/* 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 http://mozilla.org/MPL/2.0/. */ use arcslice::ArcSlice; use attr::{AttrSelectorWithNamespace, ParsedAttrSelectorOperation, AttrSelectorOperator}; use attr::{ParsedCaseSensitivity, SELECTOR_WHITESPACE, NamespaceConstraint}; use cssparser::{Token, Parser as CssParser, parse_nth, ToCss, serialize_identifier, CssStringWriter}; use precomputed_hash::PrecomputedHash; use smallvec::SmallVec; use std::ascii::AsciiExt; use std::borrow::{Borrow, Cow}; use std::cmp; use std::fmt::{self, Display, Debug, Write}; use std::iter::Rev; use std::ops::Add; use std::slice; use visitor::SelectorVisitor; /// A trait that represents a pseudo-element. pub trait PseudoElement : Sized + ToCss { /// The `SelectorImpl` this pseudo-element is used for. type Impl: SelectorImpl; /// Whether the pseudo-element supports a given state selector to the right /// of it. fn supports_pseudo_class( &self, _pseudo_class: &::NonTSPseudoClass) -> bool { false } } fn to_ascii_lowercase(s: &str) -> Cow { if let Some(first_uppercase) = s.bytes().position(|byte| byte >= b'A' && byte <= b'Z') { let mut string = s.to_owned(); string[first_uppercase..].make_ascii_lowercase(); string.into() } else { s.into() } } macro_rules! with_all_bounds { ( [ $( $InSelector: tt )* ] [ $( $CommonBounds: tt )* ] [ $( $FromStr: tt )* ] ) => { fn from_cow_str(cow: Cow) -> T where T: $($FromStr)* { match cow { Cow::Borrowed(s) => T::from(s), Cow::Owned(s) => T::from(s), } } /// This trait allows to define the parser implementation in regards /// of pseudo-classes/elements /// /// NB: We need Clone so that we can derive(Clone) on struct with that /// are parameterized on SelectorImpl. See /// https://github.com/rust-lang/rust/issues/26925 pub trait SelectorImpl: Clone + Sized { type AttrValue: $($InSelector)*; type Identifier: $($InSelector)* + PrecomputedHash; type ClassName: $($InSelector)* + PrecomputedHash; type LocalName: $($InSelector)* + Borrow + PrecomputedHash; type NamespaceUrl: $($CommonBounds)* + Default + Borrow + PrecomputedHash; type NamespacePrefix: $($InSelector)* + Default; type BorrowedNamespaceUrl: ?Sized + Eq; type BorrowedLocalName: ?Sized + Eq; /// non tree-structural pseudo-classes /// (see: https://drafts.csswg.org/selectors/#structural-pseudos) type NonTSPseudoClass: $($CommonBounds)* + Sized + ToCss + SelectorMethods; /// pseudo-elements type PseudoElement: $($CommonBounds)* + PseudoElement; } } } macro_rules! with_bounds { ( [ $( $CommonBounds: tt )* ] [ $( $FromStr: tt )* ]) => { with_all_bounds! { [$($CommonBounds)* + $($FromStr)* + Display] [$($CommonBounds)*] [$($FromStr)*] } } } with_bounds! { [Clone + Eq] [From + for<'a> From<&'a str>] } pub trait Parser { type Impl: SelectorImpl; /// This function can return an "Err" pseudo-element in order to support CSS2.1 /// pseudo-elements. fn parse_non_ts_pseudo_class(&self, _name: Cow) -> Result<::NonTSPseudoClass, ()> { Err(()) } fn parse_non_ts_functional_pseudo_class (&self, _name: Cow, _arguments: &mut CssParser) -> Result<::NonTSPseudoClass, ()> { Err(()) } fn parse_pseudo_element(&self, _name: Cow) -> Result<::PseudoElement, ()> { Err(()) } fn default_namespace(&self) -> Option<::NamespaceUrl> { None } fn namespace_for_prefix(&self, _prefix: &::NamespacePrefix) -> Option<::NamespaceUrl> { None } } #[derive(PartialEq, Eq, Clone, Debug)] pub struct SelectorList(pub Vec>); impl SelectorList { /// Parse a comma-separated list of Selectors. /// https://drafts.csswg.org/selectors/#grouping /// /// Return the Selectors or Err if there is an invalid selector. pub fn parse

(parser: &P, input: &mut CssParser) -> Result where P: Parser { input.parse_comma_separated(|input| parse_selector(parser, input)) .map(SelectorList) } } /// Copied from Gecko, where it was noted to be unmeasured. const NUM_ANCESTOR_HASHES: usize = 4; /// The cores parts of a selector used for matching. This exists to make that /// information accessibly separately from the specificity and pseudo-element /// information that lives on |Selector| proper. We may want to refactor things /// and move that information elsewhere, at which point we could rename this /// to |Selector|. #[derive(PartialEq, Eq, Clone)] pub struct SelectorInner { /// The selector data. pub complex: ComplexSelector, /// Ancestor hashes for the bloom filter. We precompute these and store /// them inline to optimize cache performance during selector matching. /// This matters a lot. pub ancestor_hashes: [u32; NUM_ANCESTOR_HASHES], } impl SelectorInner { pub fn new(c: ComplexSelector) -> Self { let mut hashes = [0; NUM_ANCESTOR_HASHES]; { // Compute ancestor hashes for the bloom filter. let mut hash_iter = c.iter_ancestors() .map(|x| x.ancestor_hash()) .filter(|x| x.is_some()) .map(|x| x.unwrap()); for i in 0..NUM_ANCESTOR_HASHES { hashes[i] = match hash_iter.next() { Some(x) => x, None => break, } } } SelectorInner { complex: c, ancestor_hashes: hashes, } } /// Creates a SelectorInner from a Vec of Components. Used in tests. pub fn from_vec(vec: Vec>) -> Self { let complex = ComplexSelector::from_vec(vec); Self::new(complex) } } #[derive(PartialEq, Eq, Clone)] pub struct Selector { pub inner: SelectorInner, specificity_and_flags: u32, } impl ::std::borrow::Borrow> for Selector { fn borrow(&self) -> &SelectorInner { &self.inner } } const HAS_PSEUDO_BIT: u32 = 1 << 30; impl Selector { pub fn specificity(&self) -> u32 { self.specificity_and_flags & !HAS_PSEUDO_BIT } pub fn new_for_unit_testing(inner: SelectorInner, specificity: u32) -> Self { Self { inner: inner, specificity_and_flags: specificity, } } pub fn pseudo_element(&self) -> Option<&Impl::PseudoElement> { if !self.has_pseudo_element() { return None } for component in self.inner.complex.iter() { if let Component::PseudoElement(ref pseudo) = *component { return Some(pseudo) } } debug_assert!(false, "has_pseudo_element lied!"); None } pub fn has_pseudo_element(&self) -> bool { (self.specificity_and_flags & HAS_PSEUDO_BIT) != 0 } /// Whether this selector (pseudo-element part excluded) matches every element. /// /// Used for "pre-computed" pseudo-elements in components/style/stylist.rs pub fn is_universal(&self) -> bool { self.inner.complex.iter_raw().all(|c| matches!