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-rw-r--r--third_party/rust/nom/src/sequence/mod.rs270
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+//! Combinators applying parsers in sequence
+
+#[cfg(test)]
+mod tests;
+
+use crate::error::ParseError;
+use crate::internal::{IResult, Parser};
+
+/// Gets an object from the first parser,
+/// then gets another object from the second parser.
+///
+/// # Arguments
+/// * `first` The first parser to apply.
+/// * `second` The second parser to apply.
+///
+/// ```rust
+/// # use nom::{Err, error::ErrorKind, Needed};
+/// # use nom::Needed::Size;
+/// use nom::sequence::pair;
+/// use nom::bytes::complete::tag;
+///
+/// let mut parser = pair(tag("abc"), tag("efg"));
+///
+/// assert_eq!(parser("abcefg"), Ok(("", ("abc", "efg"))));
+/// assert_eq!(parser("abcefghij"), Ok(("hij", ("abc", "efg"))));
+/// assert_eq!(parser(""), Err(Err::Error(("", ErrorKind::Tag))));
+/// assert_eq!(parser("123"), Err(Err::Error(("123", ErrorKind::Tag))));
+/// ```
+pub fn pair<I, O1, O2, E: ParseError<I>, F, G>(
+ mut first: F,
+ mut second: G,
+) -> impl FnMut(I) -> IResult<I, (O1, O2), E>
+where
+ F: Parser<I, O1, E>,
+ G: Parser<I, O2, E>,
+{
+ move |input: I| {
+ let (input, o1) = first.parse(input)?;
+ second.parse(input).map(|(i, o2)| (i, (o1, o2)))
+ }
+}
+
+/// Matches an object from the first parser and discards it,
+/// then gets an object from the second parser.
+///
+/// # Arguments
+/// * `first` The opening parser.
+/// * `second` The second parser to get object.
+///
+/// ```rust
+/// # use nom::{Err, error::ErrorKind, Needed};
+/// # use nom::Needed::Size;
+/// use nom::sequence::preceded;
+/// use nom::bytes::complete::tag;
+///
+/// let mut parser = preceded(tag("abc"), tag("efg"));
+///
+/// assert_eq!(parser("abcefg"), Ok(("", "efg")));
+/// assert_eq!(parser("abcefghij"), Ok(("hij", "efg")));
+/// assert_eq!(parser(""), Err(Err::Error(("", ErrorKind::Tag))));
+/// assert_eq!(parser("123"), Err(Err::Error(("123", ErrorKind::Tag))));
+/// ```
+pub fn preceded<I, O1, O2, E: ParseError<I>, F, G>(
+ mut first: F,
+ mut second: G,
+) -> impl FnMut(I) -> IResult<I, O2, E>
+where
+ F: Parser<I, O1, E>,
+ G: Parser<I, O2, E>,
+{
+ move |input: I| {
+ let (input, _) = first.parse(input)?;
+ second.parse(input)
+ }
+}
+
+/// Gets an object from the first parser,
+/// then matches an object from the second parser and discards it.
+///
+/// # Arguments
+/// * `first` The first parser to apply.
+/// * `second` The second parser to match an object.
+///
+/// ```rust
+/// # use nom::{Err, error::ErrorKind, Needed};
+/// # use nom::Needed::Size;
+/// use nom::sequence::terminated;
+/// use nom::bytes::complete::tag;
+///
+/// let mut parser = terminated(tag("abc"), tag("efg"));
+///
+/// assert_eq!(parser("abcefg"), Ok(("", "abc")));
+/// assert_eq!(parser("abcefghij"), Ok(("hij", "abc")));
+/// assert_eq!(parser(""), Err(Err::Error(("", ErrorKind::Tag))));
+/// assert_eq!(parser("123"), Err(Err::Error(("123", ErrorKind::Tag))));
+/// ```
+pub fn terminated<I, O1, O2, E: ParseError<I>, F, G>(
+ mut first: F,
+ mut second: G,
+) -> impl FnMut(I) -> IResult<I, O1, E>
+where
+ F: Parser<I, O1, E>,
+ G: Parser<I, O2, E>,
+{
+ move |input: I| {
+ let (input, o1) = first.parse(input)?;
+ second.parse(input).map(|(i, _)| (i, o1))
+ }
+}
+
+/// Gets an object from the first parser,
+/// then matches an object from the sep_parser and discards it,
+/// then gets another object from the second parser.
