404 lines
14 KiB
Rust
404 lines
14 KiB
Rust
use crate::common::{Scope, Symbol};
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use crate::utils::{devour_whitespace, eat_interpolation, IsWhitespace};
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use crate::{Token, TokenKind};
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use std::fmt::{self, Display};
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use std::iter::Peekable;
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use std::string::ToString;
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use std::vec::IntoIter;
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#[derive(Clone, Debug, Eq, PartialEq)]
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pub(crate) struct Selector(pub Vec<SelectorKind>);
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impl Display for Selector {
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fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
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let mut iter = self.0.iter().peekable();
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while let Some(s) = iter.next() {
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match s {
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SelectorKind::Whitespace => continue,
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SelectorKind::Attribute(_)
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| SelectorKind::Pseudo(_)
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| SelectorKind::PseudoParen(..)
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| SelectorKind::Class
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| SelectorKind::Id
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| SelectorKind::Universal
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| SelectorKind::InterpolatedSuper
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| SelectorKind::Element(_) => {
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write!(f, "{}", s)?;
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if devour_whitespace(&mut iter) {
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match iter.peek() {
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Some(SelectorKind::Attribute(_))
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| Some(SelectorKind::Pseudo(_))
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| Some(SelectorKind::PseudoParen(..))
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| Some(SelectorKind::Class)
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| Some(SelectorKind::Id)
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| Some(SelectorKind::Universal)
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| Some(SelectorKind::InterpolatedSuper)
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| Some(SelectorKind::Element(_)) => {
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write!(f, " ")?;
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}
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_ => {}
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}
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}
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}
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_ => write!(f, "{}", s)?,
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}
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}
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write!(f, "")
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}
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}
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#[derive(Clone, Debug, Eq, PartialEq)]
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pub(crate) enum SelectorKind {
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/// An element selector: `button`
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Element(String),
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/// An id selector: `#footer`
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Id,
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/// A single class selector: `.button-active`
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Class,
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/// A universal selector: `*`
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Universal,
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/// Multiple unrelated selectors: `button, .active`
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Multiple,
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/// Select all immediate children: `ul > li`
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ImmediateChild,
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/// Select all elements immediately following: `div + p`
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Following,
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/// Select elements preceeded by: `p ~ ul`
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Preceding,
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/// Select elements with attribute: `html[lang|=en]`
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Attribute(Attribute),
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/// Pseudo selector: `:hover`
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Pseudo(String),
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/// Pseudo selector with additional parens: `:any(h1, h2, h3, h4, h5, h6)`
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PseudoParen(String, Vec<TokenKind>),
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/// Use the super selector: `&.red`
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Super,
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/// Super selector in an interpolated context: `a #{&}`
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InterpolatedSuper,
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/// Used to signify no selector (when there is no super_selector of a rule)
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None,
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Whitespace,
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}
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impl IsWhitespace for SelectorKind {
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fn is_whitespace(&self) -> bool {
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self == &Self::Whitespace
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}
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}
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impl IsWhitespace for &SelectorKind {
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fn is_whitespace(&self) -> bool {
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self == &&SelectorKind::Whitespace
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}
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}
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impl Display for SelectorKind {
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fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
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match self {
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SelectorKind::Element(s) => write!(f, "{}", s),
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SelectorKind::Id => write!(f, "#"),
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SelectorKind::Class => write!(f, "."),
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SelectorKind::Universal => write!(f, "*"),
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SelectorKind::Whitespace => write!(f, " "),
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SelectorKind::Multiple => write!(f, ", "),
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SelectorKind::ImmediateChild => write!(f, " > "),
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SelectorKind::Following => write!(f, " + "),
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SelectorKind::Preceding => write!(f, " ~ "),
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SelectorKind::Attribute(attr) => write!(f, "{}", attr),
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SelectorKind::Pseudo(s) => write!(f, ":{}", s),
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SelectorKind::PseudoParen(s, toks) => write!(
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f,
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":{}({})",
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s,
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toks.iter().map(ToString::to_string).collect::<String>()
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),
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SelectorKind::Super | SelectorKind::None | SelectorKind::InterpolatedSuper => {
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write!(f, "")
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}
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}
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}
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}
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#[cfg(test)]
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mod test_selector_display {
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use super::*;
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use SelectorKind::*;
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macro_rules! test_selector_display {
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($func:ident, Selector($tok:tt), $output:literal) => {
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#[test]
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fn $func() {
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assert_eq!(format!("{}", Selector(vec!$tok)), $output);
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}
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}
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}
