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|
use super::*;
use crate::error::Error;
use crate::Partial;
#[test]
/// Take the `bits` function and assert that remaining bytes are correctly returned, if the
/// previous bytes are fully consumed
fn test_complete_byte_consumption_bits() {
let input = &[0x12, 0x34, 0x56, 0x78][..];
// Take 3 bit slices with sizes [4, 8, 4].
let result: IResult<&[u8], (u8, u8, u8)> =
bits::<_, _, Error<(&[u8], usize)>, _, _>((take(4usize), take(8usize), take(4usize)))
.parse_next(input);
let output = result.expect("We take 2 bytes and the input is longer than 2 bytes");
let remaining = output.0;
assert_eq!(remaining, [0x56, 0x78]);
let parsed = output.1;
assert_eq!(parsed.0, 0x01);
assert_eq!(parsed.1, 0x23);
assert_eq!(parsed.2, 0x04);
}
#[test]
/// Take the `bits` function and assert that remaining bytes are correctly returned, if the
/// previous bytes are NOT fully consumed. Partially consumed bytes are supposed to be dropped.
/// I.e. if we consume 1.5 bytes of 4 bytes, 2 bytes will be returned, bits 13-16 will be
/// dropped.
fn test_partial_byte_consumption_bits() {
let input = &[0x12, 0x34, 0x56, 0x78][..];
// Take bit slices with sizes [4, 8].
let result: IResult<&[u8], (u8, u8)> =
bits::<_, _, Error<(&[u8], usize)>, _, _>((take(4usize), take(8usize))).parse_next(input);
let output = result.expect("We take 1.5 bytes and the input is longer than 2 bytes");
let remaining = output.0;
assert_eq!(remaining, [0x56, 0x78]);
let parsed = output.1;
assert_eq!(parsed.0, 0x01);
assert_eq!(parsed.1, 0x23);
}
#[test]
#[cfg(feature = "std")]
/// Ensure that in Incomplete error is thrown, if too few bytes are passed for a given parser.
fn test_incomplete_bits() {
let input = Partial::new(&[0x12][..]);
// Take bit slices with sizes [4, 8].
let result: IResult<_, (u8, u8)> =
bits::<_, _, Error<(_, usize)>, _, _>((take(4usize), take(8usize))).parse_next(input);
assert!(result.is_err());
let error = result.err().unwrap();
assert_eq!("Parsing requires 2 bytes/chars", error.to_string());
}
#[test]
fn test_take_complete_0() {
let input = &[0b00010010][..];
let count = 0usize;
assert_eq!(count, 0usize);
let offset = 0usize;
let result: crate::IResult<(&[u8], usize), usize> = take(count).parse_next((input, offset));
assert_eq!(result, Ok(((input, offset), 0)));
}
#[test]
fn test_take_complete_eof() {
let input = &[0b00010010][..];
let result: crate::IResult<(&[u8], usize), usize> = take(1usize).parse_next((input, 8));
assert_eq!(
result,
Err(crate::error::ErrMode::Backtrack(crate::error::Error {
input: (input, 8),
kind: ErrorKind::Eof
}))
);
}
#[test]
fn test_take_complete_span_over_multiple_bytes() {
let input = &[0b00010010, 0b00110100, 0b11111111, 0b11111111][..];
let result: crate::IResult<(&[u8], usize), usize> = take(24usize).parse_next((input, 4));
assert_eq!(
result,
Ok((([0b11111111].as_ref(), 4), 0b1000110100111111111111))
);
}
#[test]
fn test_take_partial_0() {
let input = Partial::new(&[][..]);
let count = 0usize;
assert_eq!(count, 0usize);
let offset = 0usize;
let result: crate::IResult<(_, usize), usize> = take(count).parse_next((input, offset));
assert_eq!(result, Ok(((input, offset), 0)));
}
#[test]
fn test_tag_partial_ok() {
let input = Partial::new(&[0b00011111][..]);
let offset = 0usize;
let bits_to_take = 4usize;
let value_to_tag = 0b0001;
let result: crate::IResult<(_, usize), usize> =
tag(value_to_tag, bits_to_take).parse_next((input, offset));
assert_eq!(result, Ok(((input, bits_to_take), value_to_tag)));
}
#[test]
fn test_tag_partial_err() {
let input = Partial::new(&[0b00011111][..]);
let offset = 0usize;
let bits_to_take = 4usize;
let value_to_tag = 0b1111;
let result: crate::IResult<(_, usize), usize> =
tag(value_to_tag, bits_to_take).parse_next((input, offset));
assert_eq!(
result,
Err(crate::error::ErrMode::Backtrack(crate::error::Error {
input: (input, offset),
kind: ErrorKind::Tag
}))
);
}
#[test]
fn test_bool_0_complete() {
let input = [0b10000000].as_ref();
let result: crate::IResult<(&[u8], usize), bool> = bool((input, 0));
assert_eq!(result, Ok(((input, 1), true)));
}
#[test]
fn test_bool_eof_complete() {
let input = [0b10000000].as_ref();
let result: crate::IResult<(&[u8], usize), bool> = bool((input, 8));
assert_eq!(
result,
Err(crate::error::ErrMode::Backtrack(crate::error::Error {
input: (input, 8),
kind: ErrorKind::Eof
}))
);
}
#[test]
fn test_bool_0_partial() {
let input = Partial::new([0b10000000].as_ref());
let result: crate::IResult<(Partial<&[u8]>, usize), bool> = bool((input, 0));
assert_eq!(result, Ok(((input, 1), true)));
}
#[test]
fn test_bool_eof_partial() {
let input = Partial::new([0b10000000].as_ref());
let result: crate::IResult<(Partial<&[u8]>, usize), bool> = bool.parse_next((input, 8));
assert_eq!(
result,
Err(crate::error::ErrMode::Incomplete(Needed::new(1)))
);
}
|
