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I'm currently working on a program which computes amicable pairs (Project Euler Problem 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



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

share|improve this question
is this amicable-relation symmetric? If yes, Fuzzxxl's solution is fine. If not ... then I would doubt that its sensible to avoid those calculations. – phynfo May 31 '11 at 12:00
@phynfo: amicable means that two numbers have the special relationship that the sum of their divisors equals the other number. So it is indeed symmetric. There are only 1427 amicable numbers below 10000000000, so it is not worth the effort to avoid calculations for such a small fraction. A good optimization would be to check, if the number is deficient, whether the sum is already included in the list. That would safe some time, as one could avoid the second sum in about 50% of the numbers. – FUZxxl May 31 '11 at 12:21
up vote 5 down vote accepted

Your problem is, that you try to safe work by outputting both amicable numbers. But actually, you don't safe very much, because your function still calculates for both numbers, whether they are amicable. Why not do it like this:

import Data.List

divSum :: (Integral a) => a -> [a]
divSum n = sum (filter (\a -> a `mod` n == 0) [1..n `div` 2])

isAmicable :: (Integral a) => a -> Bool
isAmicable a = a /= b && a == c where
  b = divSum a
  c = divSum b

amicables = filter isAmicable [1..]
share|improve this answer
Well done, makes me look like I overcomplicate things. :P – Mr Axilus May 31 '11 at 12:01
There is the famous quote from Don Knuth: »Premature optmization is the root of all evil.« Usually, the best way is to code in a straightforward way and profile afterwards. If the results are not satisfying, try to opitmize the code. – FUZxxl May 31 '11 at 12:05
the best way is to code in a straightforward way and profile afterwards if you need to. If you got your answer, who cares how long it took in the past? :-) – luqui May 31 '11 at 22:57

Perhaps a slight modification in getAmicablePair helps?

getAmicablePair :: (Integral a) => a -> [a]
getAmicablePair a = case amicablePairOf a of
            Just b -> if a < b then [a,b] else []
            Nothing -> []

... so you just get pairs with a smaller first element

share|improve this answer
Good solution, however the problem is that the program would still evaluate the pair twice, it just will not show it the second time. I know how to remove duplicates using the 'nub' function from Data.List, however I want to improve efficiency by only evaluating a pair once. – Mr Axilus May 31 '11 at 11:40
@Axilus - youre right ... but then you can't use map, since map cannot refer to earlier calcs. – phynfo May 31 '11 at 11:44
@Axilus: I doubt that you would improve the efficiency by calculating them only once. First, you have to do a lookup in the list of all amicable numbers already generated, so your function doesn't runs in constant space anymore (assuming, that you consume the results instantly). Additionally, only a tiny fraction of all numbers are amicable, so you don't win anything either. – FUZxxl May 31 '11 at 11:47

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