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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

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4  
why not have choose return the chosen object? choose :: [a] -> (a -> String) -> IO a –  cdk Jul 14 '13 at 18:54
1  
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
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