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/* 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
#![forbid(unsafe_code)]
use crate::properties::Importance;
use crate::shared_lock::{SharedRwLockReadGuard, StylesheetGuards};
use crate::stylesheets::Origin;
/// The cascade level these rules are relevant at, as per[1][2][3].
///
/// Presentational hints for SVG and HTML are in the "author-level
/// zero-specificity" level, that is, right after user rules, and before author
/// rules.
///
/// The order of variants declared here is significant, and must be in
/// _ascending_ order of precedence.
///
/// See also [4] for the Shadow DOM bits. We rely on the invariant that rules
/// from outside the tree the element is in can't affect the element.
///
/// The opposite is not true (i.e., :host and ::slotted) from an "inner" shadow
/// tree may affect an element connected to the document or an "outer" shadow
/// tree.
///
#[repr(u8)]
#[derive(Clone, Copy, Debug, Eq, Hash, MallocSizeOf, Ord, PartialEq, PartialOrd)]
pub enum CascadeLevel {
/// Normal User-Agent rules.
UANormal,
/// User normal rules.
UserNormal,
/// Presentational hints.
PresHints,
/// Shadow DOM styles from author styles.
AuthorNormal {
/// The order in the shadow tree hierarchy. This number is relative to
/// the tree of the element, and thus the only invariants that need to
/// be preserved is:
///
/// * Zero is the same tree as the element that matched the rule. This
/// is important so that we can optimize style attribute insertions.
///
/// * The levels are ordered in accordance with
shadow_cascade_order: ShadowCascadeOrder,
},
/// SVG SMIL animations.
SMILOverride,
/// CSS animations and script-generated animations.
Animations,
/// Author-supplied important rules.
AuthorImportant {
/// The order in the shadow tree hierarchy, inverted, so that PartialOrd
/// does the right thing.
shadow_cascade_order: ShadowCascadeOrder,
},
/// User important rules.
UserImportant,
/// User-agent important rules.
UAImportant,
/// Transitions
Transitions,
}
impl CascadeLevel {
/// Convert this level from "unimportant" to "important".
pub fn important(&self) -> Self {
match *self {
Self::UANormal => Self::UAImportant,
Self::UserNormal => Self::UserImportant,
Self::AuthorNormal {
shadow_cascade_order,
} => Self::AuthorImportant {
shadow_cascade_order: -shadow_cascade_order,
},
Self::PresHints |
Self::SMILOverride |
Self::Animations |
Self::AuthorImportant { .. } |
Self::UserImportant |
Self::UAImportant |
Self::Transitions => *self,
}
}
/// Convert this level from "important" to "non-important".
pub fn unimportant(&self) -> Self {
match *self {
Self::UAImportant => Self::UANormal,
Self::UserImportant => Self::UserNormal,
Self::AuthorImportant {
shadow_cascade_order,
} => Self::AuthorNormal {
shadow_cascade_order: -shadow_cascade_order,
},
Self::PresHints |
Self::SMILOverride |
Self::Animations |
Self::AuthorNormal { .. } |
Self::UserNormal |
Self::UANormal |
Self::Transitions => *self,
}
}
/// Select a lock guard for this level
pub fn guard<'a>(&self, guards: &'a StylesheetGuards<'a>) -> &'a SharedRwLockReadGuard<'a> {
match *self {
Self::UANormal | Self::UserNormal | Self::UserImportant | Self::UAImportant => {
guards.ua_or_user
},
_ => guards.author,
}
}
/// Returns the cascade level for author important declarations from the
/// same tree as the element.
#[inline]
pub fn same_tree_author_important() -> Self {
Self::AuthorImportant {
shadow_cascade_order: ShadowCascadeOrder::for_same_tree(),
}
}
/// Returns the cascade level for author normal declarations from the same
/// tree as the element.
#[inline]
pub fn same_tree_author_normal() -> Self {
Self::AuthorNormal {
shadow_cascade_order: ShadowCascadeOrder::for_same_tree(),
}
}
/// Returns whether this cascade level represents important rules of some
/// sort.
#[inline]
pub fn is_important(&self) -> bool {
match *self {
Self::AuthorImportant { .. } | Self::UserImportant | Self::UAImportant => true,
_ => false,
}
}
/// Returns the importance relevant for this rule. Pretty similar to
/// `is_important`.
#[inline]
pub fn importance(&self) -> Importance {
if self.is_important() {
Importance::Important
} else {
Importance::Normal
}
}
/// Returns the cascade origin of the rule.
#[inline]
pub fn origin(&self) -> Origin {
match *self {
Self::UAImportant | Self::UANormal => Origin::UserAgent,
Self::UserImportant | Self::UserNormal => Origin::User,
Self::PresHints |
Self::AuthorNormal { .. } |
Self::AuthorImportant { .. } |
Self::SMILOverride |
Self::Animations |
Self::Transitions => Origin::Author,
}
}
/// Returns whether this cascade level represents an animation rules.
#[inline]
pub fn is_animation(&self) -> bool {
match *self {
Self::SMILOverride | Self::Animations | Self::Transitions => true,
_ => false,
}
}
}
/// A counter to track how many shadow root rules deep we are. This is used to
/// handle:
///
///
/// See the static functions for the meaning of different values.
#[derive(Clone, Copy, Debug, Eq, Hash, MallocSizeOf, Ord, PartialEq, PartialOrd)]
pub struct ShadowCascadeOrder(i8);
impl ShadowCascadeOrder {
/// We keep a maximum of 3 bits of order as a limit so that we can pack
/// CascadeLevel in one byte by using half of it for the order, if that ends
/// up being necessary.
const MAX: i8 = 0b111;
const MIN: i8 = -Self::MAX;
/// A level for the outermost shadow tree (the shadow tree we own, and the
/// ones from the slots we're slotted in).
#[inline]
pub fn for_outermost_shadow_tree() -> Self {
Self(-1)
}
/// A level for the element's tree.
#[inline]
fn for_same_tree() -> Self {
Self(0)
}
/// A level for the innermost containing tree (the one closest to the
/// element).
#[inline]
pub fn for_innermost_containing_tree() -> Self {
Self(1)
}
/// Decrement the level, moving inwards. We should only move inwards if
/// we're traversing slots.
#[inline]
pub fn dec(&mut self) {
debug_assert!(self.0 < 0);
if self.0 != Self::MIN {
self.0 -= 1;
}
}
/// The level, moving inwards. We should only move inwards if we're
/// traversing slots.
#[inline]
pub fn inc(&mut self) {
debug_assert_ne!(self.0, -1);
if self.0 != Self::MAX {
self.0 += 1;
}
}
}
impl std::ops::Neg for ShadowCascadeOrder {
type Output = Self;
#[inline]
fn neg(self) -> Self {
Self(self.0.neg())
}
}