+///
+/// # Arguments
+/// * `first` The first parser to apply.
+/// * `sep` The separator parser to apply.
+/// * `second` The second parser to apply.
+///
+/// ```rust
+/// # use nom::{Err, error::ErrorKind, Needed};
+/// # use nom::Needed::Size;
+/// use nom::sequence::separated_pair;
+/// use nom::bytes::complete::tag;
+///
+/// let mut parser = separated_pair(tag("abc"), tag("|"), tag("efg"));
+///
+/// assert_eq!(parser("abc|efg"), Ok(("", ("abc", "efg"))));
+/// assert_eq!(parser("abc|efghij"), Ok(("hij", ("abc", "efg"))));
+/// assert_eq!(parser(""), Err(Err::Error(("", ErrorKind::Tag))));
+/// assert_eq!(parser("123"), Err(Err::Error(("123", ErrorKind::Tag))));
+/// ```
+pub fn separated_pair<I, O1, O2, O3, E: ParseError<I>, F, G, H>(
+ mut first: F,
+ mut sep: G,
+ mut second: H,
+) -> impl FnMut(I) -> IResult<I, (O1, O3), E>
+where
+ F: Parser<I, O1, E>,
+ G: Parser<I, O2, E>,
+ H: Parser<I, O3, E>,
+{
+ move |input: I| {
+ let (input, o1) = first.parse(input)?;
+ let (input, _) = sep.parse(input)?;
+ second.parse(input).map(|(i, o2)| (i, (o1, o2)))
+ }
+}
+
+/// Matches an object from the first parser and discards it,
+/// then gets an object from the second parser,
+/// and finally matches an object from the third parser and discards it.
+///
+/// # Arguments
+/// * `first` The first parser to apply and discard.
+/// * `second` The second parser to apply.
+/// * `third` The third parser to apply and discard.
+///
+/// ```rust
+/// # use nom::{Err, error::ErrorKind, Needed};
+/// # use nom::Needed::Size;
+/// use nom::sequence::delimited;
+/// use nom::bytes::complete::tag;
+///
+/// let mut parser = delimited(tag("("), tag("abc"), tag(")"));
+///
+/// assert_eq!(parser("(abc)"), Ok(("", "abc")));
+/// assert_eq!(parser("(abc)def"), Ok(("def", "abc")));
+/// assert_eq!(parser(""), Err(Err::Error(("", ErrorKind::Tag))));
+/// assert_eq!(parser("123"), Err(Err::Error(("123", ErrorKind::Tag))));
+/// ```
+pub fn delimited<I, O1, O2, O3, E: ParseError<I>, F, G, H>(
+ mut first: F,
+ mut second: G,
+ mut third: H,
+) -> impl FnMut(I) -> IResult<I, O2, E>
+where
+ F: Parser<I, O1, E>,
+ G: Parser<I, O2, E>,
+ H: Parser<I, O3, E>,
+{
+ move |input: I| {
+ let (input, _) = first.parse(input)?;
+ let (input, o2) = second.parse(input)?;
+ third.parse(input).map(|(i, _)| (i, o2))
+ }
+}
+
+/// Helper trait for the tuple combinator.
+///
+/// This trait is implemented for tuples of parsers of up to 21 elements.
+pub trait Tuple<I, O, E> {
+ /// Parses the input and returns a tuple of results of each parser.
