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This should be easy for Haskell pros..

I've got a Maybe value,

> let a = Just 5

I can print it:

> print a
Just 5

But I want to apply an I/O action to the inside of the Maybe. The only way I've figured out how to do this without using case is:

> maybe (return ()) print a

However, this seems too verbose. First of all, return () is specific to the I/O monad, so I have to come up with a different "zero" for each monad I want to try this trick in.

I want to basically map an I/O action (print) onto the Maybe value and print it if it is Just, or don't do anything if it is Nothing. I want to express it somehow like,

> fmap print a

But this doesn't work since print is an IO action:

No instance for (Show (IO ()))

I tried Applicative, but can't figure out if there's a way to express it:

> print <$> a
No instance for (Show (IO ()))

Obviously I'm a bit confused about monads-inside-monads.. can anyone tell me the right way to most succinctly express this?


share|improve this question
Btw print <$> a is exactly the same as fmap print a, –  R. Martinho Fernandes Feb 7 '11 at 22:06

4 Answers 4

up vote 22 down vote accepted

pelotom's answer is the straightforward one. But not the fun one! sequence is the Haskell function that one can think of as flipping the order of type constructors between a list and a monad.

sequence :: (Monad m) => [m a] -> m [a]

Now what you want is, so to speak, to flip the order of type constructors between a Maybe and a monad. Data.Traversable exports a sequence function with just that capacity!

Data.Traversable.sequence :: (Traversable t, Monad m) => t (m a) -> m (t a)

This can specialize to Maybe (IO ()) -> IO (Maybe ()) like in your example.


Prelude Data.Traversable> Data.Traversable.sequence (fmap print $ Nothing)

Prelude Data.Traversable> Data.Traversable.sequence (fmap print $ Just 123)
Just ()

Note that there's also a sequenceA function which is slightly more general, working not just on Monads but all Applicatives.

So why use this approach? For Maybe the approach that takes it apart explicitly is fine. But what about a bigger data structure -- a Map for example? In that case, traverse, sequenceA and friends from Data.Traversable can be real handy.

Edit: as Ed'ka notes, traverse :: Applicative f => (a -> f b) -> t a -> f (t b) and so one can just write traverse print $ Just 123.

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+1 for the fun answer :) –  Tom Crockett Feb 7 '11 at 22:48
You can just use traverse print $ Just 123 with the same result –  Ed'ka Feb 8 '11 at 0:36
The source gives a simple definition for traverse: traverse f = sequenceA . fmap f –  Dan Burton Feb 8 '11 at 2:32
I wonder if it's useful to define a function like traverse_ similar to sequence_ and mapM_? –  Daniel Velkov Feb 8 '11 at 8:18
@Daniel Velkov,… Since it discards the result (the shape of Traversable) it only needs to be Foldable –  Ed'ka Feb 8 '11 at 9:04

First of all, return () is specific to the I/O monad, so I have to come up with a different "zero" for each monad I want to try this trick in.

return () is actually quite generic, as can be seen by its type:

Prelude> :t return ()
return () :: (Monad m) => m ()

I see nothing wrong with the maybe (return ()) print a approach.

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But I want to apply an I/O action to the inside of the Maybe.

This can be achieved with monad transformers.

MaybeT is a monad that can be wrapped around another monad. Put another way, MaybeT can use any other Monad to abstract away (innocent[1]) failure in a computation.

Sadly, GHCi does not (in 2011) have any functionality to make playing with monad transformers easier, but here you go:

> :m + Control.Monad.Maybe Control.Monad.Trans
> let a = Just 5
> runMaybeT$ do { v <- MaybeT$ return a ; liftIO$ print v }
Just ()

For more in-depth understanding of monads and monad transformers, I suggest you read other sources in the web. Keep in mind monads also simply wrap values.

I'll try to keep it simple. Signatures: m = IO, a = Integer

runMaybeT :: MaybeT m a -> m (Maybe a) -- Turns a computation in MaybeT IO into a computation in IO.

do { -- do notation without indentation to make it fit on ghci's prompt[2].

MaybeT :: m (Maybe a) -> MaybeT m a -- Wrap a computation of type IO (Maybe Integer).

return a :: IO (Just Integer) -- Replace this with your computation.

lift -- Run the computation in the wrapped monad.[3]

Just () -- The result of the computation. GHCi prints IO results whenever it is not ().

MaybeT is not included in mtl, so you might have to install it

cabal install MaybeT

Or consider [1]

[1] For passing error messages as well, use MonadError

[2] I know about multiline input in GHCi

[3] Use liftIO if you need IO from a stack of monads.

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Thank you! I really want to get more familiar with transformers.. I've already read a lot but still have difficulty understanding/knowing when to use them. I guess I'll learn if I just make use of them more often, so perhaps this is a good opportunity. –  Steve Feb 10 '11 at 2:57

Have you tried this?

unwrap :: (Show a) => Maybe a -> IO ()
unwrap Nothing  = return ()
unwrap (Just a) = print a

It will return / print the the data submitted, after unwrapping it.

share|improve this answer
What module is that in? –  Steve Feb 8 '11 at 2:46
@Steve - he's defining his own unwrap function –  Tom Crockett Feb 8 '11 at 3:32
By the way, this will print "()" in the case where the argument is Nothing... I think the OP's intention was to do nothing in that case –  Tom Crockett Feb 8 '11 at 3:33
@pelotom Thanks, I didn't read that right the first time. –  Steve Feb 8 '11 at 9:17
@TaslemGuy that doesn't compile... you want return () –  Tom Crockett Feb 8 '11 at 23:13

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