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I'm have been working on solving Project Euler #14 for a while now in Haskell, but for some reason, I'm unable to get it working. I solved the problem using Groovy a while ago, and I think I'm using basically the same method here. However, the program runs incredibly slow even just finding the first 10,000 lengths, and I'm really lost now as to why. I think I'm using memoization right, but I'm running out of memory even with smallish data sets in GHCI.

Here's what I've come up with so far.

collatz = (map collatz' [0..] !!)
    where collatz' n
        | n == 1 = 1
        | n `mod` 2 == 0 = 1 + collatz (n `div` 2)
        | otherwise = 1 +  collatz (3 * n + 1)

I'd be running map collatz [1..1000000] to get the answer to the problem, but map collatz [1..10000] gives me an out of memory error, and also takes a good few seconds to finish running.

If anyone could give me some insights as to what the problem with this program is, that would be great! I've tried a lot of things and I'm just stuck and need a hand.

Thanks!

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Have you tried running it compiled? –  dbaupp Aug 7 '12 at 16:03
    
I just did. I didn't get an out of memory error with the set 1..10000, but it still took the same amount of time. I did get an out of memory error with the data set 1..100000, and it was also really slow. –  Benjamin Kovach Aug 7 '12 at 16:07
2  
Using a list for memoization is not a good option for this problem. There is a lot of indexing involved and each takes O(n) time. –  is7s Aug 7 '12 at 16:14
1  
You could try one of existing memoization libraries, such as MemoTrie. And many ideas can by found at Memoization page at the Haskell wiki. –  Petr Pudlák Aug 7 '12 at 16:25
2  
Also data-memocombinators are very simple to use, your collatz becomes collatz = integral collatz' where {- ... -}. I get results for map collatz [1..10000] practically instantly. –  Vitus Aug 7 '12 at 16:31

1 Answer 1

up vote 6 down vote accepted

Memoization is working just fine here. In fact, it's working so well that it fills up all your memory. The intermediate terms of the Collatz sequence are getting quite large. The largest term that occurs in any sequence starting with 1 up to 1000000 is the number 2974984576. So this is the length of the list you are trying to build in memory.

On the other hand, just directly implementing the Collatz function without memoization should work fine for this problem.

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Also memoizing the numbers up to some limit might be viable approach. –  Vitus Aug 7 '12 at 16:34
    
That makes a lot of sense actually. Thank you! I guess in Groovy I was using a Map for memoization instead of a list. The implementation I'm using is still slow without the use of memoization though, so I'll have to figure another way to speed it up still, haha. –  Benjamin Kovach Aug 7 '12 at 16:35
    
I did some tests with ghc -O2 and it turns out that version without memoization is indeed the fastest. Memoizing first 200000 - 6.09 sec; no memoization at all - 5.80 sec; also using a worker-wrapper with a strict accumulator results in a runtime of 5.41 sec (note that I used rem instead of mod in all tests). Tested with maximum . map collatz $ [1..1000000]. –  Vitus Aug 7 '12 at 16:56
    
@Vitus You're using Integer I suppose? If you use Int or Word as far as the type takes you (with a 64-bit GHC as far as you need, with 32 bits, you'll need to step into Integer a couple of times), you can speed it up by a factor of something like 10. A good memoisation then gives another factor of about 6. –  Daniel Fischer Aug 7 '12 at 22:23
    
@DanielFischer: Yes, since there's no 64bit GHC for Windows (at least as far as I know), I just slapped Integer on it and didn't bother with anything more sophisticated. Looks like I should've taken that into account, thanks! –  Vitus Aug 8 '12 at 0:57

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