+ fn parse(&mut self, input: I) -> IResult<I, O, E>;
+}
+
+impl<Input, Output, Error: ParseError<Input>, F: Parser<Input, Output, Error>>
+ Tuple<Input, (Output,), Error> for (F,)
+{
+ fn parse(&mut self, input: Input) -> IResult<Input, (Output,), Error> {
+ self.0.parse(input).map(|(i, o)| (i, (o,)))
+ }
+}
+
+macro_rules! tuple_trait(
+ ($name1:ident $ty1:ident, $name2: ident $ty2:ident, $($name:ident $ty:ident),*) => (
+ tuple_trait!(__impl $name1 $ty1, $name2 $ty2; $($name $ty),*);
+ );
+ (__impl $($name:ident $ty: ident),+; $name1:ident $ty1:ident, $($name2:ident $ty2:ident),*) => (
+ tuple_trait_impl!($($name $ty),+);
+ tuple_trait!(__impl $($name $ty),+ , $name1 $ty1; $($name2 $ty2),*);
+ );
+ (__impl $($name:ident $ty: ident),+; $name1:ident $ty1:ident) => (
+ tuple_trait_impl!($($name $ty),+);
+ tuple_trait_impl!($($name $ty),+, $name1 $ty1);
+ );
+);
+
+macro_rules! tuple_trait_impl(
+ ($($name:ident $ty: ident),+) => (
+ impl<
+ Input: Clone, $($ty),+ , Error: ParseError<Input>,
+ $($name: Parser<Input, $ty, Error>),+
+ > Tuple<Input, ( $($ty),+ ), Error> for ( $($name),+ ) {
+
+ fn parse(&mut self, input: Input) -> IResult<Input, ( $($ty),+ ), Error> {
+ tuple_trait_inner!(0, self, input, (), $($name)+)
+
+ }
+ }
+ );
+);
+
+macro_rules! tuple_trait_inner(
+ ($it:tt, $self:expr, $input:expr, (), $head:ident $($id:ident)+) => ({
+ let (i, o) = $self.$it.parse($input.clone())?;
+
+ succ!($it, tuple_trait_inner!($self, i, ( o ), $($id)+))
+ });
+ ($it:tt, $self:expr, $input:expr, ($($parsed:tt)*), $head:ident $($id:ident)+) => ({
+ let (i, o) = $self.$it.parse($input.clone())?;
+
+ succ!($it, tuple_trait_inner!($self, i, ($($parsed)* , o), $($id)+))
+ });
+ ($it:tt, $self:expr, $input:expr, ($($parsed:tt)*), $head:ident) => ({
+ let (i, o) = $self.$it.parse($input.clone())?;
+
+ Ok((i, ($($parsed)* , o)))
+ });
+);
+
+tuple_trait!(FnA A, FnB B, FnC C, FnD D, FnE E, FnF F, FnG G, FnH H, FnI I, FnJ J, FnK K, FnL L,
+ FnM M, FnN N, FnO O, FnP P, FnQ Q, FnR R, FnS S, FnT T, FnU U);
+
+///Applies a tuple of parsers one by one and returns their results as a tuple.
+///There is a maximum of 21 parsers
+/// ```rust
+/// # use nom::{Err, error::ErrorKind};
+/// use nom::sequence::tuple;
+/// use nom::character::complete::{alpha1, digit1};
+/// let mut parser = tuple((alpha1, digit1, alpha1));
+///
+/// assert_eq!(parser("abc123def"), Ok(("", ("abc", "123", "def"))));
+/// assert_eq!(parser("123def"), Err(Err::Error(("123def", ErrorKind::Alpha))));
+/// ```
+pub fn tuple<I, O, E: ParseError<I>, List: Tuple<I, O, E>>(
+ mut l: List,
+) -> impl FnMut(I) -> IResult<I, O, E> {
+ move |i: I| l.parse(i)
+}