use super::{CompoundSelector, Pseudo, SelectorList, SimpleSelector}; use std::fmt::{self, Display, Write}; /// A complex selector. /// /// A complex selector is composed of `CompoundSelector`s separated by /// `Combinator`s. It selects elements based on their parent selectors. #[derive(Clone, Debug, Eq, PartialEq)] pub(crate) struct ComplexSelector { /// The components of this selector. /// /// This is never empty. /// /// Descendant combinators aren't explicitly represented here. If two /// `CompoundSelector`s are adjacent to one another, there's an implicit /// descendant combinator between them. /// /// It's possible for multiple `Combinator`s to be adjacent to one another. /// This isn't valid CSS, but Sass supports it for CSS hack purposes. pub components: Vec, /// Whether a line break should be emitted *before* this selector. pub line_break: bool, } impl fmt::Display for ComplexSelector { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { let mut last_component = None; for component in &self.components { if let Some(c) = last_component { if !omit_spaces_around(c) && !omit_spaces_around(component) { f.write_char(' ')?; } } write!(f, "{}", component)?; last_component = Some(component); } Ok(()) } } /// When `style` is `OutputStyle::compressed`, omit spaces around combinators. fn omit_spaces_around(component: &ComplexSelectorComponent) -> bool { // todo: compressed let is_compressed = false; is_compressed && matches!(component, ComplexSelectorComponent::Combinator(..)) } impl ComplexSelector { // pub fn specificity(&self) -> Specificity { // let mut min = 0; // let mut max = 0; // for component in self.components.iter() { // todo!() // // min += simple.min_specificity(); // // max += simple.max_specificity(); // } // Specificity::new(min, max) // } pub fn is_invisible(&self) -> bool { self.components .iter() .any(ComplexSelectorComponent::is_invisible) } /// Returns whether `self` is a superselector of `other`. /// /// That is, whether `self` matches every element that `other` matches, as well /// as possibly additional elements. pub fn is_super_selector(&self, other: &Self) -> bool { if let Some(ComplexSelectorComponent::Combinator(..)) = self.components.last() { return false; } if let Some(ComplexSelectorComponent::Combinator(..)) = other.components.last() { return false; } let mut i1 = 0; let mut i2 = 0; loop { let remaining1 = self.components.len() - i1; let remaining2 = other.components.len() - i2; if remaining1 == 0 || remaining2 == 0 || remaining1 > remaining2 { return false; } let compound1 = match self.components.get(i1) { Some(ComplexSelectorComponent::Compound(c)) => c, Some(ComplexSelectorComponent::Combinator(..)) => return false, None => unreachable!(), }; if let ComplexSelectorComponent::Combinator(..) = other.components[i2] { return false; } if remaining1 == 1 { let parents = other .components .iter() .take(other.components.len() - 1) .skip(i2) .cloned() .collect(); return compound1.is_super_selector( other.components.last().unwrap().as_compound(), &Some(parents), ); } let mut after_super_selector = i2 + 1; while after_super_selector < other.components.len() { if let Some(ComplexSelectorComponent::Compound(compound2)) = other.components.get(after_super_selector - 1) { if compound1.is_super_selector( compound2, &Some( other .components .iter() .take(after_super_selector - 1) .skip(i2 + 1) .cloned() .collect(), ), ) { break; } } after_super_selector += 1; } if after_super_selector == other.components.len() { return false; } if let Some(ComplexSelectorComponent::Combinator(combinator1)) = self.components.get(i1 + 1) { let combinator2 = match other.components.get(after_super_selector) { Some(ComplexSelectorComponent::Combinator(c)) => c, Some(ComplexSelectorComponent::Compound(..)) => return false, None => unreachable!(), }; if combinator1 == &Combinator::FollowingSibling { if combinator2 == &Combinator::Child { return false; } } else if combinator1 != combinator2 { return false; } if remaining1 == 3 && remaining2 > 3 { return false; } i1 += 2; i2 = after_super_selector + 1; } else if let Some(ComplexSelectorComponent::Combinator(combinator2)) = other.components.get(after_super_selector) { if combinator2 != &Combinator::Child { return false; } i1 += 1; i2 = after_super_selector + 1; } else { i1 += 1; i2 = after_super_selector; } } } pub fn contains_parent_selector(&self) -> bool { self.components.iter().any(|c| { if let ComplexSelectorComponent::Compound(compound) = c { compound.components.iter().any(|simple| { if simple.is_parent() { return true; } if let SimpleSelector::Pseudo(Pseudo { selector: Some(sel), .. }) = simple { return sel.contains_parent_selector(); } false }) } else { false } }) } } #[derive(Clone, Debug, Eq, PartialEq, Copy)] pub(crate) enum Combinator { /// Matches the right-hand selector if it's immediately adjacent to the /// left-hand selector in the DOM tree. /// /// `'+'` NextSibling, /// Matches the right-hand selector if it's a direct child of the left-hand /// selector in the DOM tree. /// /// `'>'` Child, /// Matches the right-hand selector if it comes after the left-hand selector /// in the DOM tree. /// /// `'~'` FollowingSibling, } impl Display for Combinator { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.write_char(match self { Self::NextSibling => '+', Self::Child => '>', Self::FollowingSibling => '~', }) } } #[derive(Clone, Debug, Eq, PartialEq)] pub(crate) enum ComplexSelectorComponent { Combinator(Combinator), Compound(CompoundSelector), } impl ComplexSelectorComponent { pub fn is_invisible(&self) -> bool { match self { Self::Combinator(..) => false, Self::Compound(c) => c.is_invisible(), } } pub fn is_compound(&self) -> bool { matches!(self, Self::Compound(..)) } pub fn is_combinator(&self) -> bool { matches!(self, Self::Combinator(..)) } pub fn resolve_parent_selectors(self, parent: SelectorList) -> Option> { match self { Self::Compound(c) => c.resolve_parent_selectors(parent), Self::Combinator(..) => todo!(), } } pub fn as_compound(&self) -> &CompoundSelector { match self { Self::Compound(c) => c, Self::Combinator(..) => unreachable!(), } } } impl Display for ComplexSelectorComponent { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { match self { Self::Compound(c) => write!(f, "{}", c), Self::Combinator(c) => write!(f, "{}", c), } } }