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This is more or less a simplified version of the issue I'm trying to understand in my own code. I'm working with functions that are polymorphic in the Failure class from this package.

{-# LANGUAGE FlexibleContexts #-}
import Data.Maybe
import Data.Either
import Control.Failure

data FookError = FookError deriving Show

fook :: (Failure FookError m)=> Int -> m Int
fook = undefined

fooks :: (Failure FookError m)=> Int -> m Int
-- DOES NOT TYPE-CHECK:
--fooks n = return $ head $ rights $ map fook [1..]
-- OKAY:
fooks n   = return $ head $ catMaybes $ map fook [1..]

You can see in the above code, that when I treat the return type of fook as Maybe Int the module compiles fine, however treating it as Either Fook Int fails.

What is going on here?

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1 Answer 1

up vote 4 down vote accepted

This is because, in the non-working definition of fooks, fook's type is ambiguous. When you use catMaybes, it disambiguates as Maybe Int, but when you use rights, it can be Either e Int for any e, and the compiler doesn't necessarily know which. Sure, by default the only Failure instance for Either is instance Failure e (Either e), but there's nothing stopping you defining, e.g. instance Failure String (Either Int).

If you explicitly specify the type by defining fooks as

fooks n =
  return $ head $ rights $ map (fook :: Int -> Either FookError Int) [1..]

then it works fine.

However, I suspect that you're not doing what you really want here; fooks never actually uses the failure capability of the underlying monad; indeed, even if there are no non-failing results, the monadic action still succeeds and returns a value. The value just so happens to be an error, but that's still probably not what you want :)

If you want fooks to try a bunch of individual fooks in turn, and return the first one that succeeds, then something like:

fooks :: (Failure FookError m, MonadPlus m) => Int -> m Int
fooks n = foldr mplus (failure FookError) $ map fook [1..]

should do the trick. The plain Failure class by itself offers no way to recover from errors, so you need to require MonadPlus too. Note that the failure FookError here will never actually be used, since [1..] is infinite, but presumably you're planning to change the definition; say to one that actually uses n :)

Unfortunately, that isn't all! Either e doesn't have a MonadPlus instance, presumably because there's no reasonable value of mzero (although another potential problem is that mplus (Left e) (Left e') could be either Left e or Left e').

Thankfully, it's easy to define an instance for our specific type:

instance MonadPlus (Either FookError) where
  mzero = failure FookError
  mplus a@(Right _) _ = a
  mplus (Left _) a = a

You'll need {-# LANGUAGE FlexibleInstances #-} at the top of your file to do this.

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Thanks, ehird. That does the trick for this example, but the type annotation doesn't fix my issue in my original code (which has some complicating factors). I'll try to come up with a better example. And thanks for the specifics you give, but unfortunately this was just a toy example to try to demonstrate the error (unfortunately not a very good one). –  jberryman Jan 19 '12 at 2:50
    
voted to close, since I'm not sure this will help anyone, and I don't think I'll be able to come up with a good example of my issue tonight. –  jberryman Jan 19 '12 at 5:34

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