# Finding all possible unique arrays within a matrix

When given a square matrix, what would be the best way to find all of the possible arrays within it without using more than one element from any row/column in each array?

For example, in a matrix like so:

``````0 2 3
1 2 3
1 2 0
``````

It would then go through it like this:

And then it would output the following list of arrays:

``````123
123
023
123
120
020
``````
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You can directly map each such array to a permutation of the digits (0 .. size-1). To show you how this works, the permutation `(2,1,0)` maps to the 3 coordinates `(2,0), (1,1), (0,2)`. The 6 examples you gave are

``````(2,1,0)  (1,2,0)  (0,2,1)

(2,0,1)  (1,0,2)  (0,1,2)
``````

To explain the mapping, lets take the first permutation `(2,1,0) --> (2,0), (1,1), (0,2)`. Then, the values you want to use are `array[2][0], array[1][1], array[0][2]`

So now the question is how to generate each permutation. There are a few algorithms, one of which is implemented in java here: http://www.merriampark.com/perm.htm

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