selector_parser.rs

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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

 * file, You can obtain one at https://mozilla.org/MPL/2.0/. */

//! The pseudo-classes and pseudo-elements supported by the style system.

#![deny(missing_docs)]

use crate::stylesheets::{Namespaces, Origin, UrlExtraData};

use crate::values::serialize_atom_identifier;

use crate::Atom;

use cssparser::{Parser as CssParser, ParserInput};

use dom::ElementState;

use selectors::parser::{ParseRelative, SelectorList};

use std::fmt::{self, Debug, Write};

use style_traits::{CssWriter, ParseError, ToCss};

/// A convenient alias for the type that represents an attribute value used for

/// selector parser implementation.

pub type AttrValue = <SelectorImpl as ::selectors::SelectorImpl>::AttrValue;

#[cfg(feature = "servo")]

pub use crate::servo::selector_parser::*;

#[cfg(feature = "gecko")]

pub use crate::gecko::selector_parser::*;

#[cfg(feature = "servo")]

pub use crate::servo::selector_parser::ServoElementSnapshot as Snapshot;

#[cfg(feature = "gecko")]

pub use crate::gecko::snapshot::GeckoElementSnapshot as Snapshot;

#[cfg(feature = "servo")]

pub use crate::servo::restyle_damage::ServoRestyleDamage as RestyleDamage;

#[cfg(feature = "gecko")]

pub use crate::gecko::restyle_damage::GeckoRestyleDamage as RestyleDamage;

/// Servo's selector parser.

#[cfg_attr(feature = "servo", derive(MallocSizeOf))]

pub struct SelectorParser<'a> {

    /// The origin of the stylesheet we're parsing.

    pub stylesheet_origin: Origin,

    /// The namespace set of the stylesheet.

    pub namespaces: &'a Namespaces,

    /// The extra URL data of the stylesheet, which is used to look up

    /// whether we are parsing a chrome:// URL style sheet.

    pub url_data: &'a UrlExtraData,

    /// Whether we're parsing selectors for `@supports`

    pub for_supports_rule: bool,

impl<'a> SelectorParser<'a> {

    /// Parse a selector list with an author origin and without taking into

    /// account namespaces.

///

    /// This is used for some DOM APIs like `querySelector`.

    pub fn parse_author_origin_no_namespace<'i>(

        input: &'i str,

        url_data: &UrlExtraData,

    ) -> Result<SelectorList<SelectorImpl>, ParseError<'i>> {

        let namespaces = Namespaces::default();

        let parser = SelectorParser {

            stylesheet_origin: Origin::Author,

            namespaces: &namespaces,

            url_data,

            for_supports_rule: false,

};

        let mut input = ParserInput::new(input);

        SelectorList::parse(&parser, &mut CssParser::new(&mut input), ParseRelative::No)

    /// Whether we're parsing selectors in a user-agent stylesheet.

    pub fn in_user_agent_stylesheet(&self) -> bool {

        matches!(self.stylesheet_origin, Origin::UserAgent)

    /// Whether we're parsing selectors in a stylesheet that has chrome

    /// privilege.

    pub fn chrome_rules_enabled(&self) -> bool {

        self.url_data.chrome_rules_enabled() || self.stylesheet_origin == Origin::User

/// This enumeration determines if a pseudo-element is eagerly cascaded or not.

///

/// If you're implementing a public selector for `Servo` that the end-user might

/// customize, then you probably need to make it eager.

#[derive(Clone, Debug, Eq, PartialEq)]

pub enum PseudoElementCascadeType {

    /// Eagerly cascaded pseudo-elements are "normal" pseudo-elements (i.e.

    /// `::before` and `::after`). They inherit styles normally as another

    /// selector would do, and they're computed as part of the cascade.

    Eager,

    /// Lazy pseudo-elements are affected by selector matching, but they're only

    /// computed when needed, and not before. They're useful for general

    /// pseudo-elements that are not very common.

///

    /// Note that in Servo lazy pseudo-elements are restricted to a subset of

    /// selectors, so you can't use it for public pseudo-elements. This is not

    /// the case with Gecko though.

