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 matrix

p=[1 2 3 4; 
   5 6 7 8; 
  10 20 30 50];

I'd like to compute the sum of the elements of each row that are between column iMin and iMax, with iMin and iMax being different for each row

e.g for

iMin = [3 2 1];
iMax = [4 4 3];

the result is

[7 21 60]

Is there an easy Octave / Matlab way to do this without loops ?

share|improve this question
I think a loop may be the most readable solution. – Jonas Apr 20 '12 at 23:45
Yes, but I'm looking for a solution without loop for speed's sake, as actual computations will take place on much larger matrices... – alxpublic Apr 20 '12 at 23:55
In more recent versions of Matlab, the loops will also be faster. Anyway, where do you get the iMin and iMax from? Is that from indices you pull from another array of the same size as p? – Jonas Apr 21 '12 at 15:17

3 Answers 3

up vote 2 down vote accepted

You can achieve this using logical indexing, following a similar approach to my answer to your other question.

Assuming that iMin and iMax have the same number of entries as the number of rows in p you can horizonally tile the column indices for p i.e. [1:size(p,2)] and compare this to vertical tilings of iMin and iMax to generate a logical index into p for the entries that satisfy your criterion so:

result=sum(p.*(c_ind>=c_min & c_ind<=c_max),2)


result =


No loops :-)

share|improve this answer
Thanks ! On Octave, relative speed seems to depend on the shape of matrix p : P matrix of size 100 000 x 200 : % Your method (repmat) = 0.34 sec % Jonas's method 1 (loop) = 2.20 sec % Jonas's method 2 (arrayfun) = 4.92 sec. P matrix of size 200 x 100 000 : % Your method (repmat) = 0.68 sec % Jonas's method 1 (loop) = 0.41 sec % Jonas's method 2 (arrayfun) = 1.412 sec Your method seems consistently quick, the loop method is also fast but gets penalised when the number of rows gets huge. Arrayfun is slower. – alxpublic Apr 22 '12 at 22:26

I know I'm a little late, but here's my contribution:

  1. A one-liner with bsxfun:

  2. A solution with linear indexing:

    aux = [zeros(1,size(p,1)); cumsum(p.')];
    rowjumps = 0:size(p,2)+1:numel(p);
    result = aux(iMax+1+rowjumps) - aux(iMin+rowjumps);
share|improve this answer

I'm fairly sure that

result = zeros(nRows,1);
for iRow = 1:nRow
   result(iRow) = sum(p(iRow,iMin(iRow):iMax(iRow));

is the fastest solution, at least on more recent versions of Matlab.

To perform the summation in one go, you need to create an array of ones and zeros to mask p, i.e.

[nRows,nCols] = size(p);
idxCells = arrayfun(@(x,y)...
    [false(1, x-1), true(1,y-x+1), false(1,nCols-y)], iMin, iMax,...
result = sum( p .* cell2mat(idxCells), 2)
share|improve this answer
Thanks! On a recent Octave, the for loop is the fastest for small nRows, but not the fastest when nRows increases (see comment to rroowwllaanndd's answer above). No idea if a recent Matlab version would change this conclusion... – alxpublic Apr 22 '12 at 22:39

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.