use super::{length_data, length_value, many0_count, many1_count};
use crate::{
bytes::streaming::tag,
character::streaming::digit1 as digit,
error::{ErrorKind, ParseError},
internal::{Err, IResult, Needed},
lib::std::str::{self, FromStr},
number::streaming::{be_u16, be_u8},
sequence::{pair, tuple},
};
#[cfg(feature = "alloc")]
use crate::{
lib::std::vec::Vec,
multi::{
count, fold_many0, fold_many1, fold_many_m_n, length_count, many0, many1, many_m_n, many_till,
separated_list0, separated_list1,
},
};
#[test]
#[cfg(feature = "alloc")]
fn separated_list0_test() {
fn multi(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> {
separated_list0(tag(","), tag("abcd"))(i)
}
fn multi_empty(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> {
separated_list0(tag(","), tag(""))(i)
}
fn empty_sep(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> {
separated_list0(tag(""), tag("abc"))(i)
}
fn multi_longsep(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> {
separated_list0(tag(".."), tag("abcd"))(i)
}
let a = &b"abcdef"[..];
let b = &b"abcd,abcdef"[..];
let c = &b"azerty"[..];
let d = &b",,abc"[..];
let e = &b"abcd,abcd,ef"[..];
let f = &b"abc"[..];
let g = &b"abcd."[..];
let h = &b"abcd,abc"[..];
let i = &b"abcabc"[..];
let res1 = vec![&b"abcd"[..]];
assert_eq!(multi(a), Ok((&b"ef"[..], res1)));
let res2 = vec![&b"abcd"[..], &b"abcd"[..]];
assert_eq!(multi(b), Ok((&b"ef"[..], res2)));
assert_eq!(multi(c), Ok((&b"azerty"[..], Vec::new())));
let res3 = vec![&b""[..], &b""[..], &b""[..]];
assert_eq!(multi_empty(d), Ok((&b"abc"[..], res3)));
let i_err_pos = &i[3..];
assert_eq!(
empty_sep(i),
Err(Err::Error(error_position!(
i_err_pos,
ErrorKind::SeparatedList
)))
);
let res4 = vec![&b"abcd"[..], &b"abcd"[..]];
assert_eq!(multi(e), Ok((&b",ef"[..], res4)));
assert_eq!(multi(f), Err(Err::Incomplete(Needed::new(1))));
assert_eq!(multi_longsep(g), Err(Err::Incomplete(Needed::new(1))));
assert_eq!(multi(h), Err(Err::Incomplete(Needed::new(1))));
}
#[test]
#[cfg(feature = "alloc")]
fn separated_list1_test() {
fn multi(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> {
separated_list1(tag(","), tag("abcd"))(i)
}
fn multi_longsep(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> {
separated_list1(tag(".."), tag("abcd"))(i)
}
let a = &b"abcdef"[..];
let b = &b"abcd,abcdef"[..];
let c = &b"azerty"[..];
let d = &b"abcd,abcd,ef"[..];
let f = &b"abc"[..];
let g = &b"abcd."[..];
let h = &b"abcd,abc"[..];
let res1 = vec![&b"abcd"[..]];
assert_eq!(multi(a), Ok((&b"ef"[..], res1)));
let res2 = vec![&b"abcd"[..], &b"abcd"[..]];
assert_eq!(multi(b), Ok((&b"ef"[..], res2)));
assert_eq!(
multi(c),
Err(Err::Error(error_position!(c, ErrorKind::Tag)))
);
let res3 = vec![&b"abcd"[..], &b"abcd"[..]];
assert_eq!(multi(d), Ok((&b",ef"[..], res3)));
assert_eq!(multi(f), Err(Err::Incomplete(Needed::new(1))));
assert_eq!(multi_longsep(g), Err(Err::Incomplete(Needed::new(1))));
assert_eq!(multi(h), Err(Err::Incomplete(Needed::new(1))));
}
#[test]
#[cfg(feature = "alloc")]
fn many0_test() {
fn multi(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> {
many0(tag("abcd"))(i)
}
fn multi_empty(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> {
many0(tag(""))(i)
}
assert_eq!(multi(&b"abcdef"[..]), Ok((&b"ef"[..], vec![&b"abcd"[..]])));
assert_eq!(
multi(&b"abcdabcdefgh"[..]),
Ok((&b"efgh"[..], vec![&b"abcd"[..], &b"abcd"[..]]))
