What's similar to fmap for monadic values?

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
5
``````

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?

Thanks.

-
Btw `print <\$> a` is exactly the same as `fmap print a`, –  R. Martinho Fernandes Feb 7 '11 at 22:06

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.

Hence:

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

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

-
+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, hackage.haskell.org/packages/archive/base/latest/doc/html/… 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.

-

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.

-
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

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 }
5
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.

-
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