(*c, Component::ExplicitUniversalType | Component::ExplicitAnyNamespace | Component::Combinator(Combinator::PseudoElement) | Component::PseudoElement(..) )) } } pub trait SelectorMethods { type Impl: SelectorImpl; fn visit(&self, visitor: &mut V) -> bool where V: SelectorVisitor; } impl SelectorMethods for Selector { type Impl = Impl; fn visit(&self, visitor: &mut V) -> bool where V: SelectorVisitor, { self.inner.complex.visit(visitor) } } impl SelectorMethods for ComplexSelector { type Impl = Impl; fn visit(&self, visitor: &mut V) -> bool where V: SelectorVisitor, { let mut current = self.iter(); let mut combinator = None; loop { if !visitor.visit_complex_selector(current.clone(), combinator) { return false; } for selector in &mut current { if !selector.visit(visitor) { return false; } } combinator = current.next_sequence(); if combinator.is_none() { break; } } true } } impl SelectorMethods for Component { type Impl = Impl; fn visit(&self, visitor: &mut V) -> bool where V: SelectorVisitor, { use self::Component::*; if !visitor.visit_simple_selector(self) { return false; } match *self { Negation(ref negated) => { for component in negated.iter() { if !component.visit(visitor) { return false; } } } AttributeInNoNamespaceExists { ref local_name, ref local_name_lower } => { if !visitor.visit_attribute_selector( &NamespaceConstraint::Specific(&namespace_empty_string::()), local_name, local_name_lower, ) { return false; } } AttributeInNoNamespace { ref local_name, ref local_name_lower, never_matches, .. } if !never_matches => { if !visitor.visit_attribute_selector( &NamespaceConstraint::Specific(&namespace_empty_string::()), local_name, local_name_lower, ) { return false; } } AttributeOther(ref attr_selector) if !attr_selector.never_matches => { if !visitor.visit_attribute_selector( &attr_selector.namespace(), &attr_selector.local_name, &attr_selector.local_name_lower, ) { return false; } } NonTSPseudoClass(ref pseudo_class) => { if !pseudo_class.visit(visitor) { return false; } }, _ => {} } true } } pub fn namespace_empty_string() -> Impl::NamespaceUrl { // Rust type’s default, not default namespace Impl::NamespaceUrl::default() } /// A ComplexSelectors stores a sequence of simple selectors and combinators. The /// iterator classes allow callers to iterate at either the raw sequence level or /// at the level of sequences of simple selectors separated by combinators. Most /// callers want the higher-level iterator. /// /// We store selectors internally left-to-right (in parsing order), but the /// canonical iteration order is right-to-left (selector matching order). The /// iterators abstract over these details. #[derive(Clone, Eq, PartialEq)] pub struct ComplexSelector(ArcSlice>); impl ComplexSelector { /// Returns an iterator over the next sequence of simple selectors. When /// a combinator is reached, the iterator will return None, and /// next_sequence() may be called to continue to the next sequence. pub fn iter(&self) -> SelectorIter { SelectorIter { iter: self.iter_raw(), next_combinator: None, } } /// Returns an iterator over the entire sequence of simple selectors and combinators, /// from right to left. pub fn iter_raw(&self) -> Rev>> { self.iter_raw_rev().rev() } /// Returns an iterator over the entire sequence of simple selectors and combinators, /// from left to right. pub fn iter_raw_rev(&self) -> slice::Iter> { self.0.iter() } /// Returns an iterator over ancestor simple selectors. All combinators and /// non-ancestor simple selectors will be skipped. pub fn iter_ancestors(&self) -> AncestorIter { AncestorIter::new(self.iter()) } /// Returns a ComplexSelector identical to |self| but with the rightmost |index| /// entries removed. pub fn slice_from(&self, index: usize) -> Self { // Note that we convert the slice_from to slice_to because selectors are // stored left-to-right but logical order is right-to-left. ComplexSelector(self.0.clone().slice_to(self.0.len() - index)) } /// Returns a ComplexSelector identical to |self| but with the leftmost /// |len() - index| entries removed. pub fn slice_to(&self, index: usize) -> Self { // Note that we convert the slice_to to slice_from because selectors are // stored left-to-right but logical order is right-to-left. ComplexSelector(self.0.clone().slice_from(self.0.len() - index)) } /// Creates a ComplexSelector from a vec of Components. Used in tests. pub fn from_vec(vec: Vec>) -> Self { ComplexSelector(ArcSlice::new(vec.into_boxed_slice())) } } #[derive(Clone)] pub struct SelectorIter<'a, Impl: 'a + SelectorImpl> { iter: Rev>>, next_combinator: Option, } impl<'a, Impl: 'a + SelectorImpl> SelectorIter<'a, Impl> { /// Prepares this iterator to point to the next sequence to the left, /// returning the combinator if the sequence was found. pub fn next_sequence(&mut self) -> Option { self.next_combinator.take() } } impl<'a, Impl: SelectorImpl> Iterator for SelectorIter<'a, Impl> { type Item = &'a Component; fn next(&mut self) -> Option { debug_assert!(self.next_combinator.is_none(), "You should call next_sequence!"); match self.iter.next() { None => None, Some(&Component::Combinator(c)) => { self.next_combinator = Some(c); None }, Some(x) => Some(x), } } } /// An iterator over all simple selectors belonging to ancestors. pub struct AncestorIter<'a, Impl: 'a + SelectorImpl>(SelectorIter<'a, Impl>); impl<'a, Impl: 'a + SelectorImpl> AncestorIter<'a, Impl> { /// Creates an AncestorIter. The passed-in iterator is assumed to point to /// the beginning of the child sequence, which will be skipped. fn new(inner: SelectorIter<'a, Impl>) -> Self { let mut result = AncestorIter(inner); result.skip_until_ancestor(); result } /// Skips a sequence of simple selectors and all subsequent sequences until /// a non-pseudo-element ancestor combinator is reached. fn skip_until_ancestor(&mut self) { loop { while self.0.next().is_some() {} if self.0.next_sequence().map_or(true, |x| matches!(x, Combinator::Child | Combinator::Descendant)) { break; } } } } impl<'a, Impl: SelectorImpl> Iterator for AncestorIter<'a, Impl> { type Item = &'a Component; fn next(&mut self) -> Option { // Grab the next simple selector in the sequence if available. let next = self.0.next(); if next.is_some() { return next; } // See if there are more sequences. If so, skip any non-ancestor sequences. if let Some(combinator) = self.0.next_sequence() { if !matches!(combinator, Combinator::Child | Combinator::Descendant) { self.skip_until_ancestor(); } } self.0.next() } } #[derive(Eq, PartialEq, Clone, Copy, Debug)] pub enum Combinator { Child, // > Descendant, // space NextSibling, // + LaterSibling, // ~ /// A dummy combinator we use to the left of pseudo-elements. /// /// It serializes as the empty string, and acts effectively as a child /// combinator. PseudoElement, } impl Combinator { /// Returns true if this combinator is a child or descendant combinator. pub fn is_ancestor(&self) -> bool { matches!(*self, Combinator::Child | Combinator::Descendant | Combinator::PseudoElement) } /// Returns true if this combinator is a pseudo-element combinator. pub fn is_pseudo_element(&self) -> bool { matches!(*self, Combinator::PseudoElement) } /// Returns true if this combinator is a next- or later-sibling combinator. pub fn is_sibling(&self) -> bool { matches!