);
assert_eq!(multi(&b"azerty"[..]), Ok((&b"azerty"[..], Vec::new())));
assert_eq!(multi(&b"abcdab"[..]), Err(Err::Incomplete(Needed::new(2))));
assert_eq!(multi(&b"abcd"[..]), Err(Err::Incomplete(Needed::new(4))));
assert_eq!(multi(&b""[..]), Err(Err::Incomplete(Needed::new(4))));
assert_eq!(
multi_empty(&b"abcdef"[..]),
Err(Err::Error(error_position!(
&b"abcdef"[..],
ErrorKind::Many0
)))
);
}
#[test]
#[cfg(feature = "alloc")]
fn many1_test() {
fn multi(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> {
many1(tag("abcd"))(i)
}
let a = &b"abcdef"[..];
let b = &b"abcdabcdefgh"[..];
let c = &b"azerty"[..];
let d = &b"abcdab"[..];
let res1 = vec![&b"abcd"[..]];
assert_eq!(multi(a), Ok((&b"ef"[..], res1)));
let res2 = vec![&b"abcd"[..], &b"abcd"[..]];
assert_eq!(multi(b), Ok((&b"efgh"[..], res2)));
assert_eq!(
multi(c),
Err(Err::Error(error_position!(c, ErrorKind::Tag)))
);
assert_eq!(multi(d), Err(Err::Incomplete(Needed::new(2))));
}
#[test]
#[cfg(feature = "alloc")]
fn many_till_test() {
fn multi(i: &[u8]) -> IResult<&[u8], (Vec<&[u8]>, &[u8])> {
many_till(tag("abcd"), tag("efgh"))(i)
}
let a = b"abcdabcdefghabcd";
let b = b"efghabcd";
let c = b"azerty";
let res_a = (vec![&b"abcd"[..], &b"abcd"[..]], &b"efgh"[..]);
let res_b: (Vec<&[u8]>, &[u8]) = (Vec::new(), &b"efgh"[..]);
assert_eq!(multi(&a[..]), Ok((&b"abcd"[..], res_a)));
assert_eq!(multi(&b[..]), Ok((&b"abcd"[..], res_b)));
assert_eq!(
multi(&c[..]),
Err(Err::Error(error_node_position!(
&c[..],
ErrorKind::ManyTill,
error_position!(&c[..], ErrorKind::Tag)
)))
);
}
#[test]
#[cfg(feature = "std")]
fn infinite_many() {
fn tst(input: &[u8]) -> IResult<&[u8], &[u8]> {
println!("input: {:?}", input);
Err(Err::Error(error_position!(input, ErrorKind::Tag)))
}
// should not go into an infinite loop
fn multi0(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> {
many0(tst)(i)
}
let a = &b"abcdef"[..];
assert_eq!(multi0(a), Ok((a, Vec::new())));
fn multi1(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> {
many1(tst)(i)
}
let a = &b"abcdef"[..];
assert_eq!(
multi1(a),
Err(Err::Error(error_position!(a, ErrorKind::Tag)))
);
}
#[test]
#[cfg(feature = "alloc")]
fn many_m_n_test() {
fn multi(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> {
many_m_n(2, 4, tag("Abcd"))(i)
}
let a = &b"Abcdef"[..];
let b = &b"AbcdAbcdefgh"[..];
let c = &b"AbcdAbcdAbcdAbcdefgh"[..];
let d = &b"AbcdAbcdAbcdAbcdAbcdefgh"[..];
let e = &b"AbcdAb"[..];
assert_eq!(
multi(a),
Err(Err::Error(error_position!(&b"ef"[..], ErrorKind::Tag)))
);
let res1 = vec![&b"Abcd"[..], &b"Abcd"[..]];
assert_eq!(multi(b), Ok((&b"efgh"[..], res1)));
let res2 = vec![&b"Abcd"[..], &b"Abcd"[..], &b"Abcd"[..], &b"Abcd"[..]];
assert_eq!(multi(c), Ok((&b"efgh"[..], res2)));
let res3 = vec![&b"Abcd"[..], &b"Abcd"[..], &b"Abcd"[..], &b"Abcd"[..]];
assert_eq!(multi(d), Ok((&b"Abcdefgh"[..], res3)));
assert_eq!(multi(e), Err(Err::Incomplete(Needed::new(2))));
}
#[test]
#[cfg(feature = "alloc")]
fn count_test() {
const TIMES: usize = 2;
fn cnt_2(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> {
count(tag("abc"), TIMES)(i)
}
assert_eq!(
cnt_2(&b"abcabcabcdef"[..]),
Ok((&b"abcdef"[..], vec![&b"abc"[..], &b"abc"[..]]))