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test_selector_display!(el, Selector((Element("a".to_string()))), "a");
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test_selector_display!(
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keeps_one_whitespace,
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Selector((
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Element("a".to_string()),
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Whitespace,
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Element("b".to_string()),
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)),
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"a b"
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);
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test_selector_display!(
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keeps_one_whitespace_with_two,
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Selector((
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Element("a".to_string()),
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Whitespace,
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Whitespace,
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Element("c".to_string()),
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Whitespace,
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)),
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"a c"
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);
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test_selector_display!(
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keeps_one_whitespace_with_three_els,
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Selector((
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Element("a".to_string()),
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Whitespace,
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Element("a".to_string()),
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Whitespace,
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Element("c".to_string()),
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)),
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"a a c"
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);
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}
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struct SelectorParser<'a> {
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scope: &'a Scope,
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selectors: Vec<SelectorKind>,
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is_interpolated: bool,
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}
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impl<'a> SelectorParser<'a> {
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const fn new(scope: &'a Scope) -> SelectorParser<'a> {
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SelectorParser {
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scope,
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selectors: Vec::new(),
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is_interpolated: false,
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}
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}
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fn all_selectors(mut self, tokens: &'a mut Peekable<IntoIter<Token>>) -> Selector {
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self.tokens_to_selectors(tokens);
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// remove trailing whitespace
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while let Some(x) = self.selectors.pop() {
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if x != SelectorKind::Whitespace {
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self.selectors.push(x);
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break;
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}
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}
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Selector(self.selectors)
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}
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fn consume_pseudo_selector(&mut self, tokens: &'_ mut Peekable<IntoIter<Token>>) {
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if let Some(Token {
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kind: TokenKind::Ident(s),
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..
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}) = tokens.next()
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{
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if let Some(Token {
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kind: TokenKind::Symbol(Symbol::OpenParen),
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..
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}) = tokens.peek()
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{
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tokens.next();
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let mut toks = Vec::new();
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while let Some(Token { kind, .. }) = tokens.peek() {
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if kind == &TokenKind::Symbol(Symbol::CloseParen) {
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break;
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}
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let tok = tokens.next().unwrap();
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toks.push(tok.kind);
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}
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tokens.next();
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self.selectors.push(SelectorKind::PseudoParen(s, toks))
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} else {
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self.selectors.push(SelectorKind::Pseudo(s))
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}
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} else {
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todo!("expected ident after `:` in selector")
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}
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}
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fn tokens_to_selectors(&mut self, tokens: &'_ mut Peekable<IntoIter<Token>>) {
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while tokens.peek().is_some() {
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self.consume_selector(tokens)
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}
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}
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fn consume_selector(&mut self, tokens: &'_ mut Peekable<IntoIter<Token>>) {
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if devour_whitespace(tokens) {
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if let Some(Token {
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kind: TokenKind::Symbol(Symbol::Comma),
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..
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}) = tokens.peek()
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{
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tokens.next();
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self.selectors.push(SelectorKind::Multiple);
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return;
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}
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self.selectors.push(SelectorKind::Whitespace);
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return;
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}
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if let Some(Token { kind, .. }) = tokens.next() {
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match kind {
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TokenKind::Ident(ident) => self.selectors.push(SelectorKind::Element(ident)),
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TokenKind::Symbol(Symbol::Period) => self.selectors.push(SelectorKind::Class),
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TokenKind::Symbol(Symbol::Hash) => self.selectors.push(SelectorKind::Id),
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TokenKind::Symbol(Symbol::Colon) => self.consume_pseudo_selector(tokens),
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TokenKind::Symbol(Symbol::Comma) => self.selectors.push(SelectorKind::Multiple),
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TokenKind::Symbol(Symbol::Gt) => self.selectors.push(SelectorKind::ImmediateChild),
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TokenKind::Symbol(Symbol::Plus) => self.selectors.push(SelectorKind::Following),
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TokenKind::Symbol(Symbol::Tilde) => self.selectors.push(SelectorKind::Preceding),
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TokenKind::Symbol(Symbol::Mul) => self.selectors.push(SelectorKind::Universal),
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TokenKind::Symbol(Symbol::BitAnd) => self.selectors.push(if self.is_interpolated {
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SelectorKind::InterpolatedSuper
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} else {
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SelectorKind::Super
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}),
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TokenKind::Interpolation => {
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self.is_interpolated = true;
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let v = self.tokens_to_selectors(
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&mut eat_interpolation(tokens, self.scope).into_iter().peekable(),
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);
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self.is_interpolated = false;
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v
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}
