Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a common pattern in my code where I have a list of objects, and I pass them to a function choose to have the user select one.

choose :: [a] -> (a -> String) -> IO Int

However, returning an Int is unfortunate, because now I have to use the partial (!!) to access the chosen element. To avoid this, I would prefer to have

choose :: [a] -> [Lens' [a] a] -> (a -> String) -> IO (Lens' [a] a)

where I pass in a list of lenses, one to access each element of the list. Then, I can be sure that it is safe to use modify the object at the other end of the lens, without worrying about whether or not it actually exists.

How could I create such a list of Lenses? Effectively, I need

makeAccessors :: [a] -> [Lens' [a] a]

As a bonus, something more general like

makeAccessors' :: a -> Traversal' a b -> [Lens' a b]

would be great too - making a lens for each point the traversal accesses

share|improve this question
why not have choose return the chosen object? choose :: [a] -> (a -> String) -> IO a –  cdk Jul 14 '13 at 18:54
well, I am operating inside (effectively) some StateT [a] IO monad. I would like to then modify my monadic state, which a lens allows me to do. Currently I'm using an Int to know which part of my state to modify, but this requires (!!) (as far as I can tell) –  ajp Jul 14 '13 at 20:28
I think what you want is the Traversal itself –  Gabriel Gonzalez Jul 14 '13 at 23:54
I don't see what you mean. I'm looking for something that modifies just one element, not all of them. Of course I can do something like fromJust $ myList ^? traverse . ix i, where i is the chosen index, but then I still have a partial function involved - If I could split the traversal up into a list of Lenses, then I could just pick one, rather than using an unsafe indexing operation –  ajp Jul 15 '13 at 0:02

1 Answer 1

Maybe instead of a Lens, a Zipper?

data ListZipper a = LZ { left :: [a], focus :: a, right :: [a] }

listToListZipper :: [a] -> Maybe (ListZipper a)
listToListZipper (a:as) = Just $ LZ [] a as
listToListZipper []     = Nothing

modifyFocus :: (a -> a) -> ListZipper a -> ListZipper a
modifyFocus f z = z { focus = f $ focus z }

goRight :: ListZipper a -> Maybe (ListZipper a)
goRight (LZ ls l (a:rs)) = Just $ LZ (l:ls) a rs
goRight _                = Nothing

goLeft :: ListZipper a -> Maybe (ListZipper a)
goLeft (LZ (a:ls) r rs) = Just $ LZ ls a (r:rs)
goLeft _                = Nothing

listZipperToList :: ListZipper a -> [a]
listZipperToList (LZ ls a rs) = reverse ls ++ a:rs

It's easy to access the desired element (with modifyFocus), and you can make your choose

choose :: [a] -> (a -> String) -> MaybeT IO (ListZipper a)
choose as f = do 
    i <- lift $  choose' as f
    let z = listToListZipper as
    MaybeT . return $ goto i z
  where choose' :: [a] -> (a -> String) -> IO Int
        choose' = ...
        goto :: Int -> ListZipper a -> Maybe (ListZipper a)
        goto 0 z = return z
        goto n z = do
          z' <- goRight z
          goto (n-1) z'

or even

forceValidChoice :: [a] -> (a -> String) -> IO (ListZipper a)
forceValidChoice as f = do
  mz <- runMaybeT $ choose as f
  maybe (forceValidChoice as f) return mz
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.