(*self, Combinator::NextSibling | Combinator::LaterSibling) } } /// A CSS simple selector or combinator. We store both in the same enum for /// optimal packing and cache performance, see [1]. /// /// [1] https://bugzilla.mozilla.org/show_bug.cgi?id=1357973 #[derive(Eq, PartialEq, Clone)] pub enum Component { Combinator(Combinator), ExplicitAnyNamespace, ExplicitNoNamespace, DefaultNamespace(Impl::NamespaceUrl), Namespace(Impl::NamespacePrefix, Impl::NamespaceUrl), ExplicitUniversalType, LocalName(LocalName), ID(Impl::Identifier), Class(Impl::ClassName), AttributeInNoNamespaceExists { local_name: Impl::LocalName, local_name_lower: Impl::LocalName, }, AttributeInNoNamespace { local_name: Impl::LocalName, local_name_lower: Impl::LocalName, operator: AttrSelectorOperator, value: Impl::AttrValue, case_sensitivity: ParsedCaseSensitivity, never_matches: bool, }, // Use a Box in the less common cases with more data to keep size_of::() small. AttributeOther(Box>), // Pseudo-classes // // CSS3 Negation only takes a simple simple selector, but we still need to // treat it as a compound selector because it might be a type selector which // we represent as a namespace and a localname. // // Note: if/when we upgrade this to CSS4, which supports combinators, we // need to think about how this should interact with visit_complex_selector, // and what the consumers of those APIs should do about the presence of // combinators in negation. Negation(Box<[Component]>), FirstChild, LastChild, OnlyChild, Root, Empty, NthChild(i32, i32), NthLastChild(i32, i32), NthOfType(i32, i32), NthLastOfType(i32, i32), FirstOfType, LastOfType, OnlyOfType, NonTSPseudoClass(Impl::NonTSPseudoClass), PseudoElement(Impl::PseudoElement), } impl Component { /// Compute the ancestor hash to check against the bloom filter. fn ancestor_hash(&self) -> Option { match *self { Component::LocalName(LocalName { ref name, ref lower_name }) => { // Only insert the local-name into the filter if it's all lowercase. // Otherwise we would need to test both hashes, and our data structures // aren't really set up for that. if name == lower_name { Some(name.precomputed_hash()) } else { None } }, Component::DefaultNamespace(ref url) | Component::Namespace(_, ref url) => { Some(url.precomputed_hash()) }, Component::ID(ref id) => { Some(id.precomputed_hash()) }, Component::Class(ref class) => { Some(class.precomputed_hash()) }, _ => None, } } /// Returns true if this is a combinator. pub fn is_combinator(&self) -> bool { matches!(*self, Component::Combinator(_)) } /// Returns the value as a combinator if applicable, None otherwise. pub fn as_combinator(&self) -> Option { match *self { Component::Combinator(c) => Some(c), _ => None, } } } #[derive(Eq, PartialEq, Clone)] pub struct LocalName { pub name: Impl::LocalName, pub lower_name: Impl::LocalName, } impl Debug for Selector { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { f.write_str("Selector(")?; self.to_css(f)?; write!(f, ", specificity = 0x{:x})", self.specificity()) } } impl Debug for SelectorInner { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { self.complex.to_css(f) } } impl Debug for ComplexSelector { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { self.to_css(f) } } impl Debug for Component { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { self.to_css(f) } } impl Debug for AttrSelectorWithNamespace { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { self.to_css(f) } } impl Debug for LocalName { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { self.to_css(f) } } impl ToCss for SelectorList { fn to_css(&self, dest: &mut W) -> fmt::Result where W: fmt::Write { let mut iter = self.0.iter(); let first = iter.next() .expect("Empty SelectorList, should contain at least one selector"); first.to_css(dest)?; for selector in iter { dest.write_str(", ")?; selector.to_css(dest)?; } Ok(()) } } impl ToCss for Selector { fn to_css(&self, dest: &mut W) -> fmt::Result where W: fmt::Write { self.inner.complex.to_css(dest) } } impl ToCss for ComplexSelector { fn to_css(&self, dest: &mut W) -> fmt::Result where W: fmt::Write { for item in self.iter_raw_rev() { item.to_css(dest)?; } Ok(()) } } impl ToCss for Combinator { fn to_css(&self, dest: &mut W) -> fmt::Result where W: fmt::Write { match *self { Combinator::Child => dest.write_str(" > "), Combinator::Descendant => dest.write_str(" "), Combinator::NextSibling => dest.write_str(" + "), Combinator::LaterSibling => dest.write_str(" ~ "), Combinator::PseudoElement => Ok(()), } } } impl ToCss for Component { fn to_css(&self, dest: &mut W) -> fmt::Result where W: fmt::Write { use self::Component::*; match *self { Combinator(ref c) => { c.to_css(dest) } PseudoElement(ref p) => { p.to_css(dest) } ID(ref s) => { dest.write_char('#')?; display_to_css_identifier(s, dest) } Class(ref s) => { dest.write_char('.')?; display_to_css_identifier(s, dest) } LocalName(ref s) => s.to_css(dest), ExplicitUniversalType => dest.write_char('*'), DefaultNamespace(_) => Ok(()), ExplicitNoNamespace => dest.write_char('|'), ExplicitAnyNamespace => dest.write_str("*|"), Namespace(ref prefix, _) => { display_to_css_identifier(prefix, dest)?; dest.write_char('|') } AttributeInNoNamespaceExists { ref local_name, .. } => { dest.write_char('[')?; display_to_css_identifier(local_name, dest)?; dest.write_char(']') } AttributeInNoNamespace { ref local_name, operator, ref value, case_sensitivity, .. } => { dest.write_char('[')?; display_to_css_identifier(local_name, dest)?; operator.to_css(dest)?; dest.write_char('"')?; write!(CssStringWriter::new(dest), "{}", value)?; dest.write_char('"')?; match case_sensitivity { ParsedCaseSensitivity::CaseSensitive | ParsedCaseSensitivity::AsciiCaseInsensitiveIfInHtmlElementInHtmlDocument => {}, ParsedCaseSensitivity::AsciiCaseInsensitive => dest.write_str(" i")?, } dest.write_char(']') } AttributeOther(ref attr_selector) => attr_selector.to_css(dest), // Pseudo-classes Negation(ref arg) => { dest.write_str(":not(")?; debug_assert!(single_simple_selector(arg)); for component in arg.iter() { component.to_css(dest)?; } dest.write_str(")") } FirstChild => dest.write_str(":first-child"), LastChild => dest.write_str(":last-child"), OnlyChild => dest.write_str(":only-child"), Root => dest.write_str(":root"), Empty => dest.write_str(":empty"), FirstOfType => dest.write_str(":first-of-type"), LastOfType => dest.write_str(":last-of-type"), OnlyOfType => dest.write_str(":only-of-type"), NthChild(a, b) => write!(dest, ":nth-child({}n{:+})", a, b), NthLastChild(a, b) => write!(dest, ":nth-last-child({}n{:+})", a, b), NthOfType(a, b) => write!(dest, ":nth-of-type({}n{:+})", a, b), NthLastOfType(a, b) => write!(dest, ":nth-last-of-type({}n{:+})", a, b), NonTSPseudoClass(ref pseudo) => pseudo.to_css(dest), } } } impl ToCss for AttrSelectorWithNamespace { fn to_css(&self, dest: &mut W) -> fmt::Result where W: fmt::Write { dest.write_char('[')?; match self.namespace { NamespaceConstraint::Specific((ref prefix, _)) => { display_to_css_identifier(prefix, dest)?; dest.write_char('|')? } NamespaceConstraint::Any => { dest.write_str("*|")? } } display_to_css_identifier(&self.local_name, dest)?; match self.operation { ParsedAttrSelectorOperation::Exists => {}, ParsedAttrSelectorOperation::WithValue { operator, case_sensitivity, ref expected_value } => { operator.to_css(dest)?; dest.write_char('"')?; write!