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//! Bit level parsers
//!
#[cfg(test)]
mod tests;
use crate::error::{ErrMode, ErrorConvert, ErrorKind, Needed, ParserError};
use crate::lib::std::ops::{AddAssign, Div, Shl, Shr};
use crate::stream::{AsBytes, Stream, StreamIsPartial, ToUsize};
use crate::trace::trace;
use crate::{unpeek, IResult, PResult, Parser};
/// Number of bits in a byte
const BYTE: usize = u8::BITS as usize;
/// Converts a byte-level input to a bit-level input
///
/// See [`bytes`] to convert it back.
///
/// # Example
/// ```
/// use winnow::prelude::*;
/// use winnow::Bytes;
/// use winnow::binary::bits::{bits, take};
/// use winnow::error::InputError;
///
/// type Stream<'i> = &'i Bytes;
///
/// fn stream(b: &[u8]) -> Stream<'_> {
/// Bytes::new(b)
/// }
///
/// fn parse(input: Stream<'_>) -> IResult<Stream<'_>, (u8, u8)> {
/// bits::<_, _, InputError<(_, usize)>, _, _>((take(4usize), take(8usize))).parse_peek(input)
/// }
///
/// let input = stream(&[0x12, 0x34, 0xff, 0xff]);
///
/// let output = parse(input).expect("We take 1.5 bytes and the input is longer than 2 bytes");
///
/// // The first byte is consumed, the second byte is partially consumed and dropped.
/// let remaining = output.0;
/// assert_eq!(remaining, stream(&[0xff, 0xff]));
///
/// let parsed = output.1;
/// assert_eq!(parsed.0, 0x01);
/// assert_eq!(parsed.1, 0x23);
/// ```
pub fn bits<I, O, E1, E2, P>(mut parser: P) -> impl Parser<I, O, E2>
where
E1: ParserError<(I, usize)> + ErrorConvert<E2>,
E2: ParserError<I>,
I: Stream + Clone,
P: Parser<(I, usize), O, E1>,
{
trace(
"bits",
unpeek(move |input: I| {
match parser.parse_peek((input, 0)) {
Ok(((rest, offset), result)) => {
// If the next byte has been partially read, it will be sliced away as well.
// The parser functions might already slice away all fully read bytes.
// That's why `offset / BYTE` isn't necessarily needed at all times.
let remaining_bytes_index =
offset / BYTE + if offset % BYTE == 0 { 0 } else { 1 };
let (input, _) = rest.peek_slice(remaining_bytes_index);
Ok((input, result))
}
Err(ErrMode::Incomplete(n)) => {
Err(ErrMode::Incomplete(n.map(|u| u.get() / BYTE + 1)))
}
Err(e) => Err(e.convert()),
}
}),
)
}
/// Convert a [`bits`] stream back into a byte stream
///
/// **Warning:** A partial byte remaining in the input will be ignored and the given parser will
/// start parsing at the next full byte.
///
/// ```
/// use winnow::prelude::*;
/// use winnow::Bytes;
/// use winnow::binary::bits::{bits, bytes, take};
/// use winnow::combinator::rest;
/// use winnow::error::InputError;
///
/// type Stream<'i> = &'i Bytes;
///
/// fn stream(b: &[u8]) -> Stream<'_> {
/// Bytes::new(b)
/// }
///
/// fn parse(input: Stream<'_>) -> IResult<Stream<'_>, (u8, u8, &[u8])> {
/// bits::<_, _, InputError<(_, usize)>, _, _>((
/// take(4usize),
/// take(8usize),
/// bytes::<_, _, InputError<_>, _, _>(rest)
/// )).parse_peek(input)
/// }
///
/// let input = stream(&[0x12, 0x34, 0xff, 0xff]);
///
/// assert_eq!(parse(input), Ok(( stream(&[]), (0x01, 0x23, &[0xff, 0xff][..]) )));
/// ```
pub fn bytes<I, O, E1, E2, P>(mut parser: P) -> impl Parser<(I, usize), O, E2>
where
E1: ParserError<I> + ErrorConvert<E2>,
E2: ParserError<(I, usize)>,
I: Stream<Token = u8> + Clone,
P: Parser<I, O, E1>,
{
trace(
"bytes",
unpeek(move |(input, offset): (I, usize)| {
let (inner, _) = if offset % BYTE != 0 {
input.peek_slice(1 + offset / BYTE)
} else {
input.peek_slice(offset / BYTE)
};
let i = (input, offset);
match parser.parse_peek(inner) {
Ok((rest, res)) => Ok(((rest, 0), res)),
Err(ErrMode::Incomplete(Needed::Unknown)) => {
