/* 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 super::{BasicParseError, Parser, ParserInput, Token};
/// Parse the *An+B* notation, as found in the `:nth-child()` selector.
/// The input is typically the arguments of a function,
/// in which case the caller needs to check if the arguments’ parser is exhausted.
/// Return `Ok((A, B))`, or an `Err(..)` for a syntax error.
pub fn parse_nth<
'i>(input: &mut Parser<'i,
'_>) -> Result<(i32, i32), BasicParseError<'i>> {
match *input.next()? {
Token::Number {
int_value: Some(b), ..
} => Ok((
0, b)),
Token::Dimension {
int_value: Some(a),
ref unit,
..
} => {
match_ignore_ascii_case! {
unit,
"n" => Ok(parse_b(input, a)?),
"n-" => Ok(parse_signless_b(input, a, -
1)?),
_ =>
match parse_n_dash_digits(unit) {
Ok(b) => Ok((a, b)),
Err(()) => {
let unit = unit.clone();
Err(input.new_basic_unexpected_token_error(Token::Ident(unit)))
}
}
}
}
Token::Ident(
ref value) => {
match_ignore_ascii_case! { value,
"even" => Ok((
2,
0)),
"odd" => Ok((
2,
1)),
"n" => Ok(parse_b(input,
1)?),
"-n" => Ok(parse_b(input, -
1)?),
"n-" => Ok(parse_signless_b(input,
1, -
1)?),
"-n-" => Ok(parse_signless_b(input, -
1, -
1)?),
_ => {
let (slice, a) =
if let Some(stripped) = value.strip_prefix(
'-') {
(stripped, -
1)
}
else {
(&**value,
1)
};
match parse_n_dash_digits(slice) {
Ok(b) => Ok((a, b)),
Err(()) => {
let value = value.clone();
Err(input.new_basic_unexpected_token_error(Token::Ident(value)))
}
}
}
}
}
Token::Delim(
'+') =>
match *input.next_including_whitespace()? {
Token::Ident(
ref value) => {
match_ignore_ascii_case! { value,
"n" => parse_b(input,
1),
"n-" => parse_signless_b(input,
1, -
1),
_ =>
match parse_n_dash_digits(value) {
Ok(b) => Ok((
1, b)),
Err(()) => {
let value = value.clone();
Err(input.new_basic_unexpected_token_error(Token::Ident(value)))
}
}
}
}
ref token => {
let token = token.clone();
Err(input.new_basic_unexpected_token_error(token))
}
},
ref token => {
let token = token.clone();
Err(input.new_basic_unexpected_token_error(token))
}
}
}
fn parse_b<
'i>(input: &mut Parser<'i,
'_>, a: i32) -> Result<(i32, i32), BasicParseError<'i>> {
let start = input.state();
match input.next() {
Ok(&Token::Delim(
'+')) => parse_signless_b(input, a,
1),
Ok(&Token::Delim(
'-')) => parse_signless_b(input, a, -
1),
Ok(&Token::Number {
has_sign:
true,
int_value: Some(b),
..
}) => Ok((a, b)),
_ => {
input.reset(&start);
Ok((a,
0))
}
}
}
fn parse_signless_b<
'i>(
input: &
mut Parser<
'i, '_>,
a: i32,
b_sign: i32,
) -> Result<(i32, i32), BasicParseError<
'i>> {
// FIXME: remove .clone() when lifetimes are non-lexical.
match input.next()?.clone() {
Token::Number {
has_sign:
false,
int_value: Some(b),
..
} => Ok((a, b_sign * b)),
token => Err(input.new_basic_unexpected_token_error(token)),
}
}
fn parse_n_dash_digits(string: &str) -> Result<i32, ()> {
let bytes = string.as_bytes();
if bytes.len() >=
3
&& bytes[..
2].eq_ignore_ascii_case(b
"n-")
&& bytes[
2..].iter().all(|&c| c.is_ascii_digit())
{
Ok(parse_number_saturate(&string[
1..]).unwrap())
// Include the minus sign
}
else {
Err(())
}
}
fn parse_number_saturate(string: &str) -> Result<i32, ()> {
let mut input = ParserInput::new(string);
let mut parser = Parser::new(&
mut input);
let int =
if let Ok(&Token::Number {
int_value: Some(int),
..
}) = parser.next_including_whitespace_and_comments()
{
int
}
else {
return Err(());
};
if !parser.is_exhausted() {
return Err(());
}
Ok(int)
}