# More efficient Matlab Code please

I am new to matlab so I do not know all the shortcuts matlab has to make the code more efficient and faster. I have been hacking together something in matlab for a homework assignment while focusing on completing the assignment rather than efficiency. Now I'm finding that I'm spending more time waiting on the program than actually coding it. Below is a headache of nested for loops that takes forever to finish. Is there a faster or efficient way of coding this without so many forloops?

``````for i = 1:ysize
for j = 1:xsize
MArr = zeros(windowSize^2, 2, 2);
for i2 = i - floor(windowSize/2): i + floor(windowSize/2)
if i2 > 0 && i2 < ysize + 1
for j2 = j - floor(windowSize/2): j + floor(windowSize/2)
if j2 > 0 && j2 < xsize + 1
mat =  weight*[mappedGX(i2,j2)^2, mappedGX(i2,j2)*mappedGY(i2,j2); mappedGX(i2,j2)*mappedGY(i2,j2), mappedGY(i2,j2)^2];
for i3 = 1:2
for j3 = 1:2
MArr(windowSize*(j2-(j - floor(windowSize/2))+1) + (i2-(i - floor(windowSize/2)) + 1),i3,j3) = mat(i3,j3);
end
end
end
end
end
end
Msum = zeros(2,2);
for k = size(MArr)
for i2 = 1:2
for j2 = 1:2
Msum = Msum + MArr(k,i2,j2);
end
end
end
R(i,j) = det(Msum) - alpha*(trace(Msum)^2);
R = -1 * R;
end
end
``````
-
Please tell us the gist of what it's doing so we can make sense of what your code is doing. Seeing variables named "i, i2, i3" is never a good sign.... – whatsisname Nov 1 '11 at 21:38

Instead of looping, use colons. For example:

``````                    for i3 = 1:2
for j3 = 1:2
MArr(windowSize*(j2-(j - floor(windowSize/2))+1) + (i2-(i - floor(windowSize/2)) + 1),i3,j3) = mat(i3,j3);
end
end
``````

Can be written as:

`````` MArr(windowSize*(j2-(j-floor(windowSize/2))+1)+(i2-(i-floor(windowSize/2))+1),:,:)=mat;
``````

After you find all places where this can be done, learn to use indexing instead of looping, e.g.,

``````i2 = i - floor(windowSize/2): i + floor(windowSize/2);
i2=i2(i2>0 && i2<ysize+1);
j2 = j - floor(windowSize/2): j + floor(windowSize/2);
j2=j2(j2>0 && j2<xsize+1);
mat =  weight*[mappedGX(i2,j2)^2, mappedGX(i2,j2)*mappedGY(i2,j2);
``````

(Note for advanced users: the last line may not work if `mappedGX` is a matrix, and `i2`/`j2` don't represent a rectangular sub-matrix. In such a case you will need `sub2ind()`)

-