I was looking for an elegant way to write this code :

import Data.List
import Data.Maybe

combi = [(x,y) | x <- [2..100], y <- [x..100]]

gsp = group (sort [x*y | (x,y) <- combi])
counts = zip (map head gsp) (map length gsp)

multipleProducts x = (fromJust (lookup x counts)) > 1
possibleComb1 = [(x,y) | (x,y) <- combi, multipleProducts (x*y)]

As I am reusing the same pattern multiple times but based on different input sets than [x*y | (x,y) <- combi], I came out with this code.

import Data.List
import Data.Maybe

combi = [(x,y) | x <- [2..100], y <- [x..100]]

onlyOneEl e x = (fromJust (lookup x counts)) == 1
    where gs = group (sort e)
          counts = zip (map head gs) (map length gs)

multipleProducts = not.(onlyOneEl [x*y | (x,y) <- combi])
possibleComb1 = [(x,y) | (x,y) <- combi, multipleProducts (x*y)]

However, Haskell seems to compute gs and count for every single time I call multipleProducts, taking a very big amount of time, instead of computing it only once, since the value of e is always the same with multipleProducts.

What is the most elegant way of avoiding the recalculation ? Is there anything better than pre-calculating counts using one function and storing it in a local variable, and then passing it to onlyOneEl without the where ?

Because I'm later reusing onlyOneEl based on different sets, and I wanted to avoid having multiple counts variables.

I understood here why it did not evaluate it once per function, however, I do not use x as my last argument, and thus cannot do it exactly this way.

Thanks in advance !

  • 3
    I'd tend to write it as onlyOneEl e = \ x -> ... where ... and see if that helped. – Louis Wasserman Mar 29 '16 at 20:03
  • Are you compiling with optimizations enabled? – dfeuer Mar 29 '16 at 20:30
  • @LouisWasserman That looks indeed like the solution, but as I'm not an expert in Haskell, could you detail more ? :) Having optimizations enabled doesn't change anything – Ten Mar 29 '16 at 20:33
  • From an elegance standpoint, Data.List.group is kind of a disgusting function. I would recommend using Data.List.NonEmpty.group instead, since it prevents you from having to use a partial function (Prelude.head) to inspect the result. Data.List.NonEmpty.head, in contrast, is perfectly safe. – dfeuer Mar 29 '16 at 20:33
  • Also, fromJust shouldn't be used in real code. – dfeuer Mar 29 '16 at 21:03

The definition

onlyOneEl e x = fromJust (lookup x counts) == 1
    where gs = group (sort e)
          counts = zip (map head gs) (map length gs)

says "given e and x, set up the computations of gs and counts and use their (lazily calculated) results to calculate the expression fromJust (lookup x counts) == 1. You could write it completely equivalently as

onlyOneEl e x =
  let gs = ...
      counts = ...
  in fromJust ...

On the other hand, if you move the x over to the other side with a lambda expression,

onlyOneEl e = \x -> fromJust ...
  where ...

then you pull gs and counts into an outer scope. This code is equivalent to

onlyOneEl e =
  let gs = ...
      counts = ...
  in \x -> fromJust ...

So gs and counts will only be calculated once per application of onlyOneEl to a single argument.

GHC supports a transformation called "full laziness" that does this kind of modification, which it applies when it thinks it will be a good idea. Apparently, GHC made the wrong judgement in this case.


You can rewrite it with little more goal oriented. Without getting into math, just with generation of data and filtering you can achieve the same with much less computation.

When you generate the product, add the multipliers to the tuple as well, i.e.

combi n = [((x,y),x*y) | x<-[2..n], y<-[x..n]]

now you can sort and group based on product

multi = filter ((>1) . length) . groupBy ((==) `on` snd) . sortBy (comparing snd) . combi

and extract the first element of the tuple, which will be the (x,y) pair to give same product more than once.

map (map fst) (multi 100)

if you don't care about the grouping, you can flatten the result, i.e.

concatMap (map fst) (multi 100)

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