pub fn u32<I, E: ParseError<I>>(endian: Endianness) -> impl Parser<I, u32, E>where
I: StreamIsPartial + Stream<Token = u8>,
<I as Stream>::Slice: AsBytes,Expand description
Recognizes an unsigned 4 byte integer
If the parameter is winnow::number::Endianness::Big, parse a big endian u32 integer,
otherwise if winnow::number::Endianness::Little parse a little endian u32 integer.
Complete version: returns an error if there is not enough input data
Partial version: Will return Err(winnow::error::ErrMode::Incomplete(_)) if there is not enough data.
Example
use winnow::number::u32;
let be_u32 = |s| {
u32(winnow::number::Endianness::Big).parse_next(s)
};
assert_eq!(be_u32(&b"\x00\x03\x05\x07abcefg"[..]), Ok((&b"abcefg"[..], 0x00030507)));
assert_eq!(be_u32(&b"\x01"[..]), Err(ErrMode::Backtrack(Error::new(&[0x01][..], ErrorKind::Slice))));
let le_u32 = |s| {
u32(winnow::number::Endianness::Little).parse_next(s)
};
assert_eq!(le_u32(&b"\x00\x03\x05\x07abcefg"[..]), Ok((&b"abcefg"[..], 0x07050300)));
assert_eq!(le_u32(&b"\x01"[..]), Err(ErrMode::Backtrack(Error::new(&[0x01][..], ErrorKind::Slice))));use winnow::number::u32;
let be_u32 = |s| {
u32::<_, Error<_>>(winnow::number::Endianness::Big).parse_next(s)
};
assert_eq!(be_u32(Partial::new(&b"\x00\x03\x05\x07abcefg"[..])), Ok((Partial::new(&b"abcefg"[..]), 0x00030507)));
assert_eq!(be_u32(Partial::new(&b"\x01"[..])), Err(ErrMode::Incomplete(Needed::new(3))));
let le_u32 = |s| {
u32::<_, Error<_>>(winnow::number::Endianness::Little).parse_next(s)
};
assert_eq!(le_u32(Partial::new(&b"\x00\x03\x05\x07abcefg"[..])), Ok((Partial::new(&b"abcefg"[..]), 0x07050300)));
assert_eq!(le_u32(Partial::new(&b"\x01"[..])), Err(ErrMode::Incomplete(Needed::new(3))));