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After reading (and skimming some sections of) Wadler's paper on monads, I decided to work through the paper more closely, defining functor and applicative instances for each of the monads he describes. Using the type synonym

type M a = State -> (a, State)
type State = Int

Wadler uses to define the state monad, I have the following (using related names so I can define them with a newtype declaration later on).

fmap' :: (a -> b) -> M a -> M b
fmap' f m = \st -> let (a, s) = m st in (f a, s)

pure' :: a -> M a
pure' a = \st -> (a, st)

(<@>) :: M (a -> b) -> M a -> M b
sf <@> sv = \st -> let (f, st1) = sf st
                       (a, st2) = sv st1
                    in (f a, st2)

return' :: a -> M a
return' a = pure' a

bind :: M a -> (a -> M b) -> M b
m `bind` f = \st -> let (a, st1) = m st
                        (b, st2) = f a st1
                     in (b, st2)

When I switch to using a type constructor in a newtype declaration, e.g.,

newtype S a = S (State -> (a, State))

everything falls apart. Everything is just a slight modification, for instance,

instance Functor S where
 fmap f (S m) = S (\st -> let (a, s) = m st in (f a, s)) 

instance Applicative S where
 pure a = S (\st -> (a, st))

however nothing runs in GHC due to the fact that the lambda expression is hidden inside that type constructor. Now the only solution I see is to define a function:

isntThisAnnoying s (S m) = m s

in order to bind s to 'st' and actually return a value, e.g.,

fmap f m = S (\st -> let (a, s) = isntThisAnnoying st m in (f a, s))

Is there another way to do this that doesn't use these auxiliary functions?

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2 Answers

up vote 8 down vote accepted

If you look here, you will see that they define it this way:

newtype State s a = State { runState :: (s -> (a,s)) }

so as to give the inner lambda a name.

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Which also means runState = flip isntThisAnnoying. –  KennyTM Aug 20 '10 at 18:48
    
Okay - so while an auxiliary function is still needed, I could just define the type using a record, getting the function for free. What you're saying, then, is that there is no way to avoid using functions like 'runState' or 'run'. Thanks. –  danportin Aug 20 '10 at 21:40
    
If it hurts you to think of it as a function, think of it as a struct field accessor instead. :-) –  Owen S. Aug 21 '10 at 0:50
    
Oh, well it doesn't hurt me. I was just wondering if there was a better way to define it. As you pointed out, 'runState' is perfectly fine :) But Haskell is my first language, so I'd rather think of it as a function from s to (a, s), because that's what it is. –  danportin Aug 21 '10 at 21:57
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The usual way is to define newtype newtype S a = S {runState : State -> (a, State)}. Then instead of your isntThisAnnoying s (S m) you can write runState t s where t is the same as S m.
You have to use a newtype because type synonyms cannot be typeclass instances.

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