nom 4.0.0

//#![feature(trace_macros)]
#![allow(dead_code)]
#![cfg_attr(feature = "cargo-clippy", allow(redundant_closure))]

#[macro_use]
extern crate nom;
extern crate regex;

use nom::{space, Err, IResult, Needed, le_u64};
use nom::types::{CompleteStr, CompleteByteSlice};

#[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::Size(1)))
  }
}

//trace_macros!(true);

#[allow(dead_code)]
named!(range<&[u8], Range>,
    alt!(
        do_parse!(
            start: take_char >>
            tag!("-")        >>
            end: take_char   >>
            (Range {
                start: start,
                end:   end,
            })
        ) |
        map!(
            take_char,
            |c| {
                Range {
                    start: c,
                    end:   c,
                }
            }
        )
    )
);

#[allow(dead_code)]
named!(literal<&[u8], Vec<char> >,
    map!(
        many1!(take_char),
        |cs| {
          cs
        }
    )
);

#[test]
fn issue_58() {
  let _ = range(&b"abcd"[..]);
  let _ = literal(&b"abcd"[..]);
}

//trace_macros!(false);

#[cfg(feature = "std")]
mod parse_int {
  use nom::HexDisplay;
  use nom::{digit, space, IResult};
  use std::str;

  named!(parse_ints<Vec<i32>>, many0!(spaces_or_int));

  fn spaces_or_int(input: &[u8]) -> IResult<&[u8], i32> {
    println!("{}", input.to_hex(8));
    do_parse!(
      input,
      opt!(complete!(space)) >> 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),
        }
      }) >> (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::be_u16;
  let _: IResult<&[u8], &[u8], u32> = length_bytes!(b"012346", be_u16);
}

/*
 DOES NOT COMPILE
#[test]
fn issue_152() {
  named!(take4, take!(4));
  named!(xyz, tag!("XYZ"));
  named!(abc, tag!("abc"));


  named!(sw,
    switch!(take4,
      b"abcd" => xyz |
      b"efgh" => abc
    )
  );
}
*/

#[test]
fn take_till_issue() {
  named!(nothing, take_till!(call!(|_| true)));

  assert_eq!(nothing(b""), Err(Err::Incomplete(Needed::Size(1))));
  assert_eq!(nothing(b"abc"), Ok((&b"abc"[..], &b""[..])));
}

named!(
  issue_498<Vec<&[u8]>>,
  separated_nonempty_list!(opt!(space), tag!("abcd"))
);

named!(issue_308(&str) -> bool,
    do_parse! (
        tag_s! ("foo") >>
        b: alt_complete! (
            map! (tag_s! ("1"), |_: &str|->bool {true}) |
            value! (false)
        ) >>
        (b) ));

#[cfg(feature = "alloc")]
fn issue_302(input: &[u8]) -> IResult<&[u8], Option<Vec<u64>>> {
  do_parse!(input, entries: cond!(true, count!(le_u64, 3)) >> (entries))
}

#[test]
fn issue_655() {
  use nom::{line_ending, not_line_ending};
  named!(twolines(&str) -> (&str, &str),
    do_parse!(
      l1 : not_line_ending >>
           line_ending >>
      l2 : not_line_ending >>
           line_ending >>
      ((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 = "std")]
named!(issue_666 <CompleteByteSlice, CompleteByteSlice>, dbg_dmp!(tag!("abc")));

#[test]
fn issue_667() {
  use nom::alpha;

  named!(foo <CompleteByteSlice, Vec<CompleteByteSlice>>,
    many0!(
      alt!(alpha | is_a!("_"))
    )
  );
  assert_eq!(
    foo(CompleteByteSlice(b"")),
    Ok((CompleteByteSlice(b""), vec![]))
  );
  assert_eq!(
    foo(CompleteByteSlice(b"loremipsum")),
    Ok((
      CompleteByteSlice(b""),
      vec![CompleteByteSlice(b"loremipsum")]
    ))
  );
  assert_eq!(
    foo(CompleteByteSlice(b"lorem_ipsum")),
    Ok((
      CompleteByteSlice(b""),
      vec![
        CompleteByteSlice(b"lorem"),
        CompleteByteSlice(b"_"),
        CompleteByteSlice(b"ipsum"),
      ]
    ))
  );
  assert_eq!(
    foo(CompleteByteSlice(b"_lorem_ipsum")),
    Ok((
      CompleteByteSlice(b""),
      vec![
        CompleteByteSlice(b"_"),
        CompleteByteSlice(b"lorem"),
        CompleteByteSlice(b"_"),
        CompleteByteSlice(b"ipsum"),
      ]
    ))
  );
  assert_eq!(
    foo(CompleteByteSlice(b"!@#$")),
    Ok((CompleteByteSlice(b"!@#$"), vec![]))
  );
}

#[test]
fn issue_721() {
  assert_eq!(parse_to!("1234", u16), Ok(("", 1234)));
  assert_eq!(parse_to!("foo", String), Ok(("", "foo".to_string())));
}

#[cfg(feature = "alloc")]
named!(issue_717<&[u8], Vec<&[u8]> >,
  separated_list!(tag!([0x0]), is_not!([0x0u8]))
);

struct NoPartialEq {
  value: i32,
}

named!(issue_724<&str, i32>,
  do_parse!(
    metadata: permutation!(
      map!(tag!("hello"), |_| NoPartialEq { value: 1 }),
      map!(tag!("world"), |_| NoPartialEq { value: 2 })
    ) >>
    (metadata.0.value + metadata.1.value)
  )
);

named!(issue_741_str<CompleteStr, CompleteStr>, re_match!(r"^_?[A-Za-z][0-9A-Z_a-z-]*"));
named!(issue_741_bytes<CompleteByteSlice, CompleteByteSlice>, re_bytes_match!(r"^_?[A-Za-z][0-9A-Z_a-z-]*"));