(CssStringWriter::new(dest), "{}", expected_value)?; dest.write_char('"')?; match case_sensitivity { ParsedCaseSensitivity::CaseSensitive | ParsedCaseSensitivity::AsciiCaseInsensitiveIfInHtmlElementInHtmlDocument => {}, ParsedCaseSensitivity::AsciiCaseInsensitive => dest.write_str(" i")?, } }, } dest.write_char(']') } } impl ToCss for LocalName { fn to_css(&self, dest: &mut W) -> fmt::Result where W: fmt::Write { display_to_css_identifier(&self.name, dest) } } /// Serialize the output of Display as a CSS identifier fn display_to_css_identifier(x: &T, dest: &mut W) -> fmt::Result { // FIXME(SimonSapin): it is possible to avoid this heap allocation // by creating a stream adapter like cssparser::CssStringWriter // that holds and writes to `&mut W` and itself implements `fmt::Write`. // // I haven’t done this yet because it would require somewhat complex and fragile state machine // to support in `fmt::Write::write_char` cases that, // in `serialize_identifier` (which has the full value as a `&str` slice), // can be expressed as // `string.starts_with("--")`, `string == "-"`, `string.starts_with("-")`, etc. // // And I don’t even know if this would be a performance win: jemalloc is good at what it does // and the state machine might be slower than `serialize_identifier` as currently written. let string = x.to_string(); serialize_identifier(&string, dest) } const MAX_10BIT: u32 = (1u32 << 10) - 1; #[derive(Clone, Copy, Eq, Ord, PartialEq, PartialOrd)] struct Specificity { id_selectors: u32, class_like_selectors: u32, element_selectors: u32, } impl Add for Specificity { type Output = Specificity; fn add(self, rhs: Specificity) -> Specificity { Specificity { id_selectors: self.id_selectors + rhs.id_selectors, class_like_selectors: self.class_like_selectors + rhs.class_like_selectors, element_selectors: self.element_selectors + rhs.element_selectors, } } } impl Default for Specificity { fn default() -> Specificity { Specificity { id_selectors: 0, class_like_selectors: 0, element_selectors: 0, } } } impl From for Specificity { fn from(value: u32) -> Specificity { assert!(value <= MAX_10BIT << 20 | MAX_10BIT << 10 | MAX_10BIT); Specificity { id_selectors: value >> 20, class_like_selectors: (value >> 10) & MAX_10BIT, element_selectors: value & MAX_10BIT, } } } impl From for u32 { fn from(specificity: Specificity) -> u32 { cmp::min(specificity.id_selectors, MAX_10BIT) << 20 | cmp::min(specificity.class_like_selectors, MAX_10BIT) << 10 | cmp::min(specificity.element_selectors, MAX_10BIT) } } fn specificity(complex_selector: &ComplexSelector) -> u32 where Impl: SelectorImpl { complex_selector_specificity(complex_selector).into() } fn complex_selector_specificity(selector: &ComplexSelector) -> Specificity where Impl: SelectorImpl { fn simple_selector_specificity(simple_selector: &Component, specificity: &mut Specificity) where Impl: SelectorImpl { match *simple_selector { Component::Combinator(..) => unreachable!(), Component::PseudoElement(..) | Component::LocalName(..) => { specificity.element_selectors += 1 } Component::ID(..) => { specificity.id_selectors += 1 } Component::Class(..) | Component::AttributeInNoNamespace { .. } | Component::AttributeInNoNamespaceExists { .. } | Component::AttributeOther(..) | Component::FirstChild | Component::LastChild | Component::OnlyChild | Component::Root | Component::Empty | Component::NthChild(..) | Component::NthLastChild(..) | Component::NthOfType(..) | Component::NthLastOfType(..) | Component::FirstOfType | Component::LastOfType | Component::OnlyOfType | Component::NonTSPseudoClass(..) => { specificity.class_like_selectors += 1 } Component::ExplicitUniversalType | Component::ExplicitAnyNamespace | Component::ExplicitNoNamespace | Component::DefaultNamespace(..) | Component::Namespace(..) => { // Does not affect specificity } Component::Negation(ref negated) => { for ss in negated.iter() { simple_selector_specificity(&ss, specificity); } } } } let mut specificity = Default::default(); let mut iter = selector.iter(); loop { for simple_selector in &mut iter { simple_selector_specificity(&simple_selector, &mut specificity); } if iter.next_sequence().is_none() { break; } } specificity } /// Build up a Selector. /// selector : simple_selector_sequence [ combinator simple_selector_sequence ]* ; /// /// `Err` means invalid selector. fn parse_selector(parser: &P, input: &mut CssParser) -> Result, ()> where P: Parser, Impl: SelectorImpl { let (complex, has_pseudo_element) = parse_complex_selector(parser, input)?; let mut specificity = specificity(&complex); if has_pseudo_element { specificity |= HAS_PSEUDO_BIT; } Ok(Selector { specificity_and_flags: specificity, inner: SelectorInner::new(complex), }) } /// We use a SmallVec for parsing to avoid extra reallocs compared to using a Vec /// directly. When parsing is done, we convert the SmallVec into a Vec (which is /// free if the vec has already spilled to the heap, and more cache-friendly if /// it hasn't), and then steal the buffer of that vec into a boxed slice. /// /// If we parse N <= 4 entries, we save no reallocations. /// If we parse 4 < N <= 8 entries, we save one reallocation. /// If we parse N > 8 entries, we save two reallocations. type ParseVec = SmallVec<[Component; 8]>; /// Parses a complex selector, including any pseudo-element. /// /// For now, it always forces the pseudo-element to be at the end of the /// selector, and the boolean represents whether the last thing parsed was a /// pseudo-element. fn parse_complex_selector( parser: &P, input: &mut CssParser) -> Result<(ComplexSelector, bool), ()> where P: Parser, Impl: SelectorImpl { let mut sequence = ParseVec::new(); let mut parsed_pseudo_element; 'outer_loop: loop { // Parse a sequence of simple selectors. parsed_pseudo_element = parse_compound_selector(parser, input, &mut sequence, /* inside_negation = */ false)?; if parsed_pseudo_element { break; } // Parse a combinator. let combinator; let mut any_whitespace = false; loop { let position = input.position(); match input.next_including_whitespace() { Err(()) => break 'outer_loop, Ok(Token::WhiteSpace(_)) => any_whitespace = true, Ok(Token::Delim('>')) => { combinator = Combinator::Child; break } Ok(Token::Delim('+')) => { combinator = Combinator::NextSibling; break } Ok(Token::Delim('~')) => { combinator = Combinator::LaterSibling; break } Ok(_) => { input.reset(position); if any_whitespace { combinator = Combinator::Descendant; break } else { break 'outer_loop } } } } sequence.push(Component::Combinator(combinator)); } let complex = ComplexSelector(ArcSlice::new(sequence.into_vec().into_boxed_slice())); Ok((complex, parsed_pseudo_element)) } impl ComplexSelector { /// Parse a complex selector, without any pseudo-element. pub fn parse

(parser: &P, input: &mut CssParser) -> Result where P: Parser { let (complex, has_pseudo_element) = parse_complex_selector(parser, input)?; if has_pseudo_element { return Err(()) } Ok(complex) } } /// * `Err(())`: Invalid selector, abort /// * `Ok(None)`: Not a type selector, could be something else. `input` was not consumed. /// * `Ok(Some(vec))`: Length 0 (`*|*`), 1 (`*|E` or `ns|*`) or 2 (`|E` or `ns|E`) fn parse_type_selector(parser: &P, input: &mut CssParser, sequence: &mut ParseVec) -> Result where P: Parser, Impl: SelectorImpl { match parse_qualified_name(parser, input, /* in_attr_selector = */ false)? { None => Ok(false), Some((namespace, local_name)) => { match namespace { QNamePrefix::ImplicitAnyNamespace => {} QNamePrefix::ImplicitDefaultNamespace(url) => { sequence.push(Component::DefaultNamespace(url)) } QNamePrefix::ExplicitNamespace(prefix, url) => { sequence.push(Component::Namespace(prefix, url)) } QNamePrefix::ExplicitNoNamespace => { sequence.push(Component::ExplicitNoNamespace) } QNamePrefix::ExplicitAnyNamespace => { sequence.push(Component::ExplicitAnyNamespace) } QNamePrefix::ImplicitNoNamespace => { unreachable!