# Matrix of unknown length in MATLAB?

I'm trying to set up a zero matrix of variable length with two columns into which I can output the results of a while loop (with the intention of using it to store the step data from Euler's method with adjusted time-steps). The length will be determined by the number of iterations of the loop.

I'm wondering if there's a way I can do this while I'm running the loop or whether I need to set it up to begin with, and how to go about doing that.

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Also, if this is for a class assignment and you need to show the iterations; you can use sprintf within your Euler implementation. –  ccook Oct 10 '09 at 14:55
Another related question: Appending a vector to an empty MATLAB matrix –  Amro Aug 1 '12 at 17:31

if the number of columns is fixed you can always add rows to your matrix (inside the loop)

e.g.

``````while (....)
.....
new_row =[x y] ; % new row with values x & y
mat = [mat ; new_row];
``````

of course if you know the number of iterations before the while loop it's more efficient to pre-allocate the matrix

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Thank you very much! This makes sense to me. You think for a programming unit they'd teach us some of it but instead they throw us to the wolves. Thanks for saving me :) –  Flick Oct 10 '09 at 14:50
Using alternate syntax for the last line of the code above makes it more explicit that you're extending the matrix: `mat(end+1,:) = new_row;` –  nhowe Apr 18 '13 at 2:33

Another approach that has performance in mind while still trying to be space-efficient, is to preallocate memory in large batches, adding more batches as needed. This is well suited if you have to add a large number of items without knowing how many beforehand.

``````BLOCK_SIZE = 2000;                          % initial capacity (& increment size)
listSize = BLOCK_SIZE;                      % current list capacity
list = zeros(listSize, 2);                  % actual list
listPtr = 1;                                % pointer to last free position

while rand<1-1e-5                           % (around 1e5 iterations on avrg)
% push items on list
list(listPtr,:) = [rand rand];            % store new item
listPtr = listPtr + 1;                    % increment position pointer

% add new block of memory if needed
if( listPtr+(BLOCK_SIZE/10) > listSize )  % less than 10%*BLOCK_SIZE free slots
listSize = listSize + BLOCK_SIZE;       % add new BLOCK_SIZE slots
list(listPtr+1:listSize,:) = 0;
end
end
list(listPtr:end,:) = [];                   % remove unused slots
``````

EDIT: As a time comparison, consider the following cases:

1. The same code as above done for 50000 iterations.
2. Preallocating the entire matrix beforehand: `list = zeros(50000,2); list(k,:) = [x y];`
3. Dynamically adding vectors to matrix: `list = []; list(k,:) = [x y];`

On my machine, the results were:

1) Elapsed time is 0.080214 seconds.
2) Elapsed time is 0.065513 seconds.
3) Elapsed time is 24.433315 seconds.

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woohoo! an insightful point + measurements to corroborate it. thanks. –  Jason S Oct 10 '09 at 21:44
p.s. most variable-size methods (like string classes) don't use a fixed block size, but rather increase the size by a multiplicative factor K (usually K=2). This bounds the # of allocation steps to O(log N), and if you care about memory efficiency you can always pick K = 1.2 or 1.1 and deal with the math calculation hit to trade off efficiency / # of allocation steps. –  Jason S Oct 10 '09 at 21:48
you're probably right.. you could easily modify the code to do such. A number of parameters can also be tuned: when to increase size, by how much, perhaps even a growing factor (start at K=1.1 and increase up to 2) –  Amro Oct 10 '09 at 21:55

MATLAB uses dynamic typing with automatic memory management. This means, you don't need to declare a matrix of a fixed size before using it - you can change it as you go along and MATLAB will dynamically allocate memory for you.

BUT it is way more efficient to allocate memory for the matrix first and then use it. But if your programs needs this kind of flexibility, go for it.

I'm guessing you need to keep appending rows to your matrix. The following code should work.

``````Matrix = [];

while size(Matrix,1) <= 10
Matrix = [Matrix;rand(1,2)];
end

disp(Matrix);
``````

Here, we're dynamically reallocating the space required for `Matrix` every time you add a new row. If you know beforehand, say, an upper bound on the number of rows you're going to have, you can declare `Matrix = zeros(20,2)` and then insert each row into the matrix incrementally.

``````% Allocate space using the upper bound of rows (20)
Matrix = zeros(20,2);
k = 1;
for k = 1:10
Matrix(k,:) = rand(1,2);
end
% Remove the rest of the dummy rows
Matrix(k+1:end,:) = [];
``````
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+1 I use this all the time. Note that you can also just use a counter, and Matlab will grow the array. –  ccook Oct 10 '09 at 14:44
I'm starting to see what you're doing and why it's efficient. Very helpful, thank you. –  Flick Oct 10 '09 at 15:01

Another flavor of the same thing that Jacob posted.

``````for counter = 1:10
Matrix(counter,:) = rand(1,2);
end
disp(Matrix);
``````

One "nice" thing about this is you can guess a minimum size to help the performance along.

This might be of interest as well: http://www.mathworks.com/help/matlab/math/resizing-and-reshaping-matrices.html#f1-88760

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+1 - Seems cleaner –  Jacob Oct 10 '09 at 14:50