# Expand a matrix with polynomials

Say I have a matrix A with 3 columns `c1`, `c2` and `c3`.

``````1 2 9
3 0 7
3 1 4
``````

And I want a new matrix of dimension (3x3n) in which the first column is `c1`, the second column is `c1^2`, the n column is `c1^n`, the n+1 column is `c2`, the n+2 column is `c2^2` and so on. Is there a quickly way to do this in MATLAB?

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Combining PERMUTE, BSXFUN, and RESHAPE, you can do this quite easily such that it works for any size of `A`. I have separated the instructions for clarity, you can combine them into one line if you want.

``````n = 2;
A = [1 2 9; 3 0 7; 3 1 4];
[r,c] = size(A);

%# reshape A into a r-by-1-by-c array
A = permute(A,[1 3 2]);

%# create a r-by-n-by-c array with the powers
A = bsxfun(@power,A,1:n);

%# reshape such that we get a r-by-n*c array
A = reshape(A,r,[])

A =

1     1     2     4     9    81
3     9     0     0     7    49
3     9     1     1     4    16
``````
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I was just working on a general `bsxfun` solution when you posted this :-) I'll leave my answer as it stands as this is more elegant than what I'd come up with. +1. –  Colin T Bowers Oct 7 '12 at 3:12
It worked flawlessly. Thank you for your help. –  FabianG Oct 8 '12 at 2:57

Try the following (don't have access to Matlab right now), it should work

```    A = [1 2 9; 3 0 7; 3 1 4];
B = [];
for i=1:n
B = [B  A.^i];
end
B = [B(:,1:3:end)  B(:,2:3:end)  B(:,3:3:end)];
```

More memory efficient routine:

```    A = [1 2 9; 3 0 7; 3 1 4];
B = zeros(3,3*n);
for i=1:n
B(3*(i-1)+1:3*(i-1)+3,:) = A.^i;
end
B = [B(:,1:3:end)  B(:,2:3:end)  B(:,3:3:end)];
```

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`B` is growing inside the loop, which is very inefficient for large `n`. –  Colin T Bowers Oct 7 '12 at 3:10
Inefficiency can be avoided by defining B = zeros(3,3*n) and by changing the line inside the loop to B(3*(i-1)+1:3*(i-1)+3,:) = A.^i; –  Cyrgo Oct 7 '12 at 3:17
Agreed. But depending on level of experience, the OP may not realize this, so it would be best if you made it explicit in your answer. –  Colin T Bowers Oct 7 '12 at 3:25
Thanks for the comments –  Cyrgo Oct 7 '12 at 13:59

Here is one solution:

``````n = 4;
A = [1 2 9; 3 0 7; 3 1 4];
Soln = [repmat(A(:, 1), 1, n).^(repmat(1:n, 3, 1)), ...
repmat(A(:, 2), 1, n).^(repmat(1:n, 3, 1)), ...
repmat(A(:, 3), 1, n).^(repmat(1:n, 3, 1))];
``````
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