# For loop inside another for loop to make new set of vectors

I would like to use a for loop within a `for` loop (I think) to produce a number of vectors which I can use separately to use `polyfit` with.

I have a 768x768 matrix and I have split this into 768 separate cell vectors. However I want to split each 1x768 matrix into sections of 16 points - i.e. 48 new vectors which are 16 values in length. I want then to do some curve fitting with this information.

I want to name each of the 48 vectors something different however I want to do this for each of the 768 columns. I can easily do this for either separately but I was hoping that there was a way to combine them. I tried to do this as a for statement within a for statement however it doesn't work, I wondered if anyone could give me some hints on how to produce what I want. I have attached the code.

`Qne` is my 768*768 matrix with all the points.

``````N1=768;
x=cell(N,1);

for ii=1:N1;
x{ii}=Qnew(1:N1,ii);
end

for iii = 1:768;
x2{iii}=x{iii};
for iv = 1:39
N2=20;
x3{iii}=x2{iii}(1,(1+N2*iv:N2+N2*iv));
%Gx{iv}=(x3{iv});
end
end
``````
-
Is your code Matlab/Octave code? If so, then consider tagging your question matlab. –  thb May 29 '12 at 11:58
Thank you very much. It's MATLAB. Thanks for the advice. This is the first time I've used this website. :) –  user1423578 May 29 '12 at 12:10
What is exactly the problem? btw I notice one error - in the line `xr{iii}=...` you should check that the index is in the range (it should be maximal 768?) –  bdecaf May 29 '12 at 12:29
??? Index exceeds matrix dimensions. Error in ==> heightmatrixworkingchange at 333 x3{iii}=x2{iii}(1,(1+N2*iv:N2+N2*iv)); The error I get is shown above. I wanted to know the best way to split each vector into small vectors within each of the 768 vectors. I want to know where each vector lies for future use. –  user1423578 May 29 '12 at 12:37

Use a normal 2D matrix for your inner split. Why? It's easy to reshape, and many of the fitting operations you'll likely use will operate on columns of a matrix already.

``````for ii=1:N1
x{ii} = reshape(Qnew(:, ii), 16, 48);
end
``````

Now `x{ii}` is a 2D matrix, size 16x48. If you want to address the jj'th split window separately, you can say `x{ii}(:, jj)`. But often you won't have to. If, for example, you want the mean of each window, you can just say `mean(x{ii})`, which will take the mean of each column, and give you a 48-element row vector back out.

Extra reference for the unasked question: If you ever want overlapping windows of a vector instead of abutting, see `buffer` in the signal processing toolbox.

Going one step further, a 3D matrix is probably the best representation for equal-sized vectors. Remembering that `reshape()` reads out columnwise, and fills the new matrix columnwise, this can be done with a single reshape:
``````x = reshape(Qnew, 16, 48, N1);
x is now a 16x48x768 3D array, and the jj'th window of the ii'th vector is now `x(:, jj, ii)`.