() // Not returned with in_attr_selector = false } } match local_name { Some(name) => { sequence.push(Component::LocalName(LocalName { lower_name: from_cow_str(to_ascii_lowercase(&name)), name: from_cow_str(name), })) } None => { sequence.push(Component::ExplicitUniversalType) } } Ok(true) } } } #[derive(Debug)] enum SimpleSelectorParseResult { SimpleSelector(Component), PseudoElement(Impl::PseudoElement), } #[derive(Debug)] enum QNamePrefix { ImplicitNoNamespace, // `foo` in attr selectors ImplicitAnyNamespace, // `foo` in type selectors, without a default ns ImplicitDefaultNamespace(Impl::NamespaceUrl), // `foo` in type selectors, with a default ns ExplicitNoNamespace, // `|foo` ExplicitAnyNamespace, // `*|foo` ExplicitNamespace(Impl::NamespacePrefix, Impl::NamespaceUrl), // `prefix|foo` } /// * `Err(())`: Invalid selector, abort /// * `Ok(None)`: Not a simple selector, could be something else. `input` was not consumed. /// * `Ok(Some((namespace, local_name)))`: `None` for the local name means a `*` universal selector fn parse_qualified_name<'i, 't, P, Impl> (parser: &P, input: &mut CssParser<'i, 't>, in_attr_selector: bool) -> Result, Option>)>, ()> where P: Parser, Impl: SelectorImpl { let default_namespace = |local_name| { let namespace = match parser.default_namespace() { Some(url) => QNamePrefix::ImplicitDefaultNamespace(url), None => QNamePrefix::ImplicitAnyNamespace, }; Ok(Some((namespace, local_name))) }; let explicit_namespace = |input: &mut CssParser<'i, 't>, namespace| { match input.next_including_whitespace() { Ok(Token::Delim('*')) if !in_attr_selector => { Ok(Some((namespace, None))) }, Ok(Token::Ident(local_name)) => { Ok(Some((namespace, Some(local_name)))) }, _ => Err(()), } }; let position = input.position(); match input.next_including_whitespace() { Ok(Token::Ident(value)) => { let position = input.position(); match input.next_including_whitespace() { Ok(Token::Delim('|')) => { let prefix = from_cow_str(value); let result = parser.namespace_for_prefix(&prefix); let url = result.ok_or(())?; explicit_namespace(input, QNamePrefix::ExplicitNamespace(prefix, url)) }, _ => { input.reset(position); if in_attr_selector { Ok(Some((QNamePrefix::ImplicitNoNamespace, Some(value)))) } else { default_namespace(Some(value)) } } } }, Ok(Token::Delim('*')) => { let position = input.position(); match input.next_including_whitespace() { Ok(Token::Delim('|')) => { explicit_namespace(input, QNamePrefix::ExplicitAnyNamespace) } _ => { input.reset(position); if in_attr_selector { Err(()) } else { default_namespace(None) } }, } }, Ok(Token::Delim('|')) => { explicit_namespace(input, QNamePrefix::ExplicitNoNamespace) } _ => { input.reset(position); Ok(None) } } } fn parse_attribute_selector(parser: &P, input: &mut CssParser) -> Result, ()> where P: Parser, Impl: SelectorImpl { let namespace; let local_name; match parse_qualified_name(parser, input, /* in_attr_selector = */ true)? { None => return Err(()), Some((_, None)) => unreachable!(), Some((ns, Some(ln))) => { local_name = ln; namespace = match ns { QNamePrefix::ImplicitNoNamespace | QNamePrefix::ExplicitNoNamespace => { None } QNamePrefix::ExplicitNamespace(prefix, url) => { Some(NamespaceConstraint::Specific((prefix, url))) } QNamePrefix::ExplicitAnyNamespace => { Some(NamespaceConstraint::Any) } QNamePrefix::ImplicitAnyNamespace | QNamePrefix::ImplicitDefaultNamespace(_) => { unreachable!() // Not returned with in_attr_selector = true } } } } let operator; let value; let never_matches; match input.next() { // [foo] Err(()) => { let local_name_lower = from_cow_str(to_ascii_lowercase(&local_name)); let local_name = from_cow_str(local_name); if let Some(namespace) = namespace { return Ok(Component::AttributeOther(Box::new(AttrSelectorWithNamespace { namespace: namespace, local_name: local_name, local_name_lower: local_name_lower, operation: ParsedAttrSelectorOperation::Exists, never_matches: false, }))) } else { return Ok(Component::AttributeInNoNamespaceExists { local_name: local_name, local_name_lower: local_name_lower, }) } } // [foo=bar] Ok(Token::Delim('=')) => { value = input.expect_ident_or_string()?; never_matches = false; operator = AttrSelectorOperator::Equal; } // [foo~=bar] Ok(Token::IncludeMatch) => { value = input.expect_ident_or_string()?; never_matches = value.is_empty() || value.contains(SELECTOR_WHITESPACE); operator = AttrSelectorOperator::Includes; } // [foo|=bar] Ok(Token::DashMatch) => { value = input.expect_ident_or_string()?; never_matches = false; operator = AttrSelectorOperator::DashMatch; } // [foo^=bar] Ok(Token::PrefixMatch) => { value = input.expect_ident_or_string()?; never_matches = value.is_empty(); operator = AttrSelectorOperator::Prefix; } // [foo*=bar] Ok(Token::SubstringMatch) => { value = input.expect_ident_or_string()?; never_matches = value.is_empty(); operator = AttrSelectorOperator::Substring; } // [foo$=bar] Ok(Token::SuffixMatch) => { value = input.expect_ident_or_string()?; never_matches = value.is_empty(); operator = AttrSelectorOperator::Suffix; } _ => return Err(()) } let mut case_sensitivity = parse_attribute_flags(input)?; let value = from_cow_str(value); let local_name_lower; { let local_name_lower_cow = to_ascii_lowercase(&local_name); if let ParsedCaseSensitivity::CaseSensitive = case_sensitivity { if namespace.is_none() && include!(concat!(env!("OUT_DIR"), "/ascii_case_insensitive_html_attributes.rs")) .contains(&*local_name_lower_cow) { case_sensitivity = ParsedCaseSensitivity::AsciiCaseInsensitiveIfInHtmlElementInHtmlDocument } } local_name_lower = from_cow_str(local_name_lower_cow); } let local_name = from_cow_str(local_name); if let Some(namespace) = namespace { Ok(Component::AttributeOther(Box::new(AttrSelectorWithNamespace { namespace: namespace, local_name: local_name, local_name_lower: local_name_lower, never_matches: never_matches, operation: ParsedAttrSelectorOperation::WithValue { operator: operator, case_sensitivity: case_sensitivity, expected_value: value, } }))) } else { Ok(Component::AttributeInNoNamespace { local_name: local_name, local_name_lower: local_name_lower, operator: operator, value: value, case_sensitivity: case_sensitivity, never_matches: never_matches, }) } } fn parse_attribute_flags(input: &mut CssParser) -> Result { match input.next() { Err(()) => Ok(ParsedCaseSensitivity::CaseSensitive), Ok(Token::Ident(ref value)) if value.eq_ignore_ascii_case("i") => { Ok(ParsedCaseSensitivity::AsciiCaseInsensitive) } _ => Err(()) } } /// Level 3: Parse **one** simple_selector. (Though we might insert a second /// implied "|*" type selector.) fn parse_negation(parser: &P, input: &mut CssParser) -> Result, ()> where P: Parser, Impl: SelectorImpl { let mut v = ParseVec::new(); parse_compound_selector(parser, input, &mut v, /* inside_negation = */ true)?; if single_simple_selector(&v) { Ok(Component::Negation(v.into_vec().into_boxed_slice())) } else { Err(()) } } // A single type selector can be represented as two components fn single_simple_selector(v: &[Component]) -> bool { v.len() == 1 || ( v.len() == 2 && match v[1] { Component::LocalName(_) | Component::ExplicitUniversalType => { debug_assert!(matches!