Err(ErrMode::Incomplete(Needed::Unknown))
}
Err(ErrMode::Incomplete(Needed::Size(sz))) => {
Err(match sz.get().checked_mul(BYTE) {
Some(v) => ErrMode::Incomplete(Needed::new(v)),
None => ErrMode::Cut(E2::assert(
&i,
"overflow in turning needed bytes into needed bits",
)),
})
}
Err(e) => Err(e.convert()),
}
}),
)
}
/// Parse taking `count` bits
///
/// # Example
/// ```rust
/// # use winnow::prelude::*;
/// # use winnow::Bytes;
/// # use winnow::error::{InputError, ErrorKind};
/// use winnow::binary::bits::take;
///
/// type Stream<'i> = &'i Bytes;
///
/// fn stream(b: &[u8]) -> Stream<'_> {
/// Bytes::new(b)
/// }
///
/// fn parser(input: (Stream<'_>, usize), count: usize)-> IResult<(Stream<'_>, usize), u8> {
/// take(count).parse_peek(input)
/// }
///
/// // Consumes 0 bits, returns 0
/// assert_eq!(parser((stream(&[0b00010010]), 0), 0), Ok(((stream(&[0b00010010]), 0), 0)));
///
/// // Consumes 4 bits, returns their values and increase offset to 4
/// assert_eq!(parser((stream(&[0b00010010]), 0), 4), Ok(((stream(&[0b00010010]), 4), 0b00000001)));
///
/// // Consumes 4 bits, offset is 4, returns their values and increase offset to 0 of next byte
/// assert_eq!(parser((stream(&[0b00010010]), 4), 4), Ok(((stream(&[]), 0), 0b00000010)));
///
/// // Tries to consume 12 bits but only 8 are available
/// assert_eq!(parser((stream(&[0b00010010]), 0), 12), Err(winnow::error::ErrMode::Backtrack(InputError::new((stream(&[0b00010010]), 0), ErrorKind::Eof))));
/// ```
#[inline(always)]
pub fn take<I, O, C, E: ParserError<(I, usize)>>(count: C) -> impl Parser<(I, usize), O, E>
where
I: Stream<Token = u8> + AsBytes + StreamIsPartial + Clone,
C: ToUsize,
O: From<u8> + AddAssign + Shl<usize, Output = O> + Shr<usize, Output = O>,
{
let count = count.to_usize();
trace(
"take",
unpeek(move |input: (I, usize)| {
if <I as StreamIsPartial>::is_partial_supported() {
take_::<_, _, _, true>(input, count)
} else {
take_::<_, _, _, false>(input, count)
}
}),
)
}
fn take_<I, O, E: ParserError<(I, usize)>, const PARTIAL: bool>(
(input, bit_offset): (I, usize),
count: usize,
) -> IResult<(I, usize), O, E>
where
I: StreamIsPartial,
I: Stream<Token = u8> + AsBytes + Clone,
O: From<u8> + AddAssign + Shl<usize, Output = O> + Shr<usize, Output = O>,
{
if count == 0 {
Ok(((input, bit_offset), 0u8.into()))
} else {
if input.eof_offset() * BYTE < count + bit_offset {
if PARTIAL && input.is_partial() {
Err(ErrMode::Incomplete(Needed::new(count)))
} else {
Err(ErrMode::from_error_kind(
&(input, bit_offset),
ErrorKind::Eof,
))
}
} else {
let cnt = (count + bit_offset).div(BYTE);
let mut acc: O = 0_u8.into();
let mut offset: usize = bit_offset;
let mut remaining: usize = count;
let mut end_offset: usize = 0;
for byte in input.as_bytes().iter().copied().take(cnt + 1) {
if remaining == 0 {
break;
}
let val: O = if offset == 0 {
byte.into()
} else {
(byte << offset >> offset).into()
};
if remaining < BYTE - offset {
acc += val >> (BYTE - offset - remaining);
end_offset = remaining + offset;
break;
} else {
acc += val << (remaining - (BYTE - offset));
remaining -= BYTE - offset;
offset = 0;
}
}
let (input, _) = input.peek_slice(cnt);
Ok(((input, end_offset), acc))
}
}
}
/// Parse taking `count` bits and comparing them to `pattern`
///
/// # Example
///
/// ```rust
/// # use winnow::prelude::*;
/// # use winnow::Bytes;
/// # use winnow::error::{InputError, ErrorKind};
/// use winnow::binary::bits::tag;
///
/// type Stream<'i> = &'i Bytes;
///
/// fn stream(b: &[u8]) -> Stream<'_> {
/// Bytes::new(b)
/// }
///
/// /// Compare the lowest `count` bits of `input` against the lowest `count` bits of `pattern`.
