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Vectorize for-loop that changes overlapping parts of an array

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Maximilian Rüppell
Maximilian Rüppell on 20 Apr 2016
Commented: Roger Stafford on 20 Apr 2016
Hi everyone,
I have problem speeding up my code. I have a very large (20-40m datapoints) logical array and at every position where it reads "1", the next N datapoints should be set to "1" a well.
I have the following code that is quite slow since it has a for loop:
N=5000-1;
logarray; %logical array of size 40000000x1
inx=find(logarray); %inx can be quite large as well, 1-5m points
for ii=1:length(inx)
logarray(inx(ii):(inx(ii)+N))=1;
end
This code works, but is very slow (more than 10 secs). I tried something like
logarray(find(inx):(find(inx)+100))=1;
but this did not work. I was wondering whether vectorisation would be a solution here? Mind that overlapping parts of the logical array are changed by the loop.
Does anyone have a good suggestion?
Thanks, Maximilian

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Accepted Answer

Jos (10584)
Jos (10584) on 20 Apr 2016
Edited: Jos (10584) on 20 Apr 2016
Easy when using convolution:
logarray = logical([0 1 1 0 0 0 1 0 0 0 1 0 0 0 0 1 0 1 0 0 0 0 1])
N = 2 ;
out = conv2(double(logarray(:)), ones(N+1,1)) ;
out = out(1:numel(logarray))>0 ;
out = reshape(out,size(logarray)) ;
disp([logarray(:) ; out(:)]) ;

More Answers (1)

Roger Stafford
Roger Stafford on 20 Apr 2016
Edited: Roger Stafford on 20 Apr 2016
It isn't perhaps that you have a for-loop that is slowing you down so much as that your loop is repeating the writing of ones so much in overlapping intervals. You might try the following which first combines overlapping intervals before doing the writing of ones.
N=5000-1;
f1 = find(logarray);
f2 = min(f1+N,length(logarray));
f3 = zeros(size(f1));
f4 = zeros(size(f2));
ie = 1;
f3(ie) = f1(ie);
f4(ie) = f2(ie);
for ib = 1:size(f1,1)-1
if f1(ib+1) > f4(ie)+1
ie = ie+1;
f3(ie) = f1(ib+1);
end
f4(ie) = f2(ib+1);
end
f3 = f3(1:ie); % The intervals defined by f3 and f4 don't overlap
f4 = f4(1:ie);
for ib = 1:ie
logarray(f3(ib):f4(ib)) = 1;
end
  1 Comment
Roger Stafford
Roger Stafford on 20 Apr 2016
I thought of another way you could try which uses 'accumarray'. Assume 'logarray' is a column vector.
N = 1000;
f = find(logarray);
t = ones(size(f));
logarray = min(cumsum(accumarray([f;f+N+1],[t;-t],...
[length(logarray)+N+1,1])),1);
logarray(end) = [];

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