I'm trying to learn Haskell and wondered how to filter a given list, with a function that takes multiple parameters, passing each element of the list with other unchanging elements to the function, to create a new list.

I understand that I can do this to use a bool function to filter the list:

newList = filter theFunction aList

but what happens when the theFunction takes other parameters like this:

theFunction -> elementOfAList -> Int -> Bool 

how then could I filter each element of the list, whilst parsing in another element to the function? Any help would be greatly appreciated :)

Edit -> To provide some more information, if I wanted to have a list of integers from [1..10], that get filtered through a function that takes two integers and returns true if the first one is smaller, how could I do that?

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    It's unclear what you mean, please add some code/pseudocode explaining how you would like to use this. Oct 8, 2017 at 15:40
  • to your edit: the first part of my answer fully applies. that is, if you use the same int, like theFunction x i = x < i and then filter (flip theFunction 5) aList, keeping in the resulting list all elements of aList that are smaller than 5.
    – Will Ness
    Oct 8, 2017 at 16:14
  • Seems like this is not a filtering but a folding job. You may try (==) <$> foldr1 (\x y -> bool (minBound :: Int) x (x <= y)) <*> head. Where bool is a ternary operator from Data.Bool.bool with type a -> a -> Bool -> a.
    – Redu
    Oct 8, 2017 at 18:15
  • @Redu consider [1,2,3,1]: 3 <= 2 is false, so minBound will be produced - why?? --- besides, foldr1's implementation (both old and new) guarantees the reducing function to be called only with existing values. and minimum already exists.
    – Will Ness
    Oct 8, 2017 at 22:28
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    @Redu yet for [minBound, 3, 1] your function will return ... True. --- I read the question as more about the general use patterns. --- ascending = and . (zipWith (<=) <*> drop 1).
    – Will Ness
    Oct 8, 2017 at 22:48

1 Answer 1


In that case you use a partially applied predicate function, like this

-- theFunction :: elementOfAList -> Int -> Bool       -- "::" means, "is of type"
newList = filter (flip theFunction i) aList


flip theFunction i x = theFunction x i

by the definition of flip, so flip theFunction has the type Int -> elementOfAList -> Bool:

flip ::       (a -> b   -> c   ) -> b -> a -> c
theFunction :: a -> Int -> Bool
flip theFunction ::               Int -> a -> Bool
flip theFunction  (i ::  Int)         :: a -> Bool

where i is some Int value defined elsewhere. a is a type variable, i.e. it can be any type, like the type of a list's elements (i.e. for a list aList :: [a] each element has the same type, a).

For example, with theFunction x i = x < i you could call filter (flip theFunction 5) aList, keeping in the resulting list all the elements of aList that are smaller than 5. Normally this would just be written as filter (< 5) aList, with operator sections (of which (< 5) is one example, absolutely equivalent to the flip theFunction 5).

The above filtering will use the same Int value i in calling theFunction for every element x of a list aList. If you wanted to recalculate that Int, it is done with another pattern (i.e., higher-order function),

mapAccumL :: (acc -> x -> (acc, y)) -> acc -> [x] -> (acc, [y])

Suppose you wanted to keep in a list of ints all the elements as they are being found by theFunction. Then you could do it like

theFunction :: elementOfAList -> Int -> Bool
foo :: Int -> [Int] -> [Int]
foo i xs = concat (snd (mapAccumL g i xs))    -- normally written as
        -- concat $ snd $ mapAccumL g i xs     -- or 
        -- concat . snd $ mapAccumL g i xs      -- or even
        -- concat . snd . mapAccumL g i $ xs
  g acc x   -- g :: (acc -> x -> (acc, y))  according to mapAccumL's signature
    | theFunction x acc = (x, [x])   -- include `x` in output, and update the acc
    | otherwise         = (acc, [])  -- keep the accumulated value, and skip this `x`

Because both x and acc are used in the same role (the first element of the tuple) they both must be of same type.

  • 1
    Perhaps it would be more effective, didactically, to use a lambda expression rather than flip.
    – dfeuer
    Oct 8, 2017 at 16:20
  • @dfeuer I like combinatory definitions more. \ -> look like more heavy syntax to get lost in.
    – Will Ness
    Oct 8, 2017 at 16:20
  • I like neither, I would write this as filter (`theFunction`i) aList. (But preferrable would of course be if theFunction were defined in flipped form in the first place.) Oct 8, 2017 at 18:34
  • @leftaroundabout me too (the (`op` v) stuff). I meant for the exposition, here, because both the other two options involve new syntax that needs to be explained to / processed by a learner. theFunction is presumably something that the OP already has, a.o.t. defining it especially for this use.
    – Will Ness
    Oct 8, 2017 at 20:35
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