nom 2.0.1

/// Character level parsers

use internal::{IResult,Needed};

/// matches one of the provided characters
#[macro_export]
macro_rules! one_of (
  ($i:expr, $inp: expr) => (
    {
      if $i.is_empty() {
        $crate::IResult::Incomplete::<_, _>($crate::Needed::Size(1))
      } else {
        #[inline(always)]
        fn as_bytes<T: $crate::AsBytes>(b: &T) -> &[u8] {
          b.as_bytes()
        }

        let expected = $inp;
        let bytes = as_bytes(&expected);
        one_of_bytes!($i, bytes)
      }
    }
  );
);

#[doc(hidden)]
#[macro_export]
macro_rules! one_of_bytes (
  ($i:expr, $bytes: expr) => (
    {
      if $i.is_empty() {
        $crate::IResult::Incomplete::<_, _>($crate::Needed::Size(1))
      } else {
        let mut found = false;

        for &i in $bytes {
          if i == $i[0] {
            found = true;
            break;
          }
        }

        if found {
          $crate::IResult::Done(&$i[1..], $i[0] as char)
        } else {
          $crate::IResult::Error(error_position!($crate::ErrorKind::OneOf, $i))
        }
      }
    }
  );
);

/// matches anything but the provided characters
#[macro_export]
macro_rules! none_of (
  ($i:expr, $inp: expr) => (
    {
      if $i.is_empty() {
        $crate::IResult::Incomplete::<_, _>($crate::Needed::Size(1))
      } else {
        #[inline(always)]
        fn as_bytes<T: $crate::AsBytes>(b: &T) -> &[u8] {
          b.as_bytes()
        }

        let expected = $inp;
        let bytes = as_bytes(&expected);
        none_of_bytes!($i, bytes)
      }
    }
  );
);

#[doc(hidden)]
#[macro_export]
macro_rules! none_of_bytes (
  ($i:expr, $bytes: expr) => (
    {
      if $i.is_empty() {
        $crate::IResult::Incomplete::<_, _>($crate::Needed::Size(1))
      } else {
        let mut found = false;

        for &i in $bytes {
          if i == $i[0] {
            found = true;
            break;
          }
        }

        if !found {
          $crate::IResult::Done(&$i[1..], $i[0] as char)
        } else {
          $crate::IResult::Error(error_position!($crate::ErrorKind::NoneOf, $i))
        }
      }
    }
  );
);

/// matches one character: `char!(char) => &[u8] -> IResult<&[u8], char>
#[macro_export]
macro_rules! char (
  ($i:expr, $c: expr) => (
    {
      if $i.is_empty() {
        let res: $crate::IResult<&[u8], char> = $crate::IResult::Incomplete($crate::Needed::Size(1));
        res
      } else {
        if $i[0] == $c as u8 {
          $crate::IResult::Done(&$i[1..], $i[0] as char)
        } else {
          $crate::IResult::Error(error_position!($crate::ErrorKind::Char, $i))
        }
      }
    }
  );
);

named!(#[doc="Matches a newline character '\\n'"], pub newline<char>, char!('\n'));

named!(#[doc="Matches a tab character '\\t'"], pub tab<char>, char!('\t'));

pub fn anychar(input:&[u8]) -> IResult<&[u8], char> {
  if input.is_empty() {
    IResult::Incomplete(Needed::Size(1))
  } else {
    IResult::Done(&input[1..], input[0] as char)
  }
}

#[cfg(test)]
mod tests {
  use internal::IResult::*;
  use util::ErrorKind;

  #[test]
  fn one_of() {
    named!(f<char>, one_of!("ab"));

    let a = &b"abcd"[..];
    assert_eq!(f(a), Done(&b"bcd"[..], 'a'));

    let b = &b"cde"[..];
    assert_eq!(f(b), Error(error_position!(ErrorKind::OneOf, b)));
  }

  #[test]
  fn none_of() {
    named!(f<char>, none_of!("ab"));

    let a = &b"abcd"[..];
    assert_eq!(f(a), Error(error_position!(ErrorKind::NoneOf, a)));

    let b = &b"cde"[..];
    assert_eq!(f(b), Done(&b"de"[..], 'c'));
  }

  #[test]
  fn char() {
    named!(f<char>, char!('c'));

    let a = &b"abcd"[..];
    assert_eq!(f(a), Error(error_position!(ErrorKind::Char, a)));

    let b = &b"cde"[..];
    assert_eq!(f(b), Done(&b"de"[..], 'c'));
  }

}