Let's say I have an array of length
M different object (
M < N) so that some of these objects repeat
N_i ... N_M times. I'd like to find all possible unique dispositions (like, arrangements) of the elements of such arrays without computing the entire list of permutations beforehand (both for time and memory constraints).
Of course, the naive solution would be to use
perms to generate all possible permutations, and then select the unique ones:
A = [1, 1, 2]; all_perms = perms(A) % all_perms = % 2 1 1 % 2 1 1 % 1 2 1 % 1 1 2 % 1 2 1 % 1 1 2 unique_perms = unique(all_perms, 'rows') % unique_perms = % 1 1 2 % 1 2 1 % 2 1 1
but this will generate all
N! permutations, instead of just the
N! / (N_1! * N_2! * ... * N_M!). For
N = 3, this doesn't affect much neither the memory consumption nor the timing, but as
N increases and the number of unique elements decreases, the difference can be huge. So:
Is there a (hopefully built-in) way to list all the unique permutations of an array containing non distinct objects, without intermediately keeping all permutations?