(v[0], Component::ExplicitAnyNamespace | Component::ExplicitNoNamespace | Component::DefaultNamespace(_) | Component::Namespace(..) )); true } _ => false, } ) } /// simple_selector_sequence /// : [ type_selector | universal ] [ HASH | class | attrib | pseudo | negation ]* /// | [ HASH | class | attrib | pseudo | negation ]+ /// /// `Err(())` means invalid selector. /// /// The boolean represent whether a pseudo-element has been parsed. fn parse_compound_selector( parser: &P, input: &mut CssParser, mut sequence: &mut ParseVec, inside_negation: bool) -> Result where P: Parser, Impl: SelectorImpl { // Consume any leading whitespace. loop { let position = input.position(); if !matches!(input.next_including_whitespace(), Ok(Token::WhiteSpace(_))) { input.reset(position); break } } let mut empty = true; if !parse_type_selector(parser, input, &mut sequence)? { if let Some(url) = parser.default_namespace() { // If there was no explicit type selector, but there is a // default namespace, there is an implicit "|*" type // selector. // // Note that this doesn't apply to :not() and :matches() per spec. if !inside_negation { sequence.push(Component::DefaultNamespace(url)) } } } else { empty = false; } let mut pseudo = false; loop { match parse_one_simple_selector(parser, input, inside_negation)? { None => break, Some(SimpleSelectorParseResult::SimpleSelector(s)) => { sequence.push(s); empty = false } Some(SimpleSelectorParseResult::PseudoElement(p)) => { // Try to parse state to its right. let mut state_selectors = ParseVec::new(); loop { match input.next_including_whitespace() { Ok(Token::Colon) => {}, Ok(Token::WhiteSpace(_)) | Err(()) => break, _ => return Err(()), } // TODO(emilio): Functional pseudo-classes too? // We don't need it for now. let name = match input.next_including_whitespace() { Ok(Token::Ident(name)) => name, _ => return Err(()), }; let pseudo_class = P::parse_non_ts_pseudo_class(parser, name)?; if !p.supports_pseudo_class(&pseudo_class) { return Err(()); } state_selectors.push(Component::NonTSPseudoClass(pseudo_class)); } if !sequence.is_empty() { sequence.push(Component::Combinator(Combinator::PseudoElement)); } sequence.push(Component::PseudoElement(p)); for state_selector in state_selectors { sequence.push(state_selector); } pseudo = true; empty = false; break } } } if empty { // An empty selector is invalid. Err(()) } else { Ok(pseudo) } } fn parse_functional_pseudo_class(parser: &P, input: &mut CssParser, name: Cow, inside_negation: bool) -> Result, ()> where P: Parser, Impl: SelectorImpl { match_ignore_ascii_case! { &name, "nth-child" => return parse_nth_pseudo_class(input, Component::NthChild), "nth-of-type" => return parse_nth_pseudo_class(input, Component::NthOfType), "nth-last-child" => return parse_nth_pseudo_class(input, Component::NthLastChild), "nth-last-of-type" => return parse_nth_pseudo_class(input, Component::NthLastOfType), "not" => { if inside_negation { return Err(()) } return parse_negation(parser, input) }, _ => {} } P::parse_non_ts_functional_pseudo_class(parser, name, input) .map(Component::NonTSPseudoClass) } fn parse_nth_pseudo_class(input: &mut CssParser, selector: F) -> Result, ()> where Impl: SelectorImpl, F: FnOnce(i32, i32) -> Component { let (a, b) = parse_nth(input)?; Ok(selector(a, b)) } /// Parse a simple selector other than a type selector. /// /// * `Err(())`: Invalid selector, abort /// * `Ok(None)`: Not a simple selector, could be something else. `input` was not consumed. /// * `Ok(Some(_))`: Parsed a simple selector or pseudo-element fn parse_one_simple_selector(parser: &P, input: &mut CssParser, inside_negation: bool) -> Result>, ()> where P: Parser, Impl: SelectorImpl { let start_position = input.position(); match input.next_including_whitespace() { Ok(Token::IDHash(id)) => { let id = Component::ID(from_cow_str(id)); Ok(Some(SimpleSelectorParseResult::SimpleSelector(id))) } Ok(Token::Delim('.')) => { match input.next_including_whitespace() { Ok(Token::Ident(class)) => { let class = Component::Class(from_cow_str(class)); Ok(Some(SimpleSelectorParseResult::SimpleSelector(class))) } _ => Err(()), } } Ok(Token::SquareBracketBlock) => { let attr = input.parse_nested_block(|input| parse_attribute_selector(parser, input))?; Ok(Some(SimpleSelectorParseResult::SimpleSelector(attr))) } Ok(Token::Colon) => { match input.next_including_whitespace() { Ok(Token::Ident(name)) => { // Supported CSS 2.1 pseudo-elements only. // ** Do not add to this list! ** if name.eq_ignore_ascii_case("before") || name.eq_ignore_ascii_case("after") || name.eq_ignore_ascii_case("first-line") || name.eq_ignore_ascii_case("first-letter") { let pseudo_element = P::parse_pseudo_element(parser, name)?; Ok(Some(SimpleSelectorParseResult::PseudoElement(pseudo_element))) } else { let pseudo_class = parse_simple_pseudo_class(parser, name)?; Ok(Some(SimpleSelectorParseResult::SimpleSelector(pseudo_class))) } } Ok(Token::Function(name)) => { let pseudo = input.parse_nested_block(|input| { parse_functional_pseudo_class(parser, input, name, inside_negation) })?; Ok(Some(SimpleSelectorParseResult::SimpleSelector(pseudo))) } Ok(Token::Colon) => { match input.next_including_whitespace() { Ok(Token::Ident(name)) => { let pseudo = P::parse_pseudo_element(parser, name)?; Ok(Some(SimpleSelectorParseResult::PseudoElement(pseudo))) } _ => Err(()) } } _ => Err(()) } } _ => { input.reset(start_position); Ok(None) } } } fn parse_simple_pseudo_class(parser: &P, name: Cow) -> Result, ()> where P: Parser, Impl: SelectorImpl { (match_ignore_ascii_case! { &name, "first-child" => Ok(Component::FirstChild), "last-child" => Ok(Component::LastChild), "only-child" => Ok(Component::OnlyChild), "root" => Ok(Component::Root), "empty" => Ok(Component::Empty), "first-of-type" => Ok(Component::FirstOfType), "last-of-type" => Ok(Component::LastOfType), "only-of-type" => Ok(Component::OnlyOfType), _ => Err(()) }).or_else(|()| { P::parse_non_ts_pseudo_class(parser, name) .map(Component::NonTSPseudoClass) }) } // NB: pub module in order to access the DummyParser #[cfg(test)] pub mod tests { use cssparser::{Parser as CssParser, ToCss, serialize_identifier}; use parser; use std::borrow::Cow; use std::collections::HashMap; use std::fmt; use super::*; #[derive(PartialEq, Clone, Debug, Eq)] pub enum PseudoClass { Hover, Active, Lang(String), } #[derive(Eq, PartialEq, Clone, Debug)] pub enum PseudoElement { Before, After, } impl parser::PseudoElement for PseudoElement { type Impl = DummySelectorImpl; fn supports_pseudo_class(&self, pc: &PseudoClass) -> bool { match *pc { PseudoClass::Hover => true, PseudoClass::Active | PseudoClass::Lang(..) => false, } } } impl ToCss for PseudoClass { fn to_css(&self, dest: &mut W) -> fmt::Result where W: fmt::Write { match *self { PseudoClass::Hover => dest.write_str(":hover"), PseudoClass::Active => dest.write_str(":active"), PseudoClass::Lang(ref lang) => { dest.write_str(":lang(")?; serialize_identifier(lang, dest)?; dest.write_char(')') } } } } impl ToCss for PseudoElement { fn to_css(&self, dest: &mut W) -> fmt::Result where W: fmt::Write { match *self { PseudoElement::Before => dest.write_str("::before"), PseudoElement::After => dest.write_str("::after"), } } } impl SelectorMethods for PseudoClass { type Impl = DummySelectorImpl; fn visit(&self, _visitor: &mut V) -> bool where V: SelectorVisitor { true } } #[derive(Clone, PartialEq, Debug)] pub struct DummySelectorImpl; #[derive(Default)] pub struct DummyParser { default_ns: Option, ns_prefixes: HashMap, } impl SelectorImpl for