);
assert_eq!(cnt_2(&b"ab"[..]), Err(Err::Incomplete(Needed::new(1))));
assert_eq!(cnt_2(&b"abcab"[..]), Err(Err::Incomplete(Needed::new(1))));
assert_eq!(
cnt_2(&b"xxx"[..]),
Err(Err::Error(error_position!(&b"xxx"[..], ErrorKind::Tag)))
);
assert_eq!(
cnt_2(&b"xxxabcabcdef"[..]),
Err(Err::Error(error_position!(
&b"xxxabcabcdef"[..],
ErrorKind::Tag
)))
);
assert_eq!(
cnt_2(&b"abcxxxabcdef"[..]),
Err(Err::Error(error_position!(
&b"xxxabcdef"[..],
ErrorKind::Tag
)))
);
}
#[test]
#[cfg(feature = "alloc")]
fn count_zero() {
const TIMES: usize = 0;
fn counter_2(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> {
count(tag("abc"), TIMES)(i)
}
let done = &b"abcabcabcdef"[..];
let parsed_done = Vec::new();
let rest = done;
let incomplete_1 = &b"ab"[..];
let parsed_incompl_1 = Vec::new();
let incomplete_2 = &b"abcab"[..];
let parsed_incompl_2 = Vec::new();
let error = &b"xxx"[..];
let error_remain = &b"xxx"[..];
let parsed_err = Vec::new();
let error_1 = &b"xxxabcabcdef"[..];
let parsed_err_1 = Vec::new();
let error_1_remain = &b"xxxabcabcdef"[..];
let error_2 = &b"abcxxxabcdef"[..];
let parsed_err_2 = Vec::new();
let error_2_remain = &b"abcxxxabcdef"[..];
assert_eq!(counter_2(done), Ok((rest, parsed_done)));
assert_eq!(
counter_2(incomplete_1),
Ok((incomplete_1, parsed_incompl_1))
);
assert_eq!(
counter_2(incomplete_2),
Ok((incomplete_2, parsed_incompl_2))
);
assert_eq!(counter_2(error), Ok((error_remain, parsed_err)));
assert_eq!(counter_2(error_1), Ok((error_1_remain, parsed_err_1)));
assert_eq!(counter_2(error_2), Ok((error_2_remain, parsed_err_2)));
}
#[derive(Debug, Clone, PartialEq)]
pub struct NilError;
impl<I> From<(I, ErrorKind)> for NilError {
fn from(_: (I, ErrorKind)) -> Self {
NilError
}
}
impl<I> ParseError<I> for NilError {
fn from_error_kind(_: I, _: ErrorKind) -> NilError {
NilError
}
fn append(_: I, _: ErrorKind, _: NilError) -> NilError {
NilError
}
}
fn number(i: &[u8]) -> IResult<&[u8], u32> {
use crate::combinator::map_res;
map_res(map_res(digit, str::from_utf8), FromStr::from_str)(i)
}
#[test]
#[cfg(feature = "alloc")]
fn length_count_test() {
fn cnt(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> {
length_count(number, tag("abc"))(i)
}
assert_eq!(
cnt(&b"2abcabcabcdef"[..]),
Ok((&b"abcdef"[..], vec![&b"abc"[..], &b"abc"[..]]))
