharingCandidate, ) -> bool where E: TElement, { target.part_list() == candidate.part_list() } /// Whether a given element and a candidate match the same set of "revalidation" /// selectors. /// /// Revalidation selectors are those that depend on the DOM structure, like /// :first-child, etc, or on attributes that we don't check off-hand (pretty /// much every attribute selector except `id` and `class`. #[inline] pub fn revalidate( target: &mut StyleSharingTarget, candidate: &mut StyleSharingCandidate, shared_context: &SharedStyleContext, bloom: &StyleBloom, selector_caches: &mut SelectorCaches, ) -> bool where E: TElement, { let stylist = &shared_context.stylist; let for_element = target.revalidation_match_results(stylist, bloom, selector_caches); let for_candidate = candidate.revalidation_match_results(stylist, bloom, selector_caches); for_element == for_candidate } /// Whether a given element and a candidate share a set of scope activations /// for revalidation. #[inline] pub fn revalidate_scope( target: &mut StyleSharingTarget, candidate: &mut StyleSharingCandidate, shared_context: &SharedStyleContext, selector_caches: &mut SelectorCaches, ) -> bool where E: TElement, { let stylist = &shared_context.stylist; let for_element = target.scope_revalidation_results(stylist, selector_caches); let for_candidate = candidate.scope_revalidation_results(stylist, selector_caches); for_element == for_candidate } /// Checks whether we might have rules for either of the two ids. #[inline] pub fn may_match_different_id_rules( shared_context: &SharedStyleContext, element: E, candidate: E, ) -> bool where E: TElement, { let element_id = element.id(); let candidate_id = candidate.id(); if element_id == candidate_id { return false; } let stylist = &shared_context.stylist; let may_have_rules_for_element = match element_id { Some(id) => stylist.may_have_rules_for_id(id, element), None => false, }; if may_have_rules_for_element { return true; } match candidate_id { Some(id) => stylist.may_have_rules_for_id(id, candidate), None => false, } }