I am wondering why the following call of groupBy does not work: My predicate is x < y, so I expect [1, 6] to be a group, but instead, Haskell put [1, 6, 4, 2] into a group.

Prelude Data.List> groupBy (\x y -> x < y) [8,5,3,2,1,6,4,2]

More strangely, when I change the last number to -2, I expect the same behavior as in the above example. That is, since both 2 and -2 are less than 4, I expect that in the result [1, 6, 4, -2] would make up a group. But instead, This time, Haskell put -2 to be a group.

Prelude Data.List> groupBy (\x y -> x < y) [8,5,3,2,1,6,4,-2]

Do I have a wrong understanding of groupBy?

  • 4
    groupBy is intended to be used with an equivalence relation, specifically, in groupBy p you should have p x y ≡ p y x. But, I'm surprised that this is actually a requirement... Jul 31 at 10:12
  • 1
    I mean, it's not a requirement. You can pass whatever function you want to groupBy. But you may get a surprising set of groups back if you use a surprising equality predicate.
    – amalloy
    Jul 31 at 10:14
  • @leftaroundabout @amalloy Thanks. I did not know groupBy "requires" an equality relation. Still, it would be interesting to know why -2 is handled differently than 2
    – gefei
    Jul 31 at 10:17
  • 1
    x is always the first item of the group that is constructed. Jul 31 at 10:18
  • Related: stackoverflow.com/questions/58983130/…
    – chi
    Jul 31 at 15:56

In the implementation of the groupBy, x is always the first item of the sublist. Indeed, groupBy is implemented as:

groupBy                 :: (a -> a -> Bool) -> [a] -> [[a]]
groupBy _  []           =  []
groupBy eq (x:xs)       =  (x:ys) : groupBy eq zs
                           where (ys,zs) = span (eq x) xs

especially the span (eq x) is important here, since x will be the first item of a new group.

Since x is thus not the previous value in the list. If we thus run groupBy with the list [5, 3, 2, 1, 6, 4, -2], we get:

list current list x=? check with outcome
[5,3,2,1,6,4,-2] [8] 8 / /
[5,3,2,1,6,4,-2] [8] 8 5 False
[3,2,1,6,4,-2] [5] 5 / /
[3,2,1,6,4,-2] [5] 5 3 False
[3,2,1,6,4,-2] [3] 3 / /
[2,1,6,4,-2] [3] 3 2 False
[2,1,6,4,-2] [2] 2 1 False
[1,6,4,-2] [2] 2 / /
[1,6,4,-2] [2] 2 1 False
[6,4,-2] [1] 1 / /
[4,-2] [1,6] 1 6 True
[-2] [1,6,4] 1 4 True
[] [-2] -2 / /

Especially the case where we compare x=1 and y=4 is important. If x was only the previous value, we should start generating a new list, but since x is the first item of the list, that is not the case.

Normally you should only work with an equivalence relation ~ [wiki], such relation is:

  1. reflexive: so x ~ x is true;
  2. symmetric: so x ~ y if and only if y ~ x; and
  3. transitive: so x ~ y and y ~ z implies that x ~ z.

Your equivalence relation is not reflexive, nor is it symmetric. This is thus not a valid function to work with groupBy.

  • this answer would be greatly upgraded, if you said what function the OP was thinking of, the one that compares neighbouring values to put group border or not Jul 31 at 20:47

The conceptual definition of groupBy p l is that it yields sublists of l such that for each xs in l, you have

all (==True) [p x y | x<-xs, y<-xs]

IOW, each sublist should be part of an equivalence class of p. That notion only makes sense if p is an equivalence relation. In particular, you need p x y ≡ p y x, and the defining equation also assumes that p x x is always true.

The implementation in the standard libraries shows that idea quite clearly: each x:ys list in the result has ys defined by the span of elements that are equivalent to x by the relation. So in your case, you get 1:[6,4,2], where 6,4,2 are all greater than 1.

Evidently, groupBy doesn't actually check p x y for all pairs of elements in the result lists, so this really only makes sense if p is indeed an equivalence relation.

What you expected the idea to be – and IMO this is not unreasonable – is that only for all x,y such that x is the left neighbour of y, you want p x y to hold. This is in general a weaker condition, but if p is an equivalence relation then it actually implies the original condition, because such a relation also is transitive. So maybe the implementation should actually be

groupBy' :: (a -> a -> Bool) -> [a] -> [[a]]
groupBy' _ [] = []
groupBy' _ (x:l) = (x:xs) : zss
 where (xs,zss) = case l of
        [] -> ([],[])
         -> let ys:zss' = groupBy' p zs
            in if p x y then (ys, zss')
                        else ([], ys:zss')

(This could be simplified a bit, but then it wouldn't be as lazy as the old implementation.)

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