I'm currently working on a program which computes amicable pairs (Project Euler 21). I've already found the solution, however I noticed that a flaw in my program was that it evaluates all of the numbers of the set [1..] whether or not we have already found the number to be a pair.

i.e. If currently evaluating 220 and 284 is found to be it's pair, however continuing on through when the map function gets to 284 it shouldn't evaluate it again.

```
import Data.List
properDivisors :: (Integral a) => a -> [a]
properDivisors n = [x | x <- [1..n `div` 2],
n `mod` x == 0 ]
amicablePairOf :: (Integral a) => a -> Maybe a
amicablePairOf a
| a == b = Nothing
| a == dOf b = Just b
| otherwise = Nothing
where dOf x = sum (properDivisors x)
b = dOf a
getAmicablePair :: (Integral a) => a -> [a]
getAmicablePair a = case amicablePairOf a of
Just b -> [a,b]
Nothing -> []
amicables = foldr (++) [] ams
where ams = map getAmicablePair [1..]
```

As an example:

```
take 4 amicables
```

returns:

```
[220,284,284,220]
```

I'm fairly new to Haskell and functional programming so forgive me if it an obvious solution.