# How do I obtain a single array from all possible combinations of the elements of two vectors?

I have two vectors:

`````` x = [1 2 3]; y = [4 5]
``````

I need a single array yx that gives me one-to-one combinations of the elements of both vectors. This is the code I have tried so far using of the examples from Stackoverflow.

``````sets  = {y, x};
[y x] = ndgrid(sets{:});
yx    = [y x]'
``````

This gives me the result:

``````yx =

4     5
4     5
4     5
1     1
2     2
3     3
``````

Whereas, I am expecting the following result:

``````yx =

4     1
4     2
4     3
5     1
5     2
5     3
``````

Please, what am I doing wrong here? Any help/suggestions is greatly appreciated. Thanks!

What you're trying to obtain is a cartesian product of the two vector. Here's a solution:

``````>> x = [1 2 3]; y = [4 5];

>> [X,Y] = meshgrid(y,x);

>> result = [X(:) Y(:)]
result =

4   1
4   2
4   3
5   1
5   2
5   3
``````

(this works also in Octave and does not require extra libraries)

• Thank you so much everyone. It all did work and i really do appreciate. – oma11 Jan 31 '17 at 9:04

Your final `cat` is wrong. You expect that `x` and `y` are column vectors but they are 2x3-matrices. To get a 2-column matrix of all pairs, you need to linearize first:

``````yx    = [y(:) x(:)]
``````

It outputs the data in a different order. If you want the same order, transpose `x` and `y` before vectorizing and concatenating.

• Did you try this ? – P0W Jan 31 '17 at 8:20
• Actually this is working, but outputs the data in a different order. I've edited my answer. – Bentoy13 Jan 31 '17 at 10:35

you are looking for `combvec(x, y)`

``````>> x = [1 2 3]
x =
1     2     3
>> y = [4 5]
y =
4     5
>> combvec(x, y)
ans =
1     2     3     1     2     3
4     4     4     5     5     5
``````
• This needs "Neural Network Toolbox" – P0W Jan 31 '17 at 8:25

Here is a way to do it with no complicated functions.

``````x = [1 2 3];
y = [4 5];
nx = numel(x);
ny = numel(y);

xy = [reshape(repmat(y,nx,1), 1, [])', repmat(x',ny,1)];

% xy =  [4     1
%        4     2
%        4     3
%        5     1
%        5     2
%        5     3
``````

Explanation:

• We know that the output will have `x` repeated for each element in `y`, named `ny`.
• We know that the output will have each element of `y` repeated for each element in `x`, `nx`
• `repmat` repeats `x` simply for the second column.
• `repmat` used with `reshape` to "interweave" `y` with its repeated self to get the repeated digits in the `y` vector as the first column.

You could condense the code by not using `nx` and `ny`.

``````xy = [reshape(repmat(y,numel(x),1), 1, [])', repmat(x',numel(y),1)];
``````