# IO and Maybe monad interaction

I have the following code but I feel it is too ugly and imperative. Would anybody rephrase it to be more functional? (I messed with MaybeT but could not make it work) Applicative answers welcome as well.

``````getString :: IO String

pred :: String -> Bool

f :: String -> String

result :: IO (Maybe String)
result = do
s <- getString
if pred s
then return \$ Just \$ f s
else return Nothing
``````

EDIT: A follow-up question: what if both pred and f also return results within IO (should I split this out into a separate question?)

``````getString :: IO String

pred :: String -> IO Bool

f :: String -> IO String

result :: IO (Maybe String)
result = do
s <- getString
b <- pred s
if b
then Just <\$> f s
else return Nothing
``````
-

I would begin by taking the logic here out of the `IO` monad. Your function can then be written as

``````result :: IO (Maybe String)
result = foo <\$> getString

foo :: String -> Maybe String
foo s | pred s    = Just (f s)
| otherwise = Nothing
``````

You could probably write `foo` in different ways using some fancy combinators, but I don't think that's necessary here. The most important thing is to get your logic out of `IO` so that it's easier to test.

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+1 It can't be denied that getting the logic out of `IO` is more important than having a fancy one-line solution. –  leftaroundabout Oct 7 '11 at 19:04

Here's a nice little combinator:

``````ensure :: MonadPlus m => (a -> Bool) -> (a -> m a)
ensure p x = guard (p x) >> return x
``````

Now we can write a pure function which checks your predicate and applies `f` when appropriate:

``````process :: String -> Maybe String
process = fmap f . ensure pred
``````

Lifting this to an `IO` action is simply another `fmap`:

``````result = fmap process getString
``````

Personally, I'd probably inline `process`, and write that this way instead:

``````result = fmap (fmap f . ensure pred) getString
``````

...which is a relatively clean description of what's happening.

-
``````import Control.Monad

result = getString >>= (return . fmap f . (mfilter pred . Just) )
``````
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Notice that `mfilter` replaces your if-then-else. –  FUZxxl Oct 7 '11 at 18:47
`result = (f <\$> mfilter pred . Just) <\$> getString` –  FUZxxl Oct 7 '11 at 18:57
@FUZxxl that doesn't type check. `mfilter pred . Just :: a -> Maybe a`, but `f <\$> x` is expecting `x :: Maybe a`. You need some sort of applicative composition operator `f <.> g = \x -> f <\$> g x`, which if given lower precedence than `.` allows `result = (f <.> mfilter pred . Just) <\$> getString`. Also, replacing `Just` with `return` allows any `Monad` to be used. –  pat Oct 7 '11 at 19:36
How about `result = (fmap f . mfilter pred . return) <\$> getString`? –  FUZxxl Oct 7 '11 at 19:53

The obvious transformation from your code is to factor the `return` operations:

``````result = do
s <- getString
return \$ if pred s
then Just (f s)
else Nothing
``````

This makes the pattern more apparent:

``````result = liftM g getString
g s | pred s    = Just (f s)
| otherwise = Nothing
``````

By applying `f` from outside, we can make the next pattern apparent:

``````g s = liftM f \$ if pred s then Just s else Nothing
``````

Which lets us remplace the `if` block:

``````g = liftM f . mfilter pred . return
``````

Summing it up:

``````result = liftM (liftM f . mfilter pred . return) getString
``````
-

You can't easily get away with the clunky `if-then-else`, but you can get away with the redundant `returns`:

``````import Control.Monad

result :: IO (Maybe String)
result = go <\$> getString where
go s | pred s    = Just \$ f s
| otherwise = Nothing
``````
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