# Is this function possible?

``````findM :: Monad m => (a -> m Bool) -> m [a] -> Maybe (m a)
``````

I cannot implement it by myself. I could use some pointers

find looks like:

``````find f as = listToMaybe \$ filter f as
``````

so I tried:

``````findM f as = filterM f as >>= listToMaybe
``````

but it doesnt work.

-
Sure you can! `findM f mxs = Nothing`. %-) –  luqui Oct 7 '11 at 22:30

No. It is not possible. However, you can write a function with the signature:

``````findM :: Monad m => (a -> m Bool) -> m [a] -> m (Maybe a)
``````

The reason it is not possible is because in order to figure out if the `Maybe` has constructor `Just x` or `Nothing`, you have to get the value out of the monad. Which means that the `Maybe` must be inside the monad at the end, since it is not possible in general to extract a value from inside a monad. (That is the whole point of monads, after all.)

For example, given your signature to `findM`, you could write some obviously incorrect functions:

``````findM :: Monad m => (a -> m Bool) -> m [a] -> Maybe (m a)
findM = magic
anyM :: Monad m => (a -> m Bool) -> m [a] -> Bool
anyM f = isJust . findM f
extractBool :: Monad m => m Bool -> Bool
extractBool = anyM id . liftM (:[])
``````

The function `extractBool` is obviously impossible, so `findM` cannot have that signature.

Here is an implementation of `findM`:

``````findM :: Monad m => (a -> m Bool) -> [a] -> m (Maybe a)
findM _ [] = return Nothing
findM f (x:xs) = do y <- f x
if y then return (Just x) else findM f xs
``````

I am not sure of a simpler way to implement it -- this seems fairly clean, and it works on infinite lists.

Changing the signature from using an `m [a]` to using `[a]` makes it more useful and easier to use. You'll quickly figure out why, if you implement both interfaces.

-
`findM :: Monad m => (a -> m Bool) -> [a] -> m (Maybe a)` `findM f as = filterM f as >>= return . listToMaybe` I dont think i need m [a] in that type –  tm1rbrt Oct 7 '11 at 21:55
`liftM . find` has type `Monad m => (a -> Bool) -> m [a] -> m (Maybe a)` - notice you're missing an `m` on the predicate. tm1rbrt, your function looks better, but always executes the predicate on every element of the input list, which may not be what you want. –  Ben Millwood Oct 7 '11 at 21:57
I also noticed an error in my `findM`. It is fixed now. –  Dietrich Epp Oct 7 '11 at 22:03

Try

``````findM :: Monad m => (a -> m Bool) -> [a] -> m (Maybe a)
findM p = foldr step (return Nothing)
where
step x r = do
b <- p x
if b then return (Just x) else r
``````

This version only uses the predicate as much as it has to, whereas the `filterM` version uses it on every element. So for example:

``````ghci> let findM' p xs = filterM p xs >>= return . listToMaybe
ghci> let check x = putStrLn ("checking " ++ show x) >> doesDirectoryExist x
ghci> findM check ["test1", ".", "test2"]
checking "test1"
checking "."
Just "."
ghci> findM' check ["test1", ".", "test2"]
checking "test1"
checking "."
checking "test2"
Just "."
``````
-
Oops, Dietrich fixed his `findM` to be the same as mine, now. Might as well keep this answer for its demonstration of the difference from the `filterM` version, though. –  Ben Millwood Oct 7 '11 at 22:12

Others have already demonstrated that this isn't possible, however with a further constraint you can get a very similar function.

``````findM :: (Traversable m, Monad m) => (a -> m Bool) -> m [a] -> Maybe (m a)
findM p xs = Data.Traverse.sequence \$ dietrichsFindM p xs
``````

Not every Monad has a Traversable instance, but if it does this will work.

-

For the signature

``````findM :: Monad m => (a -> m Bool)  -> m [a] -> m (Maybe a)
``````

i suggest:

``````import Control.Monad
import Data.Maybe

findM :: Monad m => (a -> m Bool)  -> m [a] -> m (Maybe a)
findM f m = m >>= filterM f >>= return . listToMaybe
``````

or

``````findM :: Monad m => (a -> m Bool)  -> m [a] -> m (Maybe a)
findM = ((return . listToMaybe =<<) .) . (=<<) . filterM
``````

for a point-free style.

-