7

I've got a bunch of stateful functions inside a State monad. At one point in the program there needs to be some IO actions so I've wrapped IO inside a StateT getting a pair of types like this:

mostfunctions :: State Sometype a
toplevel :: StateT Sometype IO a

To keep things simple I don't want pass the IO context into the main set of functions and I would like to avoid wrapping them in the monad stack type. But in order to call them from the toplevel function I need something akin to a lift, but I'm not trying to lift a value from the inner monad. Rather I want to convert the state in the StateT monad into something equivalent in the State monad. To do this I've got the following:

wrapST :: (State Sometype a) -> StateT Sometype IO a
wrapST f = do s <- get
              let (r,s2) = runState f s 
              put s2
              return r

This then get used to interleave things like the following:

toplevel = do liftIO $ Some IO functions
              wrapST $ Some state mutations
              liftIO $ More IO functions
              ....

It seems like a fairly obvious block of code so I'm wondering does this function have a standard name, and it is already implemented somewhere in the standard libraries? I've tried to keep the description simple but obviously this extends to pulling one transformer out of a stack, converting the wrapped value to the cousin of the transformer type, skipping the monads below in the stack, and then pushing the results back in at the end.

1
  • 4
    Can't you use the fact, that type State = StateT Identity? Use StateT Sometype m a for the big bunch of functions, so you can run them in both StateT IO and State.
    – fuz
    May 11, 2011 at 17:13

2 Answers 2

9

It may be a good idea to refactor your code to use the type StateT SomeType m a instead of State SomeType a, because the first one is compatible to an arbitrary monad stack. If you'd change it like this, you don't need a function wrapST anymore, since you can call the stateful functions directly.

Okay. Suppose you have a function subOne :: Monad m => State Int Int:

subOne = do a <- get
            put $ a - 1
            return a

Now, change the types of all functions like this one from State SomeType a to StateT SomeType m a, leaving m as is. This way, your functions can work on any monadic stack. For those functions, that require IO, you can specify, that the monad at the bottom must be IO:

printState :: MonadIO m => StateT Int m ()
printState = do a <- get
             liftIO $ print a

Now, it should be possible to use both functions together:

-- You could use me without IO as well!
subOne :: Monad m => StateT Int m ()
subOne = do a <- get
            put $ a - 1

printState :: MonadIO m => StateT Int m ()
printState = do a <- get
             liftIO $ print a

toZero :: StateT Int IO ()
toZero = do subOne     -- A really pure function
            printState -- function may perform IO
            a <- get
            when (a > 0) toZero

PS: I use GHC 7, some of the libs changed midway, so it might be a bit different on GHC 6.

5
  • It doesn't work when I try it "Couldn't match expected type Identity againsted Inferred type IO". I can't fit a code fragment in these comments, could you post a simple example of what you mean?
    – Andrew
    May 11, 2011 at 17:54
  • Excellent, that's a much simpler way of achieving what I was looking for. And it answers my original question as well: that the function that I was looking for is a standard part of a transformer. btw the signature for subOne needs a "Monad m =>" added for ghci.
    – Andrew
    May 11, 2011 at 19:30
  • 2
    For printState and toZero, it might be good to allow any monad, as long as IO is at the bottom of the stack, i.e. printState :: MonadIO m => StateT Int m (), or just remove the type signature :)
    – hammar
    May 11, 2011 at 19:43
  • @hammar: Ah... forgot about that.
    – fuz
    May 11, 2011 at 19:44
  • 2
    Side note: In the latest Haskell Platform, State is defined in terms of StateT, and the same is true of all monads which can be generalised to monad transformers, I think. Until very recently, this was not the case. This doesn't change the correctness of the answer: StateT should still be used because it's more general. May 11, 2011 at 19:48
3

A more direct answer to your question: the function hoist does exactly what you're describing in a slightly more generic way. Example usage:

import Control.Monad.State
import Data.Functor.Identity
import Control.Monad.Morph

foo :: State Int Integer
foo = put 1 >> return 1

bar :: StateT Int IO Integer
bar = hoist (return . runIdentity) foo

hoist is part of the MFunctor class, which is defined like this:

class MFunctor t where
  hoist :: Monad m => (forall a. m a -> n a) -> t m b -> t n b

There are instances for most monad tranformers, but not ContT.

1
  • Thanks, this is actually the answer I was originally looking for.
    – Andrew
    Jul 28, 2015 at 10:57

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.