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) a=zeros(size(X,1),1); a(:)=X(:,i); end
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) a(:)=X(:,i); end
a=zeros(m,1); 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)..)