DummySelectorImpl { type AttrValue = DummyAtom; type Identifier = DummyAtom; type ClassName = DummyAtom; type LocalName = DummyAtom; type NamespaceUrl = DummyAtom; type NamespacePrefix = DummyAtom; type BorrowedLocalName = DummyAtom; type BorrowedNamespaceUrl = DummyAtom; type NonTSPseudoClass = PseudoClass; type PseudoElement = PseudoElement; } #[derive(Default, Debug, Clone, PartialEq, Eq, Hash)] pub struct DummyAtom(String); impl fmt::Display for DummyAtom { fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result { ::fmt(&self.0, fmt) } } impl From for DummyAtom { fn from(string: String) -> Self { DummyAtom(string) } } impl<'a> From<&'a str> for DummyAtom { fn from(string: &'a str) -> Self { DummyAtom(string.into()) } } impl PrecomputedHash for DummyAtom { fn precomputed_hash(&self) -> u32 { return 0 } } impl Parser for DummyParser { type Impl = DummySelectorImpl; fn parse_non_ts_pseudo_class(&self, name: Cow) -> Result { match_ignore_ascii_case! { &name, "hover" => Ok(PseudoClass::Hover), "active" => Ok(PseudoClass::Active), _ => Err(()) } } fn parse_non_ts_functional_pseudo_class(&self, name: Cow, parser: &mut CssParser) -> Result { match_ignore_ascii_case! { &name, "lang" => Ok(PseudoClass::Lang(try!(parser.expect_ident_or_string()).into_owned())), _ => Err(()) } } fn parse_pseudo_element(&self, name: Cow) -> Result { match_ignore_ascii_case! { &name, "before" => Ok(PseudoElement::Before), "after" => Ok(PseudoElement::After), _ => Err(()) } } fn default_namespace(&self) -> Option { self.default_ns.clone() } fn namespace_for_prefix(&self, prefix: &DummyAtom) -> Option { self.ns_prefixes.get(prefix).cloned() } } fn parse(input: &str) -> Result, ()> { parse_ns(input, &DummyParser::default()) } fn parse_ns(input: &str, parser: &DummyParser) -> Result, ()> { let result = SelectorList::parse(parser, &mut CssParser::new(input)); if let Ok(ref selectors) = result { assert_eq!(selectors.0.len(), 1); assert_eq!(selectors.0[0].to_css_string(), input); } result } fn specificity(a: u32, b: u32, c: u32) -> u32 { a << 20 | b << 10 | c } #[test] fn test_empty() { let list = SelectorList::parse(&DummyParser::default(), &mut CssParser::new(":empty")); assert!(list.is_ok()); } const MATHML: &'static str = "http://www.w3.org/1998/Math/MathML"; const SVG: &'static str = "http://www.w3.org/2000/svg"; #[test] fn test_parsing() { assert_eq!(parse(""), Err(())) ; assert_eq!(parse(":lang(4)"), Err(())) ; assert_eq!(parse(":lang(en US)"), Err(())) ; assert_eq!(parse("EeÉ"), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec!( Component::LocalName(LocalName { name: DummyAtom::from("EeÉ"), lower_name: DummyAtom::from("eeÉ") })), ), specificity_and_flags: specificity(0, 0, 1), })))); assert_eq!(parse("|e"), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec!( Component::ExplicitNoNamespace, Component::LocalName(LocalName { name: DummyAtom::from("e"), lower_name: DummyAtom::from("e") }), )), specificity_and_flags: specificity(0, 0, 1), })))); // https://github.com/servo/servo/issues/16020 assert_eq!(parse("*|e"), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec!( Component::ExplicitAnyNamespace, Component::LocalName(LocalName { name: DummyAtom::from("e"), lower_name: DummyAtom::from("e") }), )), specificity_and_flags: specificity(0, 0, 1), })))); assert_eq!(parse("*"), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec!( Component::ExplicitUniversalType, )), specificity_and_flags: specificity(0, 0, 0), })))); assert_eq!(parse("|*"), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec!( Component::ExplicitNoNamespace, Component::ExplicitUniversalType, )), specificity_and_flags: specificity(0, 0, 0), })))); assert_eq!(parse("*|*"), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec!( Component::ExplicitAnyNamespace, Component::ExplicitUniversalType, )), specificity_and_flags: specificity(0, 0, 0), })))); assert_eq!(parse(".foo:lang(en-US)"), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec![ Component::Class(DummyAtom::from("foo")), Component::NonTSPseudoClass(PseudoClass::Lang("en-US".to_owned())) ]), specificity_and_flags: specificity(0, 2, 0), })))); assert_eq!(parse("#bar"), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec!(Component::ID(DummyAtom::from("bar")))), specificity_and_flags: specificity(1, 0, 0), })))); assert_eq!(parse("e.foo#bar"), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec!(Component::LocalName(LocalName { name: DummyAtom::from("e"), lower_name: DummyAtom::from("e") }), Component::Class(DummyAtom::from("foo")), Component::ID(DummyAtom::from("bar")))), specificity_and_flags: specificity(1, 1, 1), })))); assert_eq!(parse("e.foo #bar"), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec!( Component::LocalName(LocalName { name: DummyAtom::from("e"), lower_name: DummyAtom::from("e") }), Component::Class(DummyAtom::from("foo")), Component::Combinator(Combinator::Descendant), Component::ID(DummyAtom::from("bar")), )), specificity_and_flags: specificity(1, 1, 1), })))); // Default namespace does not apply to attribute selectors // https://github.com/mozilla/servo/pull/1652 let mut parser = DummyParser::default(); assert_eq!(parse_ns("[Foo]", &parser), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec![ Component::AttributeInNoNamespaceExists { local_name: DummyAtom::from("Foo"), local_name_lower: DummyAtom::from("foo"), } ]), specificity_and_flags: specificity(0, 1, 0), })))); assert_eq!(parse_ns("svg|circle", &parser), Err(())); parser.ns_prefixes.insert(DummyAtom("svg".into()), DummyAtom(SVG.into())); assert_eq!(parse_ns("svg|circle", &parser), Ok(SelectorList(vec![Selector { inner: SelectorInner::from_vec( vec![ Component::Namespace(DummyAtom("svg".into()), SVG.into()), Component::LocalName(LocalName { name: DummyAtom::from("circle"), lower_name: DummyAtom::from("circle"), }) ]), specificity_and_flags: specificity(0, 0, 1), }]))); assert_eq!(parse_ns("svg|*", &parser), Ok(SelectorList(vec![Selector { inner: SelectorInner::from_vec( vec![ Component::Namespace(DummyAtom("svg".into()), SVG.into()), Component::ExplicitUniversalType, ]), specificity_and_flags: specificity(0, 0, 0), }]))); // Default namespace does not apply to attribute selectors // https://github.com/mozilla/servo/pull/1652 // but it does apply to implicit type selectors // https://github.com/servo/rust-selectors/pull/82 parser.default_ns = Some(MATHML.into()); assert_eq!(parse_ns("[Foo]", &parser), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec( vec![ Component::DefaultNamespace(MATHML.into()), Component::AttributeInNoNamespaceExists { local_name: DummyAtom::from("Foo"), local_name_lower: DummyAtom::from("foo"), }, ]), specificity_and_flags: specificity(0, 1, 0), })))); // Default namespace does apply to type selectors assert_eq!(parse_ns("e", &parser), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec( vec!( Component::DefaultNamespace(MATHML.into()), Component::LocalName(LocalName { name: DummyAtom::from("e"), lower_name: DummyAtom::from("e") }), )), specificity_and_flags: specificity(0, 0, 1), })))); assert_eq!(parse_ns("*", &parser), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec( vec!( Component::DefaultNamespace(MATHML.into()), Component::ExplicitUniversalType, )), specificity_and_flags: specificity(0, 0, 0), })))); assert_eq!