    Lazy,

    /// Precomputed pseudo-elements skip the cascade process entirely, mostly as

    /// an optimisation since they are private pseudo-elements (like

    /// `::-servo-details-content`).

///

    /// This pseudo-elements are resolved on the fly using *only* global rules

    /// (rules of the form `*|*`), and applying them to the parent style.

    Precomputed,

/// A per-pseudo map, from a given pseudo to a `T`.

#[derive(Clone, MallocSizeOf)]

pub struct PerPseudoElementMap<T> {

    entries: [Option<T>; PSEUDO_COUNT],

impl<T> Default for PerPseudoElementMap<T> {

    fn default() -> Self {

        Self {

            entries: PseudoElement::pseudo_none_array(),

impl<T> Debug for PerPseudoElementMap<T>

where

    T: Debug,

    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {

        f.write_char('[')?;

        let mut first = true;

        for entry in self.entries.iter() {

            if !first {

                f.write_str(", ")?;

            first = false;

            entry.fmt(f)?;

        f.write_char(']')

impl<T> PerPseudoElementMap<T> {

    /// Get an entry in the map.

    pub fn get(&self, pseudo: &PseudoElement) -> Option<&T> {

        self.entries[pseudo.index()].as_ref()

    /// Clear this enumerated array.

    pub fn clear(&mut self) {

        *self = Self::default();

    /// Set an entry value.

///

    /// Returns an error if the element is not a simple pseudo.

    pub fn set(&mut self, pseudo: &PseudoElement, value: T) {

        self.entries[pseudo.index()] = Some(value);

    /// Get an entry for `pseudo`, or create it with calling `f`.

    pub fn get_or_insert_with<F>(&mut self, pseudo: &PseudoElement, f: F) -> &mut T

    where

        F: FnOnce() -> T,

        let index = pseudo.index();

        if self.entries[index].is_none() {

            self.entries[index] = Some(f());

        self.entries[index].as_mut().unwrap()

    /// Get an iterator for the entries.

    pub fn iter(&self) -> std::slice::Iter<Option<T>> {

        self.entries.iter()

    /// Get a mutable iterator for the entries.

    pub fn iter_mut(&mut self) -> std::slice::IterMut<Option<T>> {

        self.entries.iter_mut()

/// Values for the :dir() pseudo class

///

/// "ltr" and "rtl" values are normalized to lowercase.

#[derive(Clone, Debug, Eq, MallocSizeOf, PartialEq, ToShmem)]

pub struct Direction(pub Atom);

/// Horizontal values for the :dir() pseudo class

#[derive(Clone, Debug, Eq, PartialEq)]

pub enum HorizontalDirection {

    /// :dir(ltr)

    Ltr,

    /// :dir(rtl)

    Rtl,

impl Direction {

    /// Parse a direction value.

    pub fn parse<'i, 't>(parser: &mut CssParser<'i, 't>) -> Result<Self, ParseError<'i>> {

        let ident = parser.expect_ident()?;

        Ok(Direction(match_ignore_ascii_case! { &ident,

            "rtl" => atom!("rtl"),

            "ltr" => atom!("ltr"),

            _ => Atom::from(ident.as_ref()),

}))

    /// Convert this Direction into a HorizontalDirection, if applicable

    pub fn as_horizontal_direction(&self) -> Option<HorizontalDirection> {

        if self.0 == atom!("ltr") {

            Some(HorizontalDirection::Ltr)

        } else if self.0 == atom!("rtl") {

            Some(HorizontalDirection::Rtl)

        } else {

            None

    /// Gets the element state relevant to this :dir() selector.

    pub fn element_state(&self) -> ElementState {

        match self.as_horizontal_direction() {

            Some(HorizontalDirection::Ltr) => ElementState::LTR,

            Some(HorizontalDirection::Rtl) => ElementState::RTL,

            None => ElementState::empty(),

impl ToCss for Direction {

    fn to_css<W>(&self, dest: &mut CssWriter<W>) -> fmt::Result

    where

        W: Write,

        serialize_atom_identifier(&self.0, dest)