Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

new_img is ==>

new_img = zeros(height, width, 3); 

curMean is like this: [double, double, double]

new_img(rows,cols,:) = curMean;

so what is wrong here?

share|improve this question
Assuming rows and cols are within loops and there are assigned a value and curMean is assigned a value then there should be nothing wrong, curMean is assigned to the z/j ( whichever you want to call it ) part of your multidimensional array. – phwd Jan 25 '11 at 17:31
rows and cols are each lists of indexes. =\ – NullVoxPopuli Jan 25 '11 at 17:33
up vote 2 down vote accepted

The line:

new_img(rows,cols,:) = curMean;

will only work if rows and cols are scalar values. If they are vectors, there are a few options you have to perform the assignment correctly depending on exactly what sort of assignment you are doing. As Jonas mentions in his answer, you can either assign values for every pairwise combination of indices in rows and cols, or you can assign values for each pair [rows(i),cols(i)]. For the case where you are assigning values for every pairwise combination, here are a couple of the ways you can do it:

  • Break up the assignment into 3 steps, one for each plane in the third dimension:

    new_img(rows,cols,1) = curMean(1);  %# Assignment for the first plane
    new_img(rows,cols,2) = curMean(2);  %# Assignment for the second plane
    new_img(rows,cols,3) = curMean(3);  %# Assignment for the third plane

    You could also do this in a for loop as Jonas suggested, but for such a small number of iterations I kinda like to use an "unrolled" version like above.

  • Use the functions RESHAPE and REPMAT on curMean to reshape and replicate the vector so that it matches the dimensions of the sub-indexed section of new_img:

    nRows = numel(rows);  %# The number of indices in rows
    nCols = numel(cols);  %# The number of indices in cols
    new_img(rows,cols,:) = repmat(reshape(curMean,[1 1 3]),[nRows nCols]);

For an example of how the above works, let's say I have the following:

new_img = zeros(3,3,3);
rows = [1 2];
cols = [1 2];
curMean = [1 2 3];

Either of the above solutions will give you this result:

>> new_img

new_img(:,:,1) =

     1     1     0
     1     1     0
     0     0     0

new_img(:,:,2) =

     2     2     0
     2     2     0
     0     0     0

new_img(:,:,3) =

     3     3     0
     3     3     0
     0     0     0
share|improve this answer

Be careful with such assignments!

a([1 3],[1 3]) = 1
a =
     1     0     1
     0     0     0
     1     0     1

In other words, you assign all combinations of row and column indices. If that's what you want, writing

for z = 1:3
   newImg(rows,cols,z) = curMean(z);

should get what you want (as @gnovice suggested).

However, if rows and cols are matched pairs (i.e. you'd only want to assign 1 to elements (1,1) and (3,3) in the above example), you may be better off writing

for i=1:length(rows)
    newImg(rows(i),cols(i),:) = curMean;
share|improve this answer
+1 Good point about matched pairs versus all pairwise combinations. – gnovice Jan 25 '11 at 18:04

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.