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I have a working program to compute the longest collatz chain in a given range (project euler n°14). I think it works correctly, but is very slow. I tried to look for a better solution, but I can only reduce slightly the evaluated domain. Am I doing something wrong?

The implementation use memoization to avoid computing the same result twice. Is Data.Map bad for general performances?

import Data.Map ((!), member, insert, singleton, assocs, Map)

insertSolution::Integer->(Map Integer Integer)->(Map Integer Integer)
insertSolution n syracMap
    | n `member` syracMap = syracMap
    |otherwise = let
        next = if n `mod` 2 == 0 then n `div` 2 else 3 * n + 1
        newMap = insertSolution next syracMap
        solution = newMap ! next + 1
        in insert n solution newMap

bound = 1::Integer
lower = 999999::Integer

test = [lower,lower+2..bound]

values = takeWhile (\(k, v) -> k < bound) $ assocs $ foldr insertSolution (singleton 1 1) test

result = foldr (\(k, v) (k', v') -> if v > v' then (k, v) else (k', v')) (1, 1) values

main = putStr $ show $ result


updated function to remove bug. It is still pretty slow on my laptop.

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One issue I can see is that you are calling insertSolution (in your variable newMap) recursivly, but on the old map instead of the updated map. This allows no sharing. I don't know, whether this is intentional or not. –  FUZxxl Jul 4 '11 at 23:19
No it's not. I will test the new version. Thanks for the remark. –  Simon Jul 4 '11 at 23:33
I recently started using data-memocombinators for my Project Euler attempts. You may want to give that a try... –  MatrixFrog Jul 6 '11 at 5:38

1 Answer 1

up vote 2 down vote accepted

FWIW, here's my solution:

module Main

import Data.List
import Data.Ord

next_hailstone n | even n = n `div` 2
                 | otherwise = 3*n+1

gen_next_hailstone n
    = if nh == 1
      then Nothing
      else Just (nh, nh)
          where nh = next_hailstone n

hailstone n = unfoldr gen_next_hailstone n

hailstone_seqs = map hailstone [1..1000000]

zip_hailstone = zip [1..1000000] hailstone_seqs

max_hailstone = maximumBy (comparing (length . snd)) zip_hailstone

main = print . fst $ max_hailstone

It's relatively fast. If you want more speed, consult the Haskell wiki (SPOILER ALERT!!!).

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If I read correctly, it is the brut force method. In your link, some version have memoization with Arrays or list. Is there any reason to not use memoization via a Map? –  Simon Jul 5 '11 at 10:12
Why would you want to use Map? Array is O(1) access, Map is O(log n), and you don't care about array update. –  Mikhail Glushenkov Jul 5 '11 at 13:22
Thank you for your advice. But I care about array update, since I store all the results inside. Could you be more specific about this point? The way I see things, the results are not continuous (index is not in the form [0..n]), so I can't use an array. I will test your link. –  Simon Jul 19 '11 at 19:01
The Array solution from the Haskell Wiki generates the whole array in one step using listArray and never updates it - that's what I meant with "you don't care about array update". –  Mikhail Glushenkov Jul 22 '11 at 21:50

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