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 !

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

and see if that helped. – Louis Wasserman Mar 29 '16 at 20:03`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`fromJust`

shouldn't be used in real code. – dfeuer Mar 29 '16 at 21:03