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It seems like the answer to this should be simple, but I am stumped. I have a matrix of Nx3 matrix where there 1st 2nd and 3rd columns are the X Y and Z coordinates of the nth item. I want to calculate the distance from the origin to the item. In a non vectorized form this is easy.

distance = norm([x y z]);


distance = sqrt(x^2+y^2+z^2);

However, in vectorized form its not so simple. When you pass a matrix to norm it no longer returns the Euclidean length.

distance = norm(matrix); %doesn't work


distance = sqrt(x(:,1).*x(:,1)+y(:,2).*y(:,2)+z(:,3).*z(:,3)); %just seems messy

Is there a better way to do this?

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up vote 14 down vote accepted

Try this:

>> xyz = [1 2 3; 4 5 6; 7 8 9; 2 8 4]

xyz =

     1     2     3
     4     5     6
     7     8     9
     2     8     4

>> distance = sqrt(sum(xyz.^2, 2))

distance =

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Very elegant, indeed! = ) – Phonon Mar 17 '11 at 17:05

Yes, there is.

distance = sqrt(sum(matrix.^2,2)); %# matrix is [x y z]
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I think the way to go is distance = sqrt(matrix(:,1).^2+matrix(:,2).^2+matrix(:,3).^2).

Loops in Matlab are just too slow. Vector operations are always preferred (as I'm sure you know). Additionally, using .^2 (element-wise squaring) does not have to look each column of your matrix twice, so this would be even faster.

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