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?