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you can apply function to every item in a vector by saying v .+ 1, or you can use arrayfun, any one have any suggestions on how to do it for every row/column of a matrix without using for loop?

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up vote 54 down vote accepted

Many built-in operations like SUM and PROD are already able to operate across rows or columns, so you may be able to refactor the function you are applying to take advantage of this.

If that's not a viable option, one way to do it is to collect the rows or columns into cells using MAT2CELL or NUM2CELL, then use CELLFUN to operate on the resulting cell array.

As an example, let's say you want to sum the columns of a matrix M. You can do this simply using SUM:

M = magic(10);        %# A 10-by-10 matrix
columnSums = sum(M);  %# A 1-by-10 vector of sums for each column

And here is how you would do this using the more complicated NUM2CELL/CELLFUN option:

M = magic(10);                 %# A 10-by-10 matrix
C = num2cell(M,1);             %# Collect the columns into cells
columnSums = cellfun(@sum,C);  %# A 1-by-10 vector of sums for each cell
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I would test performance of this approach for any particular case against simple for-loop, which might be faster then converting a matrix to cell array. Use tic/tac wrap to test. – yuk Feb 21 '10 at 23:13
@yuk: I think you meant "tic/toc". ;) – gnovice Feb 22 '10 at 5:43
Oops, of course! Just something ticking... :) – yuk Feb 22 '10 at 15:05
@gnovice, perhaps yuk did some magic and assigned tak=toc. In a language where true = false is a valid statement, I'm sure there's a way you could do it (: – chessofnerd Jul 11 '14 at 17:23
@Argyll: Determining which approach is more efficient will depend on what sort of function you were wanting to apply, the size of the matrix, etc. In short, it is likely problem-dependent. In fact, sometimes a good old for loop can be the fastest choice. – gnovice Nov 11 '14 at 14:04

You may want the more obscure Matlab function bsxfun. From the Matlab documentation, bsxfun "applies the element-by-element binary operation specified by the function handle fun to arrays A and B, with singleton expansion enabled."

@gnovice stated above that sum and other basic functions already operate on the first non-singleton dimension (i.e., rows if there's more than one row, columns if there's only one row, or higher dimensions if the lower dimensions all have size==1). However, bsxfun works for any function, including (and especially) user-defined functions.

For example, let's say you have a matrix A and a row vector B. E.g., let's say:

A = [1 2 3;
     4 5 6;
     7 8 9]
B = [0 1 2]

You want a function power_by_col which returns in a vector C all the elements in A to the power of the corresponding column of B.

From the above example, C is a 3x3 matrix:

C = [1^0 2^1 3^2;
     4^0 5^1 6^2;
     7^0 8^1 9^2]


C = [1 2 9;
     1 5 36;
     1 8 81]

You could do this the brute force way using repmat:

C = A.^repmat(B, size(A, 1), 1)

Or you could do this the classy way using bsxfun, which internally takes care of the repmat step:

C = bsxfun(@(x,y) x.^y, A, B)

So bsxfun saves you some steps (you don't need to explicitly calculate the dimensions of A). However, in some informal tests of mine, it turns out that repmat is roughly twice as fast if the function to be applied (like my power function, above) is simple. So you'll need to choose whether you want simplicity or speed.

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I can't comment on how efficient this is, but here's a solution:

applyToGivenRow = @(func, matrix) @(row) func(matrix(row, :))
applyToRows = @(func, matrix) arrayfun(applyToGivenRow(func, matrix), 1:size(matrix,1))'

% Example
myMx = [1 2 3; 4 5 6; 7 8 9];
myFunc = @sum;

applyToRows(myFunc, myMx)
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A more generic answer is given here. – Wok Apr 12 '13 at 12:28

Building on Alex's answer, here is a more generic function:

applyToGivenRow = @(func, matrix) @(row) func(matrix(row, :));
newApplyToRows = @(func, matrix) arrayfun(applyToGivenRow(func, matrix), 1:size(matrix,1), 'UniformOutput', false)';
takeAll = @(x) reshape([x{:}], size(x{1},2), size(x,1))';
genericApplyToRows = @(func, matrix) takeAll(newApplyToRows(func, matrix));

Here is a comparison between the two functions:

>> % Example
myMx = [1 2 3; 4 5 6; 7 8 9];
myFunc = @(x) [mean(x), std(x), sum(x), length(x)];
>> genericApplyToRows(myFunc, myMx)

ans =

     2     1     6     3
     5     1    15     3
     8     1    24     3

>> applyToRows(myFunc, myMx)
??? Error using ==> arrayfun
Non-scalar in Uniform output, at index 1, output 1.
Set 'UniformOutput' to false.

Error in ==> @(func,matrix)arrayfun(applyToGivenRow(func,matrix),1:size(matrix,1))'
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For completeness/interest I'd like to add that matlab does have a function that allows you to operate on data per-row rather than per-element. It is called rowfun (, but the only "problem" is that it operates on tables ( rather than matrices.

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With recent versions of Matlab, you can use the Table data structure to your advantage. There's even a 'rowfun' operation but I found it easier just to do this:

a = magic(6);
incrementRow = cell2mat(cellfun(@(x) x+1,table2cell(table(a)),'UniformOutput',0))

or here's an older one I had that doesn't require tables, for older Matlab versions.

dataBinner = cell2mat(arrayfun(@(x) Binner(a(x,:),2)',1:size(a,1),'UniformOutput',0)')
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Stumbled upon this question/answer while seeking how to compute the row sums of a matrix.

I would just like to add that Matlab's SUM function actually has support for summing for a given dimension, i.e a standard matrix with two dimensions.

So to calculate the column sums do:

colsum = sum(M) % or sum(M, 1)

and for the row sums, simply do

rowsum = sum(M, 2)

My bet is that this is faster than both programming a for loop and converting to cells :)

All this can be found in the matlab help for SUM.

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the ability to apply SUM along a given dimension was mentioned in the first sentence of the original answer to this question. The answer then went on to address the case when the ability to choose a dimension is not already built in to the function. You are right, though, that using the built-in dimension-selection options -- when they are available -- is almost always faster than a for loop or converting to cells. – cjh Sep 22 '12 at 15:54
True that, however, the answer above sent me back to the matlab documentation, as I didn't need all that fancyness, so I just wanted to share and save others, in need for the simple solution, from searching on. – nover Oct 5 '12 at 13:05

The accepted answer seems to be to convert to cells first and then use cellfun to operate over all of the cells. I do not know the specific application, but in general I would think using bsxfun to operate over the matrix would be more efficient. Basically bsxfun applies an operation element-by-element across two arrays. So if you wanted to multiply each item in an n x 1 vector by each item in an m x 1 vector to get an n x m array, you could use:

vec1 = [ stuff ];    % n x 1 vector
vec2 = [ stuff ];    $ m x 1 vector
result = bsxfun('times', vec1.', vec2);

This will give you matrix called result wherein the (i,j) entry will be the ith element of vec1 multiplied by the jth element of vec2.

You can use bsxfun for all sorts of built-in functions, and you can declare your own. The documentation has a list of many built-in functions, but basically you can name any function that accepts two arrays (vector or matrix) as arguments and get it to work.

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if you know the length of your rows you can make something like this:

arrayfun(@(x1,x2,y1,y2,z1,z2) line([x1,x2],[y1,y2],[z1,z2]) , a(:,1),b(:,1),a(:,2),b(:,2),a(:,3),b(:,3) )
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