Created
January 19, 2012 06:11
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Number classification in Haskell
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data Classification = Perfect | Abundant | Deficient deriving (Eq, Show, Ord) | |
squareRoot :: Int -> Int | |
squareRoot = floor . sqrt . fromIntegral | |
isFactor :: Int -> Int -> Bool | |
isFactor a b = a `mod` b == 0 | |
factors :: Int -> [Int] | |
factors n = lowFactors ++ highFactors | |
where lowFactors = filter (isFactor n) [1..limit] | |
limit = squareRoot n | |
highFactors = map (n `div`) lowFactors | |
classify :: Int -> (Int, Classification) | |
classify n | |
| sumOfFactors == n' = (n, Perfect) | |
| sumOfFactors < n' = (n, Deficient) | |
| sumOfFactors > n' = (n, Abundant) | |
where n' = 2 * n | |
sumOfFactors = sum $ factors n | |
perfectNumbers = filter (\(n, c) -> c == Perfect) $ map classify [1..] |
Do you have a link to the talk? I'd be interested.
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It was originally just returning the classification, but I wanted the number too....didn't think too hard about it. It's not for anything, I was just watching a talk where he was discussing this algorithm.