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Continuing quest to make sense of ContT and friends. Please consider the (absurd but illustrative) code below:

v :: IO (Either String [String])
v = return $ Left "Error message"

doit :: IO (Either String ())
doit = (flip runContT return) $ callCC $ \k -> do
    x <- liftIO $ v
    x2 <- either (k . Left) return x
    when True $ k (Left "Error message 2")
    -- k (Left "Error message 3")
    return $ Right () -- success

This code does not compile. However, if the replace the when with the commented k call below it, it compiles. What's going on?

Alternatively, if I comment out the x2 line, it also compiles. ???

Obviously, this is a distilled version of the original code and so all of the elements serve a purpose. Appreciate explanatory help on what's going on and how to fix it. Thanks.

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"Continuing quest to make sense of ContT and friends"? A fool's errand! The Continuation that can be understood is not the true Continuation. –  C. A. McCann Feb 9 '10 at 14:59

1 Answer 1

up vote 5 down vote accepted

The problem here has to do with the types of when and either, not anything particular to ContT:

when :: forall (m :: * -> *). (Monad m) => Bool -> m () -> m ()
either :: forall a c b. (a -> c) -> (b -> c) -> Either a b -> c

The second argument needs to be of type m () for some monad m. The when line of your code could thus be amended like so:

when True $ k (Left "Error message 2") >> return ()

to make the code compile. This is probably not what you want to do, but it gives us a hint as to what might be wrong: k's type has been inferred to be something unpalatable to when.

Now for the either signature: notice that the two arguments to either must be functions which produce results of the same type. The type of return here is determined by the type of x, which is in turn fixed by the explicit signature on v. Thus the (k . Left) bit must have the same type; this in turn fixes the type of k at (GHC-determined)

k :: Either String () -> ContT (Either String ()) IO [String]

This is incompatible with when's expectations.

When you comment out the x2 line, however, its effect on the type checker's view of the code is removed, so k is no longer forced into an inconvenient type and is free to assume the type

k :: Either [Char] () -> ContT (Either [Char] ()) IO ()

which is fine in when's book. Thus, the code compiles.

As a final note, I used GHCi's breakpoints facility to obtain the exact types of k under the two scenarios -- I'm nowhere near expert enough to write them out by hand and be in any way assured of their correctness. :-) Use :break ModuleName line-number column-number to try it out.

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Thanks. It makes sense but doesn't quite solve my problem. I think the intent of my code is clear. Looking for a way to get some data from IO, and on various conditions, escape out of the function. What would be the proper way to write this with continuations? –  me2 Feb 9 '10 at 17:33
Well, actually you can use the trick I mentioned in the answer and use k (...) >> return () in the when bit (and similar expressions wherever type mismatches arise), because the >> return () part doesn't matter -- if k gets called at this point, you're out of this computation anyway. I've suggested in the answer that this is probably not what you want, but now I believe that the very opposite is true. Could you give it a try and let me know if it helps? If it does, I'll edit it in the answer proper. –  Michał Marczyk Feb 11 '10 at 4:14
Of course your code as it stands now is guaranteed to return Left "Error message" whichever small fix you apply to make it compile, because k gets called already on the either line. If you change v to return $ Right ["Foo"] and add >> return () to the when line, then it'll return Left "Error message 2". HTH. –  Michał Marczyk Feb 11 '10 at 4:18

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