);
assert_eq!(cnt(&b"2ab"[..]), Err(Err::Incomplete(Needed::new(1))));
assert_eq!(cnt(&b"3abcab"[..]), Err(Err::Incomplete(Needed::new(1))));
assert_eq!(
cnt(&b"xxx"[..]),
Err(Err::Error(error_position!(&b"xxx"[..], ErrorKind::Digit)))
);
assert_eq!(
cnt(&b"2abcxxx"[..]),
Err(Err::Error(error_position!(&b"xxx"[..], ErrorKind::Tag)))
);
}
#[test]
fn length_data_test() {
fn take(i: &[u8]) -> IResult<&[u8], &[u8]> {
length_data(number)(i)
}
assert_eq!(
take(&b"6abcabcabcdef"[..]),
Ok((&b"abcdef"[..], &b"abcabc"[..]))
);
assert_eq!(take(&b"3ab"[..]), Err(Err::Incomplete(Needed::new(1))));
assert_eq!(
take(&b"xxx"[..]),
Err(Err::Error(error_position!(&b"xxx"[..], ErrorKind::Digit)))
);
assert_eq!(take(&b"2abcxxx"[..]), Ok((&b"cxxx"[..], &b"ab"[..])));
}
#[test]
fn length_value_test() {
fn length_value_1(i: &[u8]) -> IResult<&[u8], u16> {
length_value(be_u8, be_u16)(i)
}
fn length_value_2(i: &[u8]) -> IResult<&[u8], (u8, u8)> {
length_value(be_u8, tuple((be_u8, be_u8)))(i)
}
let i1 = [0, 5, 6];
assert_eq!(
length_value_1(&i1),
Err(Err::Error(error_position!(&b""[..], ErrorKind::Complete)))
);
assert_eq!(
length_value_2(&i1),
Err(Err::Error(error_position!(&b""[..], ErrorKind::Complete)))
);
let i2 = [1, 5, 6, 3];
assert_eq!(
length_value_1(&i2),
Err(Err::Error(error_position!(&i2[1..2], ErrorKind::Complete)))
);
assert_eq!(
length_value_2(&i2),
Err(Err::Error(error_position!(&i2[1..2], ErrorKind::Complete)))
);
let i3 = [2, 5, 6, 3, 4, 5, 7];
assert_eq!(length_value_1(&i3), Ok((&i3[3..], 1286)));
assert_eq!(length_value_2(&i3), Ok((&i3[3..], (5, 6))));
let i4 = [3, 5, 6, 3, 4, 5];
assert_eq!(length_value_1(&i4), Ok((&i4[4..], 1286)));
assert_eq!(length_value_2(&i4), Ok((&i4[4..], (5, 6))));
}
#[test]
#[cfg(feature = "alloc")]
fn fold_many0_test() {
fn fold_into_vec<T>(mut acc: Vec<T>, item: T) -> Vec<T> {
acc.push(item);
acc
}
fn multi(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> {
fold_many0(tag("abcd"), Vec::new, fold_into_vec)(i)
}
fn multi_empty(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> {
fold_many0(tag(""), Vec::new, fold_into_vec)(i)
}
assert_eq!(multi(&b"abcdef"[..]), Ok((&b"ef"[..], vec![&b"abcd"[..]])));
assert_eq!(
multi(&b"abcdabcdefgh"[..]),
Ok((&b"efgh"[..], vec![&b"abcd"[..], &b"abcd"[..]]))
