Trait parser_combinators::ParserExt
[−]
[src]
pub trait ParserExt: Parser + Sized { fn with<P2>(self, p: P2) -> With<Self, P2> where P2: Parser<Input=Self::Input> { ... } fn skip<P2>(self, p: P2) -> Skip<Self, P2> where P2: Parser<Input=Self::Input> { ... } fn and<P2>(self, p: P2) -> And<Self, P2> where P2: Parser<Input=Self::Input> { ... } fn or<P2>(self, p: P2) -> Or<Self, P2> where P2: Parser<Input=Self::Input> { ... } fn then<N, F>(self, f: F) -> Then<Self, F> where F: FnMut(Self::Output) -> N, N: Parser<Input=Self::Input> { ... } fn map<F, B>(self, f: F) -> Map<Self, F> where F: FnMut(Self::Output) -> B { ... } fn message<S>(self, msg: S) -> Message<Self> where S: Into<Info> { ... } fn expected<S>(self, msg: S) -> Expected<Self> where S: Into<Info> { ... } fn and_then<F, O, E>(self, f: F) -> AndThen<Self, F> where F: FnMut(Self::Output) -> Result<O, E>, E: Into<Error> { ... } }
Extension trait which provides functions that are more conveniently used through method calls
Provided Methods
fn with<P2>(self, p: P2) -> With<Self, P2> where P2: Parser<Input=Self::Input>
Discards the value of the self
parser and returns the value of p
Fails if any of the parsers fails
let result = digit() .with(char('i')) .parse("9i") .map(|x| x.0); assert_eq!(result, Ok('i'));
fn skip<P2>(self, p: P2) -> Skip<Self, P2> where P2: Parser<Input=Self::Input>
Discards the value of the p
parser and returns the value of self
Fails if any of the parsers fails
let result = digit() .skip(char('i')) .parse("9i") .map(|x| x.0); assert_eq!(result, Ok('9'));
fn and<P2>(self, p: P2) -> And<Self, P2> where P2: Parser<Input=Self::Input>
Parses with self
followed by p
Succeds if both parsers succed, otherwise fails
Returns a tuple with both values on success
let result = digit() .and(char('i')) .parse("9i") .map(|x| x.0); assert_eq!(result, Ok(('9', 'i')));
fn or<P2>(self, p: P2) -> Or<Self, P2> where P2: Parser<Input=Self::Input>
Tries to parse using self
and if it fails returns the result of parsing p
let result = digit().map(|_| "") .or(string("let")) .parse("let") .map(|x| x.0); assert_eq!(result, Ok("let"));
fn then<N, F>(self, f: F) -> Then<Self, F> where F: FnMut(Self::Output) -> N, N: Parser<Input=Self::Input>
Parses using self
and then passes the value to f
which returns a parser used to parse
the rest of the input
let result = digit() .then(|d| parser(move |input| { if d == '9' { Ok((9, Consumed::Empty(input))) } else { let err = ParseError::new(input.position, Error::Message("Not a nine".into())); Err((Consumed::Empty(err))) } })) .parse("9"); assert_eq!(result, Ok((9, "")));
fn map<F, B>(self, f: F) -> Map<Self, F> where F: FnMut(Self::Output) -> B
Uses f
to map over the parsed value
let result = digit() .map(|c| c == '9') .parse("9") .map(|x| x.0); assert_eq!(result, Ok(true));
fn message<S>(self, msg: S) -> Message<Self> where S: Into<Info>
Parses with self
and if it fails, adds the message msg
to the error
let result = char('9') .message("Not a nine") .parse("8"); assert!(result.is_err()); assert!(result.unwrap_err().errors.iter() .find(|e| **e == Error::Message("Not a nine".into())).is_some());
fn expected<S>(self, msg: S) -> Expected<Self> where S: Into<Info>
Parses with self
and if it fails without consuming any input any expected errors are replaced by
msg
. msg
is then used in error messages as "Expected msg
".
let result = char('9') .expected("9") .parse("8"); assert!(result.is_err()); assert!(result.unwrap_err().errors.iter() .find(|e| **e == Error::Expected("9".into())).is_some());
fn and_then<F, O, E>(self, f: F) -> AndThen<Self, F> where F: FnMut(Self::Output) -> Result<O, E>, E: Into<Error>
Parses with self
and applies f
on the result if self
parses successfully
f
may optionally fail with an error which is automatically converted to a ParseError
let result = many1(digit()) .and_then(|s: String| s.parse::<i32>()) .parse("1234"); assert_eq!(result, Ok((1234, "")));
Implementors
impl<P: Parser> ParserExt for P