I've just been trying to wrap my head around free monads; as a learning aid, I've managed to write a `Show`

instance for the following `Free`

type:

```
{-# LANGUAGE FlexibleContexts, UndecidableInstances #-}
-- Free monad datatype
data Free f a = Return a | Roll (f (Free f a))
instance Functor f => Monad (Free f) where
return = Return
Return a >>= f = f a
Roll ffa >>= f = Roll $ fmap (>>= f) ffa
-- Show instance for Free; requires FlexibleContexts and
-- UndecidableInstances
instance (Show (f (Free f a)), Show a) => Show (Free f a) where
show (Return x) = "Return (" ++ show x ++ ")"
show (Roll ffx) = "Roll (" ++ show ffx ++ ")"
-- Identity functor with Show instance
newtype Identity a = Id a deriving (Eq, Ord)
instance Show a => Show (Identity a) where
show (Id x) = "Id (" ++ show x ++ ")"
instance Functor (Identity) where
fmap f (Id x)= Id (f x)
-- Example computation in the Free monad
example1 :: Free Identity String
example1 = do x <- return "Hello"
y <- return "World"
return (x ++ " " ++ y)
```

The use of `UndecidableInstances`

bothers me somewhat; is there a way to do without it? All that Google yields is this blog post by Edward Kmett, which comfortingly has basically the same `Show`

class definition as I do.

`UndecidableInstances`

isn't really worrisome. Basically all it does is tell the compiler 'trust me, instance chasing will terminate'. If you got it wrong, the context stack will still stop the compiler from being stuck in an infinite loop. – Daniel Fischer Jun 4 '12 at 1:05