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I know that Functor and Applicative should be superclasses of Monad, but aren't for historical reasons. However, why isn't is possible to declare Monad an instance of Functor? This would have roughly the same effect, but without having to modify existing code. If you're trying to do this, GHC complains:

instance Functor Monad where
   fmap = liftM

Class `Monad' used as a type
In the instance declaration for `Functor Monad'

Why is that? There's probably a good reason for it.

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How about instance (Monad m) => Functor m? –  JB. Sep 29 '11 at 9:17
See this answer: stackoverflow.com/questions/3213490/… –  sdcvvc Sep 29 '11 at 11:05

2 Answers 2

up vote 11 down vote accepted

Your syntax is wrong. Monad is a typeclass, not a data type. What you could write is

instance Monad a => Functor a where fmap = liftM

However, this will only work with the extensions FlexibleInstances (permits instances that are not of the form T a1 a2 ... an where a1, a2, ... an are type variables and there is no context) and UndecidableInstances (which permits this specific instance [I don't know why this is needed]).

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UndecidableInstances is needed because the declaration conflicts with every monad that's explicitly defined to be a functor, including all the monads in the standard library. –  dave4420 Sep 29 '11 at 9:23
Well, I guess the UndecidableInstances requirement also answers the question why this isn't being defined in Prelude or another package... –  bseibold Sep 29 '11 at 9:28
@dave4420 The compiler says, that the reason for that is something about that the instance head is bigger than the instance itself... I didn't understood it. Additionally, there is a proposal to change the definition of monads to include functors and applicative. –  FUZxxl Sep 29 '11 at 9:32
dave4420 is incorrect: conflicting declarations would imply OverlappingInstances or IncoherentInstances. The reason this requires UndecidableInstances is the following: when checking whether Foo is a Functor, this rule implies that we must then check that Foo is a Monad -- that is, we must recurse into the instance-finding algorithm with a type that is not smaller than the one we started with. If we allow such recursion, it's easy to write instances that never stop recursing, whereas if the type must get smaller at each step it is obviously impossible. –  Daniel Wagner Sep 29 '11 at 11:53
Imagine if one then also defined instance Functor a => Monad a (never mind that you couldn't define any of the methods, the typechecker doesn't know that). UndecidableInstances is you telling GHC "I didn't do anything stupid like the above, trust me". –  Ben Millwood Sep 30 '11 at 2:59

The reason is that Monad is a type class while an instance declaration requires a type or type constructor. The error message clearly states that. Type classes and type are two distinct kinds of things. They are never interchangable in Haskell.

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