Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I have a function that returns a large vector and is called multiple times, with some logic going on between calls that makes vectorization not an option.

An example of the function is

function a=f(X,i)



and I am doing

for i=1:n  a=f(X,i); end

When profiling this (size(X,1)=5.10^5, n=100 ) times are 0.12s for the zeros line and 0.22s for a(:)=X(:,i) the second line. As expected memory is allocated at each call of f in the 'zeros' line.

To get rid of that line and its 0.12s, I thought of allocating the returned value just once, and passing it in as return space each time to an appropriate function g like so:

function a=g(X,i,a)

and doing

   for i=1:n    a=g(X,i,a);    end

What is surprising to me is that profiling inside g still shows memory being allocated in the same amounts at the a(:)=X(:,i); line, and the time taken is very much like 0.12+0.22s..

1)Is this just "lazy copy on write" because I am writing into a? 2)Going forward, what are the options? -a global variable for a (messy..)? -writing a matrix handle class (must I really?) (The nested function way means some heavy redesigning to make a nesting function to which X is known (the matrix A with notations from that answer)..)

share|improve this question
Eventually I'll have to rewrite everything in C++, wrapping the n loop in a MEX file seems a lot of work atm, because the actual situation is like this: function fhandle=get_functor(X) fhandle=@f1; %X is actually a parameter in f1 function s=f1(i) s=sin(X./i); end end %begin script %X is defined in a variety of different ways ("code factorization") f=get_functor(X); So I imagine using a MEX file for the n-loop I will need to make X known to that C function.The actual situation being that I do this for a few 10's of different X's and like to add more/take some out just to test things.. – imateapot Jun 14 '11 at 16:56

1 Answer 1

Perhaps this is a bit tangential to your question, but if this is a performance critical application, I think a good way to go is to rewrite your function as a mex file. Here is a quote from,

The main reasons to write a MEX-file are:... Speed; you can rewrite bottleneck computations (like for-loops) as a MEX-file for efficiency.

If you are not familiar with mex files, the link above should get you started. Converting your existing function to C/C++ should not be overly difficult. The yprime.c example included with MATLAB is similar to what you're trying to do, since it is iteratively being called to calculate the derivatives inside ode45, etc.

share|improve this answer
Thank you I'll look into it! – imateapot Jun 14 '11 at 16:54

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.