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I had a function that runs in IO monad:

withDB :: (forall c. IConnection c => c -> IO b) -> IO b
withDB fn = bracket (connectSqlite3 "int/db.sqlite3") disconnect fn

And now I decided to generalize it to run in some MonadIO m. I did it following way, re-inventing bracket with my scope (do you know some from library?):

scope :: MonadIO m => m a -> (a -> m b) -> (a -> m c) -> m c
scope before after action = do
    x <- before
    r <- action x
    _ <- after x
    return r

withDB :: MonadIO m => (forall c. IConnection c => c -> m b) -> m b
withDB fn = liftIO $ scope
                       (liftIO $ connectSqlite3 "int/db.sqlite3")
                       (\x -> liftIO $ disconnect x) fn

I got the error:

Could not deduce (m ~ IO)
from the context (MonadIO m)
  bound by the type signature for
    withDB :: MonadIO m => (forall c. IConnection c => c -> m b) -> m b
  at src\...
  'm' is a rigid type variable bound by
    the signature for
      withDB :: MonadIO m => (forall c. IConnection c => c -> m b) -> m b
Expected type: IO b
  Actual type: m b
In the third argument of 'scope' namely 'fn'
In the second argument of '($)', namely
    (liftIO $ connectSqlite3 "int/db.sqlite3")
    (\x -> liftIO $ disconnect x)

And now my questions:

  1. What does mean m ~ IO? What first two lines of error say? Also, I saw this ~ construction in haskell code but can't find what is it. Extension? What is rigid type variable?

  2. I found error and fixed it. It's enough to remove liftIO $ before scope. But it was just try-recompile cycle. Where in this error message told about the place of the error? I see something wrong with 'fn'. OK, I thought about it a bit and have a guess: GHC infers type from top to bottom. And it inferred from using liftIO that m should be IO but fn has general type m so it is error. Does any haskell compiler infers from top to bottom? And (more important) can I see types that GHC infers for sub expressions in output?

Thank you for reading this long question!

share|improve this question
Just FYI your scope function does not do exactly what bracket does. bracket not only wraps a computation into a 'bracket' of resource allocation/release, but also handles exceptions, freeing the resource even in case of exception. Your scope function will just exit, not freeing the resource. Maybe this is not critical in this case, but still. – Vladimir Matveev May 17 '12 at 16:19
Does generic MonadIO can handle exception? – demi May 17 '12 at 17:56
I think that you can manage this with liftIO. It has IO a -> m a type after all, and all exception handling routines have IO types. You can find all exception-related functions here: hackage.haskell.org/packages/archive/base/… – Vladimir Matveev May 17 '12 at 18:02
@demi: No, not all MonadIOs can handle exceptions (you can't use catch, because you'd need to be able to convert from m a to IO a). If you want to do this, take a look at the monad-control and lifted-base packages, specifically Control.Exception.Lifted. – ehird May 17 '12 at 19:58

liftIO :: (MonadIO m) => IO a -> m a takes an IO action, so by saying liftIO $ scope ..., you're saying that scope ... must have the type IO b. That means that the arguments to scope must use the IO monad. Since your use of scope ensures that m must be IO, you can think of scope as having this type in context:

scope :: IO a -> (a -> IO b) -> (a -> IO c) -> IO b

Because of this, the liftIOs inside the scope call do nothing; they're merely converting from IO a to IO a, and you can't use fn, because it works in m, not IO. Removing the liftIO fixed it because it ran scope directly inside m, rather than running it in IO (impossible, because fn runs in m) and lifting that action into m.

share|improve this answer
OK, so any type inference goes from outermost expression to inner (i.e. from root of expression tree to leafs, not from leafs to root)? And what m ~ IO means? – demi May 17 '12 at 15:04
m ~ IO means that it's trying to prove that m is equal to IO, but it isn't (necessarily). – Louis Wasserman May 17 '12 at 15:39
@demi: It's not necessarily about which direction type inference works in, but about constraints: your use of liftIO requires that scope ... have the type IO b. As Louis says, "Could not deduce (a ~ b)" means that your code requires a and b to be the same to work, but they aren't necessarily. – ehird May 17 '12 at 16:29

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