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TokenKind::Attribute(attr) => self.selectors.push(SelectorKind::Attribute(attr)),
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_ => todo!("unimplemented selector"),
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};
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}
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}
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}
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impl Selector {
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pub fn from_tokens<'a>(
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tokens: &'a mut Peekable<IntoIter<Token>>,
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scope: &'a Scope,
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) -> Selector {
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SelectorParser::new(scope).all_selectors(tokens)
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}
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pub fn zip(&self, other: &Selector) -> Selector {
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if self.0.is_empty() {
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return Selector(other.0.clone());
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}
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let mut rules: Vec<SelectorKind> = Vec::with_capacity(self.0.len() + other.0.len());
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let sel1_split: Vec<&[SelectorKind]> =
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self.0.split(|sel| sel == &SelectorKind::Multiple).collect();
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let sel2_split: Vec<&[SelectorKind]> = other
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.0
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.split(|sel| sel == &SelectorKind::Multiple)
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.collect();
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let len1 = sel1_split.len();
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let len2 = sel2_split.len();
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for (idx, sel1) in sel1_split.into_iter().enumerate() {
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for (idx2, sel2) in sel2_split.iter().enumerate() {
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let mut this_selector: Vec<SelectorKind> = Vec::with_capacity(other.0.len());
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let mut found_super = false;
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for sel in *sel2 {
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if sel == &SelectorKind::Super {
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this_selector.extend(sel1.to_vec());
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found_super = true;
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} else if sel == &SelectorKind::InterpolatedSuper {
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this_selector.extend(sel1.to_vec());
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} else {
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this_selector.push(sel.clone());
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}
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}
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if !found_super {
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rules.extend(sel1.to_vec());
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rules.push(SelectorKind::Whitespace);
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}
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rules.extend(this_selector);
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if !(idx + 1 == len1 && idx2 + 1 == len2) {
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rules.push(SelectorKind::Multiple);
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}
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}
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}
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Selector(rules)
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}
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}
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#[derive(Clone, Debug, Eq, PartialEq)]
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pub(crate) struct Attribute {
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pub attr: String,
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pub value: String,
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pub case_sensitive: CaseKind,
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pub kind: AttributeKind,
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}
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#[derive(Clone, Debug, Eq, PartialEq)]
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pub(crate) enum CaseKind {
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InsensitiveCapital,
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InsensitiveLowercase,
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Sensitive,
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}
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impl Display for CaseKind {
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fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
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match self {
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Self::InsensitiveCapital => write!(f, " I"),
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Self::InsensitiveLowercase => write!(f, " i"),
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Self::Sensitive => write!(f, ""),
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}
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}
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}
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impl Display for Attribute {
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fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
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match self.kind {
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AttributeKind::Any => write!(f, "[{}{}]", self.attr, self.case_sensitive),
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AttributeKind::Equals => {
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write!(f, "[{}={}{}]", self.attr, self.value, self.case_sensitive)
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}
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AttributeKind::InList => {
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write!(f, "[{}~={}{}]", self.attr, self.value, self.case_sensitive)
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}
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AttributeKind::BeginsWithHyphenOrExact => {
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write!(f, "[{}|={}{}]", self.attr, self.value, self.case_sensitive)
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}
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AttributeKind::StartsWith => {
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write!(f, "[{}^={}{}]", self.attr, self.value, self.case_sensitive)
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}
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AttributeKind::EndsWith => {
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write!(f, "[{}$={}{}]", self.attr, self.value, self.case_sensitive)
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}
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AttributeKind::Contains => {
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write!(f, "[{}*={}{}]", self.attr, self.value, self.case_sensitive)
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}
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}
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}
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}
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#[derive(Copy, Clone, Debug, Eq, PartialEq)]
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pub enum AttributeKind {
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/// [attr]
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/// Represents elements with an attribute name of `attr`
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Any,
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/// [attr=value]
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/// Represents elements with an attribute name of `attr` whose value is exactly `value`
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Equals,
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/// [attr~=value]
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/// Represents elements with an attribute name of `attr` whose value is a whitespace-separated list of words, one of which is exactly `value`
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InList,
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/// [attr|=value]
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/// Represents elements with an attribute name of `attr` whose value can be exactly value or can begin with `value` immediately followed by a hyphen (`-`)
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BeginsWithHyphenOrExact,
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/// [attr^=value]
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StartsWith,
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/// [attr$=value]
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EndsWith,
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/// [attr*=value]
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/// Represents elements with an attribute name of `attr` whose value contains at least one occurrence of `value` within the string
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Contains,
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}
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