I'm having a "computational problem" that I need to simplify. Similar topics seem to be discussed (e.g. this post), but I'm having problems finding a good example/solution/algorithm.

What I want is to generate an algorithm that finds unique permutations of the elements in a vector and that does not generate permutations if a certain condition is met, thus certainly decreasing the number of permutations and computations needed.

Let's start with a simple example without condition/exception:

It's no problem finding algorithms that can generate unique permutations (see e.g. John D'Errico's MATLAB code). Assume we have the following binary vector:

 x = [1,1,0,0]

There are six unique permutations of the vector, including the vector itself:

y1 = [1,1,0,0]
y2 = [1,0,1,0]
y3 = [1,0,0,1]
y4 = [0,1,1,0]
y5 = [0,1,0,1]
y6 = [0,0,1,1]

Based on condition:

What I actually want is to filter all permutations that meet a certain condition: Example of two conditions:

  • don't generate the permutations where the values are 1 and 0 in column 3 and 4 respectively.
  • don't generate the permutations where the values are 1 and 1 in column 1 and 2 respectively.

In this case, the only generated permutations should be:

y3 = [1,0,0,1]
y5 = [0,1,0,1]
y6 = [0,0,1,1]

It is fairly easy to generate all permutations and than just filter all rows where the conditions are not met; however, I can't figure out how to generate an algorithm that from the beginning does exclude permutations of the conditions...

  • Why don't you want to generate the permutations and then filter them? – mikkola Oct 12 '17 at 5:35
  • @mikkola because of the growing length of my vector x - at some point it will generate an immense number of combinations, where multiple are of no use. – Jonas Oct 12 '17 at 5:37
  • 1
    This answer by Roger Stafford shows a very efficient way to get all possible permutations. Even for lengths > 10. Perhaps this helps as an intermediate step to filter them afterwards. Additionally you coud save it as unit8 to save memory. n = size(x,2); k = sum(x==1); C = nchoosek(1:n,k); m = size(C,1); B = zeros(m,n); B(repmat((1-m:0)',1,k)+m*C) = 1 – Irreducible Oct 12 '17 at 6:03
  • @Irreducible thanks! It's definitely a start :) – Jonas Oct 12 '17 at 8:14

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