The function below should generate prime numbers however it does not for GHC 7.10.2. Is anybody else seeing this?

GHCi, version 7.10.2: http://www.haskell.org/ghc/  :? for help
Prelude> import Data.List
Prelude Data.List> print . take 100 . nubBy (\x y -> x `rem` y == 0) $ [2..]

The strange part is that it seems to work fine on this site:


  • 3
    nubBy requires an equivalence relation, I think. – chi Nov 4 '15 at 21:07
  • 2
    That's what the docs say and the function passed here is not, which would result in undefined behavior. In practice, it could e.g. have been rewritten in such a way that the arguments are applied in the opposite order (safe for equivalence functions, not for arbitrary functions like this) – that other guy Nov 4 '15 at 21:09
  • It works here just fine: rextester.com/LWZCQ71376 – Vanson Samuel Nov 4 '15 at 21:11
  • 2
    It works in ghc 7.6.3. Maybe nubBy was modified and "optimized" to rely on equivalence relation properties? – Bakuriu Nov 4 '15 at 21:47

What changed between base-4.7.x and base- is the definition of elem_by which is what nubBy is defined in terms of.

In base-4.7 elem_by has this clause:

elem_by eq y (x:xs)     =  y `eq` x || elem_by eq y xs

and in base-4.8 it was changed to:

elem_by eq y (x:xs)     =  x `eq` y || elem_by eq y xs

The history of this change is documented in these TRAC issues:

Note that the Haskell Report Prelude version of nubBy is:

nubBy eq (x:xs)         =  x : nubBy eq (filter (\ y -> not (eq x y)) xs)

which was at odds with the base-4.7 implementation, so that also explains the change.

  • The eq function should be commutative, it does seem possible that this change could be the cause of my issue. – Vanson Samuel Nov 4 '15 at 22:32
  • 4
    No!! Your eq function is NOT commutative! rem 4 2 /= rem 2 4. One will be equal to zero while the other will be two. – Thomas M. DuBuisson Nov 5 '15 at 0:16
  • 5
    I think a better term to use is symmetric. – ErikR Nov 5 '15 at 1:17
  • @ThomasM.DuBuisson I am talking about the change in elem_by. This change should not be a problem for me because if x `eq` y, then y `eq` x for all Int. So this change in elem_by would not be the cause of my issue. – Vanson Samuel Nov 5 '15 at 1:20
  • 4
    @VansonSamuel Are we talking past each other? In your use, eq = (\x y -> x `rem` y == 0). The change in elem_by means for your use to not have an issue the property (x `rem` y == 0) == (y `rem` x == 0) must hold. I await your proof that such a property holds ;-). – Thomas M. DuBuisson Nov 5 '15 at 2:45

The order of the arguments have been flipped, it seems, in the new base. EDIT: I called this a bug, but as another answer points out the old behavior was the incorrect order.

You can see the order has been flipped by observing:

> print . take 5 . nubBy (\x y -> trace (show (x,y)) $ x `rem` y == 0) $ [2..]

Certainly rem 2 4 does not equal zero (it equals 2), so it yields 4.

Notice you get the result you desire when you flip the argument order in the lambda:

> print . take 5 . nubBy (\x y -> trace (show (x,y)) $ y `rem` x == 0) $ [2..]

EDIT: Since discussion indicates the relation is supposed to be equality and operate regardless of the order (and I'm too lazy to look at the report right now) notice you can compare the arguments first and get stable behavior either way:

print . take 100 . nubBy (\x y -> rem (max x y) (min x y) == 0) $ [2..]
  • You'd call this a bug in GHC base? – Vanson Samuel Nov 5 '15 at 0:21
  • Certainly. First, define "bug" as behavior contrary to the Haskell Language specification. Second, notice this behavior was contrary. Third, shout "bug". – Thomas M. DuBuisson Nov 5 '15 at 0:55
  • 2
    (\x y -> rem (max x y) (min x y) == 0) might be symmetric, but it is still not an equivalency relation. – Joachim Breitner Nov 5 '15 at 11:55
  • Yes, I was careful to merely call the behavior "stable". – Thomas M. DuBuisson Nov 5 '15 at 15:48

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