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Given a partial function f and a list of arguments xs, I'm looking for the list of pairs (x, f(x)) where f is defined. This seems like a natural thing to do, but so far I've failed to express it elegantly. I wonder if there's anything in the Maybe/Monad/Applicative/... area that can help? The following works, but it seems a little explicit.

import Data.Maybe (mapMaybe)

graph :: (a -> b) -> [a] -> [(a, b)]
graph f = map (\x -> (x, f x))

liftMaybe :: (a, Maybe b) -> Maybe (a, b)
liftMaybe (x, Just y)  = Just (x, y)
liftMaybe (_, Nothing) = Nothing

partialgraph :: (a -> Maybe b) -> [a] -> [(a, b)]
partialgraph f = mapMaybe liftMaybe . graph f

Does liftMaybe exist with another name? I've found the following reformulations of some of these:

import Control.Monad (ap)

graph' :: (a -> b) -> [a] -> [(a, b)]
graph' = map . ap (,)

liftMaybe' :: (a, Maybe b) -> Maybe (a, b)
liftMaybe' (a, mb) = do
    b <- mb
    return (a, b)

liftMaybe'' :: (a, Maybe b) -> Maybe (a, b)
liftMaybe'' (a, mb) = fmap ((,) a) mb

liftMaybe''' :: (a, Maybe b) -> Maybe (a, b)
liftMaybe''' = uncurry (fmap . (,))
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3 Answers 3

up vote 3 down vote accepted

The simplest definition of liftMaybe would be

import Data.Traversable (sequenceA)

liftMaybe :: (a, Maybe b) -> Maybe (a, b)
liftMaybe = sequenceA

The documentation for sequenceA can be found here http://hackage.haskell.org/package/base/docs/Data-Traversable.html.

The general type signature is sequenceA :: (Traversable t, Applicative f) => t (f a) -> f (t a), but in this case t is (,) c and f is Maybe.

Also, partialgraph could be expressed with traverse :: (Traversable t, Applicative f) => (a -> f b) -> t a -> f (t b) (which is also from Data.Traversable):

partialgraph :: (a -> Maybe b) -> [a] -> [(a, b)]
partialgraph f = mapMaybe $ \x -> traverse f (x, x)

or, if you prefer a little more pointlessness:

partialgraph f = mapMaybe (traverse f . join (,))

EDIT: When I wrote this answer, I didn't realize that the required Traversable and Foldable instances aren't defined in the GHC 7.6.3 standard library (they are in GHC 7.8 though). Here they are, courtesy of @robx:

instance Foldable ((,) a) where
  foldr f y (u, x) = f x y

instance Traversable ((,) a) where
  traverse f (u, x) = (,) u <$> f x
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Promising! Is the required Traversable instance for (,) a defined somewhere? The following works for me: instance Foldable ((,) a) where foldr f y (u, x) = f x y and instance Traversable ((,) a) where traverse f (u, x) = (,) u <$> f x –  robx Mar 11 '14 at 8:54
@robx: Your suggested edit was correct, I'm not sure why it was declined. I changed it. Anyway, sorry, I didn't notice that the required instance isn't in the stable version of GHC. I was using the GHC 7.8 RC, which has a (,) a instance for Traversable in Data.Traversable. Your definition is the same as the standard one, so it should work fine. –  David Young Mar 11 '14 at 17:25

The simplest approach is probably to use a list comprehension:

partialGraph :: (a -> Maybe b) -> [a] -> [(a, b)]
partialGraph f xs = [(x, fx) | (x, Just fx) <- graph f xs]

This takes advantage of the failure semantics of pattern-matching in list comprehensions: if a pattern match fails, then that list element is skipped.1

For instance,

ghci> partialGraph (\x -> if even x then Just $ x `quot` 2 else Nothing) [1..10]

There doesn't appear to be a liftSnd :: Functor f => (a, f b) -> f (a,b) function defined anywhere; uncurry $ fmap . (,) is about as concise as you're going to get.

If you define

preservingF :: Functor f => (a -> f b) -> a -> f (a, b)
preservingF = liftA2 fmap (,)

then you can use this function to define

partialGraph :: (a -> Maybe b) -> [a] -> [(a, b)]
partialGraph = mapMaybe . preservingF

which is pretty elegant, although the definition of preservingF is a little opaque (especially if you inline it).2

1 This is just the (slightly questionable) fail (or the perfectly reasonable mzero) for the list monad, which simply produces the computation [].

2 And just as you've been unable to find liftMaybe, I have been unable to find preservingF for a long time.

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I think you're missing an argument in the preservingF type signature. If so, it's very similar to traverse (if you don't mind an Applicative constraint instead of Functor): preservingF f x = traverse f (x, x). –  David Young Mar 11 '14 at 4:37
@David: Whoops, fixed, thanks :-) (That's what I get for not copying from GHCi.) And thanks for the implementation! –  Antal S-Z Mar 11 '14 at 5:48

Hoogle returns nothing for (a,m b) -> m (a,b). So I guess the answer is no! There are a lot of similar functions which I've ended up implementing locally. The closest predefined example I can think of is sequence:

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

But you can still hack your way to victory (using Data.Maybe and Control.Arrow):

graph f xs = map (second fromJust) $ filter (isJust . snd) $ zip xs $ map f xs
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No results for p a (m b) -> m (p a b), or p a (Maybe b) -> Maybe (p a b), either... Too bad. –  robx Mar 10 '14 at 21:17

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