//! Error management
//!
//! there are two ways to handle errors in nom. The first one,
//! activated by default, uses the `nom::ErrorKind<E=u32>` enum
//! in the error branch of `IResult`. This enum can hold either
//! a parser specific error code, or a custom error type you
//! specify.
//!
//! If you need more advanced error management, you can activate
//! the "verbose-errors" compilation feature, which will give you
//! the error system available in nom 1.0. The verbose errors
//! accumulate error codes and positions as you backtrack through
//! the parser tree. From there, you can precisely identify which
//! parts of the input triggered the error case.
//!
//! Please note that the verbose error management is a bit slower
//! than the simple one.
use util::ErrorKind;
use internal::{IResult, IError};
use internal::IResult::*;

pub type Err<E=u32> = ErrorKind<E>;

impl<I,O,E> IResult<I,O,E> {
  /// Maps a `IResult<I, O, E>` to `IResult<I, O, N>` by appling a function
  /// to a contained `Error` value, leaving `Done` and `Incomplete` value
  /// untouched.
  #[inline]
  pub fn map_err<N, F>(self, f: F) -> IResult<I, O, N>
   where F: FnOnce(Err<E>) -> Err<N> {
    match self {
      Error(e)      => Error(f(e)),
      Incomplete(n) => Incomplete(n),
      Done(i, o)    => Done(i, o),
    }
  }

  /// Unwrap the contained `Error(E)` value, or panic if the `IResult` is not
  /// `Error`.
  pub fn unwrap_err(self) -> Err<E> {
    match self {
      Error(e)      => e,
      Done(_, _)    => panic!("unwrap_err() called on an IResult that is Done"),
      Incomplete(_) => panic!("unwrap_err() called on an IResult that is Incomplete"),
    }
  }

  /// Convert the IResult to a std::result::Result
  pub fn to_full_result(self) -> Result<O, IError<E>> {
    match self {
      Done(_, o)    => Ok(o),
      Incomplete(n) => Err(IError::Incomplete(n)),
      Error(e)      => Err(IError::Error(e))
    }
  }

  /// Convert the IResult to a std::result::Result, or panic if the `IResult` is `Incomplete`
  pub fn to_result(self) -> Result<O, Err<E>> {
    match self {
      Done(_, o)    => Ok(o),
      Error(e)      => Err(e),
      Incomplete(_) => panic!("to_result() called on an IResult that is Incomplete")
    }
  }
}

#[cfg(not(feature = "core"))]
use std::any::Any;
#[cfg(not(feature = "core"))]
use std::{error,fmt};
#[cfg(not(feature = "core"))]
impl<E: fmt::Debug+Any> error::Error for Err<E> {
  fn description(&self) -> &str {
    self.description()
  }
}

#[cfg(not(feature = "core"))]
impl<E: fmt::Debug> fmt::Display for Err<E> {
  fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
    write!(f, "{}", self.description())
  }
}

/// translate parser result from IResult<I,O,u32> to IResult<I,O,E> with a custom type
///
/// ```
/// # #[macro_use] extern crate nom;
/// # use std::collections;
/// # use nom::IResult::Error;
/// # use nom::ErrorKind;
/// # fn main() {
///     // will add a Custom(42) error to the error chain
///     named!(err_test, add_return_error!(ErrorKind::Custom(42), tag!("abcd")));
///     // Convert to IREsult<&[u8], &[u8], &str>
///     named!(parser<&[u8], &[u8], &str>, add_return_error!(ErrorKind::Custom("custom error message"), fix_error!(&str, err_test)));
///
///     let a = &b"efghblah"[..];
///     let res_a = parser(a);
///     assert_eq!(res_a,  Error(error_node_position!( ErrorKind::Custom("custom error message"), a, Position(ErrorKind::Fix, a))));
/// # }
/// ```
#[macro_export]
macro_rules! fix_error (
  ($i:expr, $t:ty, $submac:ident!( $($args:tt)* )) => (
    {
      match $submac!($i, $($args)*) {
        $crate::IResult::Incomplete(x) => $crate::IResult::Incomplete(x),
        $crate::IResult::Done(i, o)    => $crate::IResult::Done(i, o),
        $crate::IResult::Error(_) => {
          let e: $crate::ErrorKind<$t> = $crate::ErrorKind::Fix;
          $crate::IResult::Error(e)
        }
      }
    }
  );
  ($i:expr, $t:ty, $f:expr) => (
    fix_error!($i, $t, call!($f));
  );
);

/// `flat_map!(R -> IResult<R,S>, S -> IResult<S,T>) => R -> IResult<R, T>`
///
/// combines a parser R -> IResult<R,S> and
/// a parser S -> IResult<S,T> to return another
/// parser R -> IResult<R,T>
#[macro_export]
macro_rules! flat_map(
  ($i:expr, $submac:ident!( $($args:tt)* ), $submac2:ident!( $($args2:tt)* )) => (
    {
      match $submac!($i, $($args)*) {
        $crate::IResult::Error(e)                            => $crate::IResult::Error(e),
        $crate::IResult::Incomplete($crate::Needed::Unknown) => $crate::IResult::Incomplete($crate::Needed::Unknown),
        $crate::IResult::Incomplete($crate::Needed::Size(i)) => $crate::IResult::Incomplete($crate::Needed::Size(i)),
        $crate::IResult::Done(i, o)                          => match $submac2!(o, $($args2)*) {
          $crate::IResult::Error(e)                                 => $crate::IResult::Error(e),
          $crate::IResult::Incomplete($crate::Needed::Unknown)      => $crate::IResult::Incomplete($crate::Needed::Unknown),
          $crate::IResult::Incomplete($crate::Needed::Size(ref i2)) => $crate::IResult::Incomplete($crate::Needed::Size(*i2)),
          $crate::IResult::Done(_, o2)                              => $crate::IResult::Done(i, o2)
        }
      }
    }
  );
  ($i:expr, $submac:ident!( $($args:tt)* ), $g:expr) => (
    flat_map!($i, $submac!($($args)*), call!($g));
  );
  ($i:expr, $f:expr, $g:expr) => (
    flat_map!($i, call!($f), call!($g));
  );
  ($i:expr, $f:expr, $submac:ident!( $($args:tt)* )) => (
    flat_map!($i, call!($f), $submac!($($args)*));
  );
);