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Scala has a function groupBy on lists that accepts a function for extracting keys from list items, and returns another list where the items are tuples consisting of the key and the list of items producing that key. In other words, something like this:

List(1,2,3,4,5,6,7,8,9).groupBy(_ % 2)
// List((0, List(2,4,6,8)), (1, List(1,3,5,7,9)))

(Actually, it looks like in current versions it provides a Map instead, but that's not important). C# has an even more useful version that lets you map the values at the same time (very useful if, say, your key function is just extracting part of a tuple).

Haskell has a groupBy, but it's somewhat different - it groups runs of things according to some comparison function.

Before I go and write it, is there an equivalent of Scala's groupBy in Haskell? Hoogle doesn't have anything for what I'd expect the signature to look like (below), but I may have just got it wrong.

Eq b => (a -> b) -> [a] -> [(b,[a])]
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up vote 16 down vote accepted

You can write the function yourself rather easily, but you need to place an Ord or Hashable constraint on the result of the classifier function if you want an efficient solution. Example:

import Control.Arrow ((&&&))
import Data.List
import Data.Function

myGroupBy :: (Ord b) => (a -> b) -> [a] -> [(b, [a])]
myGroupBy f = map (f . head &&& id)
                   . groupBy ((==) `on` f)
                   . sortBy (compare `on` f)

> myGroupBy (`mod` 2) [1..9]

You can also use a hash map like Data.HashMap.Strict instead of sorting for expected linear time.

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I made a slight modification to this to give the C# option of applying a function over the values at the same time: myGroupBy f g xs = map (f . head &&& g) . groupBy ((==) `on` f) . sortBy (compare `on` f) $ xs – Impredicative Mar 15 '13 at 10:53
@Impredicative: That looks very useful indeed! – Niklas B. Mar 15 '13 at 10:58
@Impredicative: myCSharpGroupby f g xs = map (second g) $ myGroupBy f xs would work also – cheecheeo Mar 22 '13 at 6:28

Specifically, the following should work:

scalaGroupBy f = groupBy ((==) `on` f) . sortBy (comparing f)

modulo that this doesn't get you the result of f in each group, but if you really need it you can always post-process with

map (\xs -> (f (head xs), xs)) . scalaGroupBy f
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Where is the using function defined? – Niklas B. Mar 15 '13 at 10:13
@NiklasB. Good question, Hoogle does not seem to find it. Yet I'd swear it was there once?! Just like comparing f is f x <=> f y, so using f should be f x == f y – Ingo Mar 15 '13 at 10:16
So basically equaling or something. I think Data.Function.on is the generalization of these concepts, since comparing = on compare and using = on (==) – Niklas B. Mar 15 '13 at 10:18
@NiklasB. I have replaced it by (==) on, perhaps I confused something here. – Ingo Mar 15 '13 at 10:20

This isn't a function in the List library.

You can write it as the composition of sortBy and groupBy.

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Putting a trace in f reveals that, with @Niklas solution, f is evaluated 3 times for each element on any list of length 2 or more. I took the liberty of modifying it so that f is applied to each element only once. It's not clear however whether the cost of creating and destroying tuples is less than the cost of evaluating f multiple times (since f can be arbitrary).

import Control.Arrow ((&&&))
import Data.List
import Data.Function

myGroupBy' :: (Ord b) => (a -> b) -> [a] -> [(b, [a])]
myGroupBy' f = map (fst . head &&& map snd)
                   . groupBy ((==) `on` fst)
                   . sortBy (compare `on` fst)
                   . map (f &&& id)
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I don't like that head -- I came up with foldr go [] where go (k, x) (k', xs) | k == k' = (k, x:xs); go (k, x) kxs = (k, [x]) : kxs, but perhaps that's not clearer. – Ben Millwood Mar 21 '13 at 14:12
(I know the head can never crash. But I prefer code that syntactically can never crash, instead of having to think about it) – Ben Millwood Mar 21 '13 at 14:13
@BenMillwood, your code doesn't typecheck. I had the same qualm about using head on the sublists that result from group or groupBy, but now I'm used to it. – pat Mar 21 '13 at 15:12
Oh, whoops. foldr go [] where go (k, x) ((k', xs) : ys) | k == k' = (k, x:xs) : ys; go (k, x) kxs = (k, [x]) : kxs – Ben Millwood Mar 21 '13 at 23:16

This solution will break and group by on (f x), regardless wether it is sorted or not

f = (`mod` (2::Int))

list = [1,3,4,6,8,9] :: [Int]

myGroupBy :: Eq t => (b -> t) -> [b] -> [(t, [b])]

myGroupBy f (z:zs) = reverse $ foldl (g f) [(f z,[z])] zs
    -- folding function                        
    g f ((tx, xs):previous) y = if (tx == ty)
                           then (tx, y:xs):previous
                           else (ty, [y]):(tx, reverse xs):previous
        where ty = f y                        

main = print $ myGroupBy f list

result: [(1,[1,3]),(0,[4,6,8]),(1,[9])]

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