I would like to generate a rather large but finite Cartesian product in Haskell, which I need to then iterate on (think partition function of a mean-field model). The natural thing to do uses sequence, like this:

l = sequence $ replicate n [0,1,2]

Unfortunately, for large n, this does not fit in memory and I run out of heap as soon as I ask for length l for instance. I would need a way to do the same thing lazily. I ended up "rediscovering" base-3 arithmetics, like this,

nextConfig []     = []
nextConfig (0:xs) = 1:xs
nextConfig (1:xs) = 2:xs
nextConfig (2:xs) = 0:(nextConfig xs)

ll = take (3^n) $ iterate nextConfig $ replicate n 0

(which works) but it feels like reinventing the wheel, and besides it is much too specific. What would be a better lazy way to generate the product?

  • Do you care about the order of the elements in the result? – augustss Apr 12 '12 at 11:52
  • No, as long as there is no repetition. – Vincent Beffara Apr 12 '12 at 11:56
  • How large do you need n to be? – dave4420 Apr 12 '12 at 12:22
  • Something like 20 or 30; I don't really care about computation time for now, but certainly 3^n is beyond RAM size. – Vincent Beffara Apr 12 '12 at 12:54

The more memory-friendly way is obtained by binding in reverse order compared to sequence,

foo 0 _ = [[]]
foo k xs = [h:t | t <- foo (k-1) xs, h <- xs]

It is slower due to less sharing, but since memory is your problem, maybe it's good enough for you.

  • Cool! I will have to investigate more why it works, but it certainly does. I modified it as foo (l:ls) = [h:t | t <- foo2 ls, h <- l] (who knows if I will always need a cube) and it works as well. Thanks! – Vincent Beffara Apr 12 '12 at 13:00
  • Why are list comprehensions more efficient than do-notation for lists (which is used in sequence)? I can see from the Haskell2010 report both of them desugar to concatMap? – haskelline Apr 12 '12 at 13:37
  • 2
    @brence: See Duncan Coutts's answer to this reddit question: Why are guards in the list comprehension faster than in the do-notation? – danr Apr 12 '12 at 14:25
  • From there, it appears that list comprehension is desugared into foldr. The weird thing is that a naive foldr approach to cartesian products (at least the one I tried) breaks laziness like sequence does ... – Vincent Beffara Apr 12 '12 at 18:07

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