);
assert_eq!(multi(&b"azerty"[..]), Ok((&b"azerty"[..], Vec::new())));
assert_eq!(multi(&b"abcdab"[..]), Err(Err::Incomplete(Needed::new(2))));
assert_eq!(multi(&b"abcd"[..]), Err(Err::Incomplete(Needed::new(4))));
assert_eq!(multi(&b""[..]), Err(Err::Incomplete(Needed::new(4))));
assert_eq!(
multi_empty(&b"abcdef"[..]),
Err(Err::Error(error_position!(
&b"abcdef"[..],
ErrorKind::Many0
)))
);
}
#[test]
#[cfg(feature = "alloc")]
fn fold_many1_test() {
fn fold_into_vec<T>(mut acc: Vec<T>, item: T) -> Vec<T> {
acc.push(item);
acc
}
fn multi(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> {
fold_many1(tag("abcd"), Vec::new, fold_into_vec)(i)
}
let a = &b"abcdef"[..];
let b = &b"abcdabcdefgh"[..];
let c = &b"azerty"[..];
let d = &b"abcdab"[..];
let res1 = vec![&b"abcd"[..]];
assert_eq!(multi(a), Ok((&b"ef"[..], res1)));
let res2 = vec![&b"abcd"[..], &b"abcd"[..]];
assert_eq!(multi(b), Ok((&b"efgh"[..], res2)));
assert_eq!(
multi(c),
Err(Err::Error(error_position!(c, ErrorKind::Many1)))
);
assert_eq!(multi(d), Err(Err::Incomplete(Needed::new(2))));
}
#[test]
#[cfg(feature = "alloc")]
fn fold_many_m_n_test() {
fn fold_into_vec<T>(mut acc: Vec<T>, item: T) -> Vec<T> {
acc.push(item);
acc
}
fn multi(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> {
fold_many_m_n(2, 4, tag("Abcd"), Vec::new, fold_into_vec)(i)
}
let a = &b"Abcdef"[..];
let b = &b"AbcdAbcdefgh"[..];
let c = &b"AbcdAbcdAbcdAbcdefgh"[..];
let d = &b"AbcdAbcdAbcdAbcdAbcdefgh"[..];
let e = &b"AbcdAb"[..];
assert_eq!(
multi(a),
Err(Err::Error(error_position!(&b"ef"[..], ErrorKind::Tag)))
);
let res1 = vec![&b"Abcd"[..], &b"Abcd"[..]];
assert_eq!(multi(b), Ok((&b"efgh"[..], res1)));
let res2 = vec![&b"Abcd"[..], &b"Abcd"[..], &b"Abcd"[..], &b"Abcd"[..]];
assert_eq!(multi(c), Ok((&b"efgh"[..], res2)));
let res3 = vec![&b"Abcd"[..], &b"Abcd"[..], &b"Abcd"[..], &b"Abcd"[..]];
assert_eq!(multi(d), Ok((&b"Abcdefgh"[..], res3)));
assert_eq!(multi(e), Err(Err::Incomplete(Needed::new(2))));
}
#[test]
fn many0_count_test() {
fn count0_nums(i: &[u8]) -> IResult<&[u8], usize> {
many0_count(pair(digit, tag(",")))(i)
}
assert_eq!(count0_nums(&b"123,junk"[..]), Ok((&b"junk"[..], 1)));
assert_eq!(count0_nums(&b"123,45,junk"[..]), Ok((&b"junk"[..], 2)));
assert_eq!(
count0_nums(&b"1,2,3,4,5,6,7,8,9,0,junk"[..]),
Ok((&b"junk"[..], 10))
);
assert_eq!(count0_nums(&b"hello"[..]), Ok((&b"hello"[..], 0)));
}
#[test]
fn many1_count_test() {
fn count1_nums(i: &[u8]) -> IResult<&[u8], usize> {
many1_count(pair(digit, tag(",")))(i)
}
assert_eq!(count1_nums(&b"123,45,junk"[..]), Ok((&b"junk"[..], 2)));
assert_eq!(
count1_nums(&b"1,2,3,4,5,6,7,8,9,0,junk"[..]),
Ok((&b"junk"[..], 10))
);
assert_eq!(
count1_nums(&b"hello"[..]),
Err(Err::Error(error_position!(
&b"hello"[..],
ErrorKind::Many1Count
)))
);
}
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