/// /// Return Ok and the matching section of `input` if there's a match.
/// /// Return Err if there's no match.
/// fn parser(pattern: u8, count: u8, input: (Stream<'_>, usize)) -> IResult<(Stream<'_>, usize), u8> {
/// tag(pattern, count).parse_peek(input)
/// }
///
/// // The lowest 4 bits of 0b00001111 match the lowest 4 bits of 0b11111111.
/// assert_eq!(
/// parser(0b0000_1111, 4, (stream(&[0b1111_1111]), 0)),
/// Ok(((stream(&[0b1111_1111]), 4), 0b0000_1111))
/// );
///
/// // The lowest bit of 0b00001111 matches the lowest bit of 0b11111111 (both are 1).
/// assert_eq!(
/// parser(0b00000001, 1, (stream(&[0b11111111]), 0)),
/// Ok(((stream(&[0b11111111]), 1), 0b00000001))
/// );
///
/// // The lowest 2 bits of 0b11111111 and 0b00000001 are different.
/// assert_eq!(
/// parser(0b000000_01, 2, (stream(&[0b111111_11]), 0)),
/// Err(winnow::error::ErrMode::Backtrack(InputError::new(
/// (stream(&[0b11111111]), 0),
/// ErrorKind::Tag
/// )))
/// );
///
/// // The lowest 8 bits of 0b11111111 and 0b11111110 are different.
/// assert_eq!(
/// parser(0b11111110, 8, (stream(&[0b11111111]), 0)),
/// Err(winnow::error::ErrMode::Backtrack(InputError::new(
/// (stream(&[0b11111111]), 0),
/// ErrorKind::Tag
/// )))
/// );
/// ```
#[inline(always)]
#[doc(alias = "literal")]
#[doc(alias = "just")]
pub fn tag<I, O, C, E: ParserError<(I, usize)>>(
pattern: O,
count: C,
) -> impl Parser<(I, usize), O, E>
where
I: Stream<Token = u8> + AsBytes + StreamIsPartial + Clone,
C: ToUsize,
O: From<u8> + AddAssign + Shl<usize, Output = O> + Shr<usize, Output = O> + PartialEq,
{
let count = count.to_usize();
trace("tag", move |input: &mut (I, usize)| {
let start = input.checkpoint();
take(count).parse_next(input).and_then(|o| {
if pattern == o {
Ok(o)
} else {
input.reset(start);
Err(ErrMode::Backtrack(E::from_error_kind(
input,
ErrorKind::Tag,
)))
}
})
})
}
/// Parses one specific bit as a bool.
///
/// # Example
///
/// ```rust
/// # use winnow::prelude::*;
/// # use winnow::Bytes;
/// # use winnow::error::{InputError, ErrorKind};
/// use winnow::binary::bits::bool;
///
/// type Stream<'i> = &'i Bytes;
///
/// fn stream(b: &[u8]) -> Stream<'_> {
/// Bytes::new(b)
/// }
///
/// fn parse(input: (Stream<'_>, usize)) -> IResult<(Stream<'_>, usize), bool> {
/// bool.parse_peek(input)
/// }
///
/// assert_eq!(parse((stream(&[0b10000000]), 0)), Ok(((stream(&[0b10000000]), 1), true)));
/// assert_eq!(parse((stream(&[0b10000000]), 1)), Ok(((stream(&[0b10000000]), 2), false)));
/// ```
#[doc(alias = "any")]
pub fn bool<I, E: ParserError<(I, usize)>>(input: &mut (I, usize)) -> PResult<bool, E>
where
I: Stream<Token = u8> + AsBytes + StreamIsPartial + Clone,
{
trace("bool", |input: &mut (I, usize)| {
let bit: u32 = take(1usize).parse_next(input)?;
Ok(bit != 0)
})
.parse_next(input)
}