itertools product speed up

I use itertools.product to generate all possible variations of 4 elements of length 13. The 4 and 13 can be arbitrary, but as it is, I get 4^13 results, which is a lot. I need the result as a Numpy array and currently do the following:

  c = it.product([1,-1,np.complex(0,1), np.complex(0,-1)], repeat=length)
  sendbuf = np.array(list(c))

With some simple profiling code shoved in between, it looks like the first line is pretty much instantaneous, whereas the conversion to a list and then Numpy array takes about 3 hours. Is there a way to make this quicker? It's probably something really obvious that I am overlooking.

Thanks!

Solution 1:

The NumPy equivalent of itertools.product() is numpy.indices(), but it will only get you the product of ranges of the form 0,...,k-1:

numpy.rollaxis(numpy.indices((2, 3, 3)), 0, 4)
array([[[[0, 0, 0],
         [0, 0, 1],
         [0, 0, 2]],

        [[0, 1, 0],
         [0, 1, 1],
         [0, 1, 2]],

        [[0, 2, 0],
         [0, 2, 1],
         [0, 2, 2]]],


       [[[1, 0, 0],
         [1, 0, 1],
         [1, 0, 2]],

        [[1, 1, 0],
         [1, 1, 1],
         [1, 1, 2]],

        [[1, 2, 0],
         [1, 2, 1],
         [1, 2, 2]]]])

For your special case, you can use

a = numpy.indices((4,)*13)
b = 1j ** numpy.rollaxis(a, 0, 14)

(This won't run on a 32 bit system, because the array is to large. Extrapolating from the size I can test, it should run in less than a minute though.)

EIDT: Just to mention it: the call to numpy.rollaxis() is more or less cosmetical, to get the same output as itertools.product(). If you don't care about the order of the indices, you can just omit it (but it is cheap anyway as long as you don't have any follow-up operations that would transform your array into a contiguous array.)

EDIT2: To get the exact analogue of

numpy.array(list(itertools.product(some_list, repeat=some_length)))

you can use

numpy.array(some_list)[numpy.rollaxis(
    numpy.indices((len(some_list),) * some_length), 0, some_length + 1)
    .reshape(-1, some_length)]

This got completely unreadable -- just tell me whether I should explain it any further :)

Solution 2:

The first line seems instantaneous because no actual operation is taking place. A generator object is just constructed and only when you iterate through it as the operating taking place. As you said, you get 4^13 = 67108864 numbers, all these are computed and made available during your list call. I see that np.array takes only list or a tuple, so you could try creating a tuple out of your iterator and pass it to np.array to see if there is any performance difference and it does not affect the overall performance of your program. This can be determined only by trying for your usecase though there are some points which say tuple is slightly faster.

To try with a tuple, instead of list just do

sendbuf = np.array(tuple(c))