Logical indexing two dimensions. How do I avoid a nested for loop?

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Peta
Peta on 15 Apr 2016
Commented: Jan on 19 Apr 2016
I have a matrix X with doubles of size = 450 8156 and another matrix C with logical values with size = 64 8156 where 400 of the 8156 elements of each of the 64 rows are true. And I also have yet another matrix T of logical values with size = 9 450 where 400 of the 450 elements of each row are true.
I want to extract all the true values of X so that the resulting matrix becomes of size = 400 400 9 64
I can do this easily with a double for loop like this:
for n = 1 : 64
for z = 1 : 9
A(:,:,z,n) = X(T(z,:)',C(n,:));
end
end
but it is very slow. Is there a faster, more reasonable, vectorized way of doing thing? By using repmat, reshape, bsxfun, arrayfun etc.? Anyone good with logical indexing that can help me out?
Thanks.
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Peta
Peta on 15 Apr 2016
Yes, it is really a bottleneck. And the data isn’t always 1:64 and 1:9, those dimensions change over time so the problem is usually smaller than what I wrote in my example and it’s frustrating that it should slow down my code by several seconds per iteration since I’m not even calculating anything here, just rearranging existing data.
Stephen23
Stephen23 on 15 Apr 2016
Edited: Stephen23 on 15 Apr 2016
"just rearranging existing data"
Actually it is copying existing data... almost 1 GB of it.

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Accepted Answer

Jan
Jan on 17 Apr 2016
Edited: Jan on 17 Apr 2016
You can try a logical indexing:
T = T.' ;
A = zeros(400,400,9,64);
Cn = false(1, size(X, 2));
for n = 1 : 64
Cn(:) = false;
Cn(C(n, :)) = true;
for z = 1 : 9
A(:,:,z,n) = X(T(:,z), Cn);
end
end
I have no idea if this is faster. Please provide some meaningful test data, such that the readers can perform some experiments before posting.
Do you have the parallel programming toolbox?
  2 Comments
Peta
Peta on 19 Apr 2016
Thank you that did make it faster and now it only takes about 0.5 seconds for me to run.
And yes I have the parallel programming (computing??) toolbox, is there any functionality in there than could be useful here? I tried making the inner loop in the code you wrote into a parfor instead of for, but that makes it much much slower.
Code for generating the sample data variables can be created like this:
X = (rand(450,8156));
C = false(64,8156);
for i = 1 : 64
while sum(C(i,:),2) ~= 400
C(i,randi([1 8156])) = true;
end
end
T = false(9,450);
for i = 1 : 9
while sum(T(i,:),2) ~= 400
T(i,randi([1 450])) = true;
end
end

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More Answers (2)

Azzi Abdelmalek
Azzi Abdelmalek on 15 Apr 2016
You can improve your for loop by pre-allocating
A=zeros(400,400,9,64)
Jos (10584)
Jos (10584) on 15 Apr 2016
Pre-allocate but also put the transpose out of the loop!
T = T.' ;
A = zeros(400,400,9,64)
for n = 1 : 64
for z = 1 : 9
A(:,:,z,n) = X(T(:,z), C(n,:));
end
end
Damn, this is fast :-)
  2 Comments
Peta
Peta on 15 Apr 2016
Of course doing one isn’t a problem and appears fast enough. But I need to do this tens of thousands of times and then pretty soon the slowness of this code adds up to seconds, minutes, hours.. Which is why I’m searching for a more sophisticated method that doesn’t involve nested for loops. And I see from everyone’s answer here that I should have made it clear when formulating my question that I am familiar with the basic concept of pre-allocation :)
Jos (10584)
Jos (10584) on 17 Apr 2016
tens of thousands of times x 0.1s per time (which is fast) = thousands of seconds = a few hours. Maybe Matlab is not the right tool for the job?

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