(parse_ns("*|*", &parser), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec( vec!( Component::ExplicitAnyNamespace, Component::ExplicitUniversalType, )), specificity_and_flags: specificity(0, 0, 0), })))); // Default namespace applies to universal and type selectors inside :not and :matches, // but not otherwise. assert_eq!(parse_ns(":not(.cl)", &parser), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec!( Component::DefaultNamespace(MATHML.into()), Component::Negation(vec![ Component::Class(DummyAtom::from("cl")) ].into_boxed_slice()), )), specificity_and_flags: specificity(0, 1, 0), })))); assert_eq!(parse_ns(":not(*)", &parser), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec!( Component::DefaultNamespace(MATHML.into()), Component::Negation(vec![ Component::DefaultNamespace(MATHML.into()), Component::ExplicitUniversalType, ].into_boxed_slice()), )), specificity_and_flags: specificity(0, 0, 0), })))); assert_eq!(parse_ns(":not(e)", &parser), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec!( Component::DefaultNamespace(MATHML.into()), Component::Negation(vec![ Component::DefaultNamespace(MATHML.into()), Component::LocalName(LocalName { name: DummyAtom::from("e"), lower_name: DummyAtom::from("e") }), ].into_boxed_slice()) )), specificity_and_flags: specificity(0, 0, 1), })))); assert_eq!(parse("[attr |= \"foo\"]"), Ok(SelectorList(vec![Selector { inner: SelectorInner::from_vec( vec![ Component::AttributeInNoNamespace { local_name: DummyAtom::from("attr"), local_name_lower: DummyAtom::from("attr"), operator: AttrSelectorOperator::DashMatch, value: DummyAtom::from("foo"), never_matches: false, case_sensitivity: ParsedCaseSensitivity::CaseSensitive, } ]), specificity_and_flags: specificity(0, 1, 0), }]))); // https://github.com/mozilla/servo/issues/1723 assert_eq!(parse("::before"), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec( vec![ Component::PseudoElement(PseudoElement::Before), ] ), specificity_and_flags: specificity(0, 0, 1) | HAS_PSEUDO_BIT, })))); assert_eq!(parse("::before:hover"), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec( vec![ Component::PseudoElement(PseudoElement::Before), Component::NonTSPseudoClass(PseudoClass::Hover), ] ), specificity_and_flags: specificity(0, 1, 1) | HAS_PSEUDO_BIT, })))); assert_eq!(parse("::before:hover:hover"), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec( vec![ Component::PseudoElement(PseudoElement::Before), Component::NonTSPseudoClass(PseudoClass::Hover), Component::NonTSPseudoClass(PseudoClass::Hover), ] ), specificity_and_flags: specificity(0, 2, 1) | HAS_PSEUDO_BIT, })))); assert_eq!(parse("::before:hover:active"), Err(())); assert_eq!(parse("::before:hover .foo"), Err(())); assert_eq!(parse("::before .foo"), Err(())); assert_eq!(parse("::before ~ bar"), Err(())); assert_eq!(parse("::before:active"), Err(())); // https://github.com/servo/servo/issues/15335 assert_eq!(parse(":: before"), Err(())); assert_eq!(parse("div ::after"), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec( vec![ Component::LocalName(LocalName { name: DummyAtom::from("div"), lower_name: DummyAtom::from("div") }), Component::Combinator(Combinator::Descendant), Component::Combinator(Combinator::PseudoElement), Component::PseudoElement(PseudoElement::After), ]), specificity_and_flags: specificity(0, 0, 2) | HAS_PSEUDO_BIT, })))); assert_eq!(parse("#d1 > .ok"), Ok(SelectorList(vec![Selector { inner: SelectorInner::from_vec( vec![ Component::ID(DummyAtom::from("d1")), Component::Combinator(Combinator::Child), Component::Class(DummyAtom::from("ok")), ]), specificity_and_flags: (1 << 20) + (1 << 10) + (0 << 0), }]))); parser.default_ns = None; assert_eq!(parse(":not(#provel.old)"), Err(())); assert_eq!(parse(":not(#provel > old)"), Err(())); assert!(parse("table[rules]:not([rules = \"none\"]):not([rules = \"\"])").is_ok()); assert_eq!(parse(":not(#provel)"), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec!(Component::Negation( vec![ Component::ID(DummyAtom::from("provel")), ].into_boxed_slice() ))), specificity_and_flags: specificity(1, 0, 0), })))); assert_eq!(parse_ns(":not(svg|circle)", &parser), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec!(Component::Negation( vec![ Component::Namespace(DummyAtom("svg".into()), SVG.into()), Component::LocalName(LocalName { name: DummyAtom::from("circle"), lower_name: DummyAtom::from("circle") }), ].into_boxed_slice() ))), specificity_and_flags: specificity(0, 0, 1), })))); // https://github.com/servo/servo/issues/16017 assert_eq!(parse_ns(":not(*)", &parser), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec!(Component::Negation( vec![ Component::ExplicitUniversalType, ].into_boxed_slice() ))), specificity_and_flags: specificity(0, 0, 0), })))); assert_eq!(parse_ns(":not(|*)", &parser), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec!(Component::Negation( vec![ Component::ExplicitNoNamespace, Component::ExplicitUniversalType, ].into_boxed_slice() ))), specificity_and_flags: specificity(0, 0, 0), })))); assert_eq!(parse_ns(":not(*|*)", &parser), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec!(Component::Negation( vec![ Component::ExplicitAnyNamespace, Component::ExplicitUniversalType, ].into_boxed_slice() ))), specificity_and_flags: specificity(0, 0, 0), })))); assert_eq!(parse_ns(":not(svg|*)", &parser), Ok(SelectorList(vec!(Selector { inner: SelectorInner::from_vec(vec!(Component::Negation( vec![ Component::Namespace(DummyAtom("svg".into()), SVG.into()), Component::ExplicitUniversalType, ].into_boxed_slice() ))), specificity_and_flags: specificity(0, 0, 0), })))); } #[test] fn test_pseudo_iter() { let selector = &parse("q::before").unwrap().0[0]; assert!(!selector.is_universal()); let mut iter = selector.inner.complex.iter(); assert_eq!(iter.next(), Some(&Component::PseudoElement(PseudoElement::Before))); assert_eq!(iter.next(), None); let combinator = iter.next_sequence(); assert_eq!(combinator, Some(Combinator::PseudoElement)); assert!(matches!(iter.next(), Some(&Component::LocalName(..)))); assert_eq!(iter.next(), None); assert_eq!(iter.next_sequence(), None); } #[test] fn test_universal() { let selector = &parse("*|*::before").unwrap().0[0]; assert!(selector.is_universal()); } #[test] fn test_empty_pseudo_iter() { let selector = &parse("::before").unwrap().0[0]; assert!(selector.is_universal()); let mut iter = selector.inner.complex.iter(); assert_eq!(iter.next(), Some(&Component::PseudoElement(PseudoElement::Before))); assert_eq!(iter.next(), None); assert_eq!(iter.next_sequence(), None); } struct TestVisitor { seen: Vec, } impl SelectorVisitor for TestVisitor { type Impl = DummySelectorImpl; fn visit_simple_selector(&mut self, s: &Component) -> bool { let mut dest = String::new(); s.to_css(&mut dest).unwrap(); self.seen.push(dest); true } } #[test] fn visitor() { let mut test_visitor = TestVisitor { seen: vec![], }; parse(":not(:hover) ~ label").unwrap().0[0].visit(&mut test_visitor); assert!(test_visitor.seen.contains(&":hover".into())); let mut test_visitor = TestVisitor { seen: vec![], }; parse("::before:hover").unwrap().0[0].visit(&mut test_visitor); assert!(test_visitor.seen.contains(&":hover".into())); } }