nom::number::complete

Function u128

Source
pub fn u128<I, E: ParseError<I>>(
    endian: Endianness,
) -> fn(_: I) -> IResult<I, u128, E>
where I: Slice<RangeFrom<usize>> + InputIter<Item = u8> + InputLength,
Expand description

Recognizes an unsigned 16 byte integer

If the parameter is nom::number::Endianness::Big, parse a big endian u128 integer, otherwise if nom::number::Endianness::Little parse a little endian u128 integer. complete version: returns an error if there is not enough input data

use nom::number::complete::u128;

let be_u128 = |s| {
  u128(nom::number::Endianness::Big)(s)
};

assert_eq!(be_u128(&b"\x00\x01\x02\x03\x04\x05\x06\x07\x00\x01\x02\x03\x04\x05\x06\x07abcefg"[..]), Ok((&b"abcefg"[..], 0x00010203040506070001020304050607)));
assert_eq!(be_u128(&b"\x01"[..]), Err(Err::Error((&[0x01][..], ErrorKind::Eof))));

let le_u128 = |s| {
  u128(nom::number::Endianness::Little)(s)
};

assert_eq!(le_u128(&b"\x00\x01\x02\x03\x04\x05\x06\x07\x00\x01\x02\x03\x04\x05\x06\x07abcefg"[..]), Ok((&b"abcefg"[..], 0x07060504030201000706050403020100)));
assert_eq!(le_u128(&b"\x01"[..]), Err(Err::Error((&[0x01][..], ErrorKind::Eof))));