//#![feature(trace_macros)] #![allow(dead_code)] #![cfg_attr(feature = "cargo-clippy", allow(redundant_closure))] use nom::{error::ErrorKind, Err, IResult, Needed}; #[allow(dead_code)] struct Range { start: char, end: char, } pub fn take_char(input: &[u8]) -> IResult<&[u8], char> { if !input.is_empty() { Ok((&input[1..], input[0] as char)) } else { Err(Err::Incomplete(Needed::new(1))) } } #[cfg(feature = "std")] mod parse_int { use nom::HexDisplay; use nom::{ character::streaming::{digit1 as digit, space1 as space}, combinator::{complete, map, opt}, multi::many0, IResult, }; use std::str; fn parse_ints(input: &[u8]) -> IResult<&[u8], Vec> { many0(spaces_or_int)(input) } fn spaces_or_int(input: &[u8]) -> IResult<&[u8], i32> { println!("{}", input.to_hex(8)); let (i, _) = opt(complete(space))(input)?; let (i, res) = map(complete(digit), |x| { println!("x: {:?}", x); let result = str::from_utf8(x).unwrap(); println!("Result: {}", result); println!("int is empty?: {}", x.is_empty()); match result.parse() { Ok(i) => i, Err(e) => panic!("UH OH! NOT A DIGIT! {:?}", e), } })(i)?; Ok((i, res)) } #[test] fn issue_142() { let subject = parse_ints(&b"12 34 5689a"[..]); let expected = Ok((&b"a"[..], vec![12, 34, 5689])); assert_eq!(subject, expected); let subject = parse_ints(&b"12 34 5689 "[..]); let expected = Ok((&b" "[..], vec![12, 34, 5689])); assert_eq!(subject, expected) } } #[test] fn usize_length_bytes_issue() { use nom::multi::length_data; use nom::number::streaming::be_u16; let _: IResult<&[u8], &[u8], (&[u8], ErrorKind)> = length_data(be_u16)(b"012346"); } #[test] fn take_till_issue() { use nom::bytes::streaming::take_till; fn nothing(i: &[u8]) -> IResult<&[u8], &[u8]> { take_till(|_| true)(i) } assert_eq!(nothing(b""), Err(Err::Incomplete(Needed::new(1)))); assert_eq!(nothing(b"abc"), Ok((&b"abc"[..], &b""[..]))); } #[test] fn issue_655() { use nom::character::streaming::{line_ending, not_line_ending}; fn twolines(i: &str) -> IResult<&str, (&str, &str)> { let (i, l1) = not_line_ending(i)?; let (i, _) = line_ending(i)?; let (i, l2) = not_line_ending(i)?; let (i, _) = line_ending(i)?; Ok((i, (l1, l2))) } assert_eq!(twolines("foo\nbar\n"), Ok(("", ("foo", "bar")))); assert_eq!(twolines("féo\nbar\n"), Ok(("", ("féo", "bar")))); assert_eq!(twolines("foé\nbar\n"), Ok(("", ("foé", "bar")))); assert_eq!(twolines("foé\r\nbar\n"), Ok(("", ("foé", "bar")))); } #[cfg(feature = "alloc")] fn issue_717(i: &[u8]) -> IResult<&[u8], Vec<&[u8]>> { use nom::bytes::complete::{is_not, tag}; use nom::multi::separated_list0; separated_list0(tag([0x0]), is_not([0x0u8]))(i) } mod issue_647 { use nom::bytes::streaming::tag; use nom::combinator::complete; use nom::multi::separated_list0; use nom::{error::Error, number::streaming::be_f64, Err, IResult}; pub type Input<'a> = &'a [u8]; #[derive(PartialEq, Debug, Clone)] struct Data { c: f64, v: Vec, } fn list<'a, 'b>( input: Input<'a>, _cs: &'b f64, ) -> Result<(Input<'a>, Vec), Err>> { separated_list0(complete(tag(",")), complete(be_f64))(input) } fn data(input: Input<'_>) -> IResult, Data> { let (i, c) = be_f64(input)?; let (i, _) = tag("\n")(i)?; let (i, v) = list(i, &c)?; Ok((i, Data { c, v })) } } #[test] fn issue_848_overflow_incomplete_bits_to_bytes() { fn take(i: &[u8]) -> IResult<&[u8], &[u8]> { use nom::bytes::streaming::take; take(0x2000000000000000_usize)(i) } fn parser(i: &[u8]) -> IResult<&[u8], &[u8]> { use nom::bits::{bits, bytes}; bits(bytes(take))(i) } assert_eq!( parser(&b""[..]), Err(Err::Failure(nom::error_position!( &b""[..], ErrorKind::TooLarge ))) ); } #[test] fn issue_942() { use nom::error::{ContextError, ParseError}; pub fn parser<'a, E: ParseError<&'a str> + ContextError<&'a str>>( i: &'a str, ) -> IResult<&'a str, usize, E> { use nom::{character::complete::char, error::context, multi::many0_count}; many0_count(context("char_a", char('a')))(i) } assert_eq!(parser::<()>("aaa"), Ok(("", 3))); } #[test] fn issue_many_m_n_with_zeros() { use nom::character::complete::char; use nom::multi::many_m_n; let mut parser = many_m_n::<_, _, (), _>(0, 0, char('a')); assert_eq!(parser("aaa"), Ok(("aaa", vec![]))); } #[test] fn issue_1027_convert_error_panic_nonempty() { use nom::character::complete::char; use nom::error::{convert_error, VerboseError}; use nom::sequence::pair; let input = "a"; let result: IResult<_, _, VerboseError<&str>> = pair(char('a'), char('b'))(input); let err = match result.unwrap_err() { Err::Error(e) => e, _ => unreachable!(), }; let msg = convert_error(input, err); assert_eq!( msg, "0: at line 1:\na\n ^\nexpected \'b\', got end of input\n\n" ); } #[test] fn issue_1231_bits_expect_fn_closure() { use nom::bits::{bits, complete::take}; use nom::error::Error; use nom::sequence::tuple; pub fn example(input: &[u8]) -> IResult<&[u8], (u8, u8)> { bits::<_, _, Error<_>, _, _>(tuple((take(1usize), take(1usize))))(input) } assert_eq!(example(&[0xff]), Ok((&b""[..], (1, 1)))); } #[test] fn issue_1282_findtoken_char() { use nom::character::complete::one_of; use nom::error::Error; let parser = one_of::<_, _, Error<_>>(&['a', 'b', 'c'][..]); assert_eq!(parser("aaa"), Ok(("aa", 'a'))); } #[test] fn issue_1459_clamp_capacity() { use nom::character::complete::char; // shouldn't panic use nom::multi::many_m_n; let mut parser = many_m_n::<_, _, (), _>(usize::MAX, usize::MAX, char('a')); assert_eq!(parser("a"), Err(nom::Err::Error(()))); // shouldn't panic use nom::multi::count; let mut parser = count::<_, _, (), _>(char('a'), usize::MAX); assert_eq!(parser("a"), Err(nom::Err::Error(()))); } #[test] fn issue_1617_count_parser_returning_zero_size() { use nom::{bytes::complete::tag, combinator::map, error::Error, multi::count}; // previously, `count()` panicked if the parser had type `O = ()` let parser = map(tag::<_, _, Error<&str>>("abc"), |_| ()); // shouldn't panic let result = count(parser, 3)("abcabcabcdef").expect("parsing should succeed"); assert_eq!(result, ("def", vec![(), (), ()])); }