# Iterating through matrix rows in Octave without using an index or for loop

I am trying to understand if it's possible to use Octave more efficiently by removing the for loop I'm using to calculate a formula on each row of a matrix X:

``````myscalar = 0
for i = 1:size(X, 1),
myscalar += X(i, :) * y(i) % y is a vector of dimension size(X, 1)
...
``````

The formula is more complicate than adding to a scalar. The question here is really how to iterate through X rows without an index, so that I can eliminate the for loop.

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I don't understand what your code is supposed to be doing. On each loop it simply multiplies a vector `X(i,:)` by a scalar `y(i)`. Your `myscalar` is actually a vector. Unless X has only a single column but then why are setting it? And why are you transposing for the multiplication? Also, there is no need to use `size (X, 1)`, Octave already has the functions `rows` and `columns` exactly for this purposes. – carandraug Sep 9 '12 at 16:16
My question is really about that for loop, not any code in particular. True, the transpose is confusing, so I'm going to fix it, but is there a way to remove the indexing and the for loop? – Robert Kubrick Sep 9 '12 at 16:20
probably yes but I can't tell you how because the code makes no sense. Is `myscalar` supposed to be a scalar? A sum of multiplications? A matrix? Of what size? I don't understand what you want. – carandraug Sep 9 '12 at 16:24
ok, I fixed myscalar but I don't understand why it is so important to focus on the code. This is a general question, is there a way to avoid matrix indexing when applying formulas on each row, or column, rather than each element (in which case vectorization is more obvious)? – Robert Kubrick Sep 9 '12 at 16:27
now makes sense. I was not understand what was happening to `myscalar` because you were simply overwriting over it before, not adding to it (`=` instead of `+=`). – carandraug Sep 9 '12 at 17:01

Yes, you can use broadcasting for this (you will need 3.6.0 or later). If you know python, this is the same (an explanation from python). Simply multiply the matrix by the column. Finnaly, `cumsum` does the addition but we only want the last row.

``````newx      = X .* y;
myscalars = cumsum (newx, 1) (end,:);
``````

or in one line without temp variables

``````myscalars = cumsum (X .* y, 1) (end,:);
``````

If the sizes are right, broadcasting is automatically performed. For example:

``````octave> a = [ 1 2 3
1 2 3
1 2 3];
octave> b = [ 1 0 2];
octave> a .* b'
warning: product: automatic broadcasting operation applied
ans =

1   0   6
1   0   6
1   0   6

octave> a .* b
warning: product: automatic broadcasting operation applied
ans =

1   2   3
0   0   0
2   4   6
``````

The reason for the warning is that it's a new feature that may confuse users and is not existent in Matlab. You can turn it off permanentely by adding `warning ("off", "Octave:broadcast")` to your `.octaverc` file

For anyone using an older version of Octave, the same can be accomplished by calling `bsxfun` directly.

``````myscalars = cumsum (bsxfun (@times, X, y), 1) (end,:);
``````
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Is it possible to do same thing in Octave under 3.6 version, may be (2.4)? – Kaha Dec 6 '13 at 3:15
@Kaha there is no 2.4 version (version 2.0.16 was followed by 2.9.14). But this can also be done as long as the `bsxfun` is implemented. I have edited my answer to show alternative for older versions. – carandraug Dec 6 '13 at 15:25