# How to subtract a vector from each row of a matrix? [duplicate]

Possible Duplicate:
How can I divide each row of a matrix by a fixed row?

I'm looking for an elegant way to subtract the same vector from each row of a matrix. Here is a non elegant way of doing it.

``````a = [1 2 3];
b = rand(7,3);
c(:,1) = b(:,1) - a(1);
c(:,2) = b(:,2) - a(2);
c(:,3) = b(:,3) - a(3);
``````

Also, the elegant way can't be slower than this method.

I've tried

``````c = b-repmat(a,size(b,1),1);
``````

and it seems slower.

EDIT: The winner is this method.

``````c(:,1) = b(:,1) - a(1);
c(:,2) = b(:,2) - a(2);
c(:,3) = b(:,3) - a(3);
``````

EDIT: More methods, and tic toc results:

``````n = 1e6;
m = 3;
iter = 100;
a = rand(1,m);
b = rand(n,m);

tic
c = zeros(size(b));
for i = 1:iter
c(:,1) = b(:,1) - a(1);
c(:,2) = b(:,2) - a(2);
c(:,3) = b(:,3) - a(3);
end
toc

tic
c = zeros(size(b));
for i = 1:iter
c(:,1) = b(:,1) - a(1);
c(:,2) = b(:,2) - a(2);
c(:,3) = b(:,3) - a(3);
end
toc

tic
c = zeros(size(b));
for i = 1:iter
for j = 1:3
c(:,j) = b(:,j) - a(j);
end
end
toc

tic
for i = 1:iter
c = b-repmat(a,size(b,1),1);
end
toc

tic
for i = 1:iter
c = bsxfun(@minus,b,a);
end
toc

tic
c = zeros(size(b));
for i = 1:iter
for j = 1:size(b,1)
c(j,:) = b(j,:) - a;
end
end
toc
``````

results

``````Elapsed time is 0.622730 seconds.
Elapsed time is 0.627321 seconds.
Elapsed time is 0.713384 seconds.
Elapsed time is 2.621642 seconds.
Elapsed time is 1.323490 seconds.
Elapsed time is 17.269901 seconds.
``````
-

## marked as duplicate by gnovice, Jonas, Judge Maygarden, David Heffernan, GravitonMar 18 '11 at 2:31

This is basically a duplicate of these other questions (same idea, different arithmetic operation): How do I divide matrix elements by column sums in MATLAB?, How can I divide each row of a matrix by a fixed row? –  gnovice Mar 17 '11 at 17:35
For those too lazy to follow the links: `c=bsxfun(@minus,b,a);` –  Jonas Mar 17 '11 at 17:42
bsxfun seems slower, see edit –  Miebster Mar 17 '11 at 17:55
For your timings: take those c and b initializations out of the loop, and please try to vary the size (7, 3) with more interesting values, like something in the range 1e2... 1e4. And if you really have a real use case, care to describe it! Thanks –  eat Mar 17 '11 at 18:24

Here is my contribution:

`c = b - ones(size(b))*diag(a)`

Now speed testing it:

``````tic
for i = 1:10000
c = zeros(size(b));
b = rand(7,3);
c = b - ones(size(b))*diag(a);
end
toc
``````

The result:

`Elapsed time is 0.099979 seconds.`

Not quite as fast, but it is clean.

-
This also works: `b - ones(size(b, 1), size(a, 1)) * a` –  suzanshakya Apr 20 at 16:31
Note that if size(b) is very large, this will be very slow and extremely inefficient in memory. repmat will likely work better in that case. –  Achal Dave Jun 22 at 0:30

There are only three obvious answers, and you gave two of them in your question.

The third is by row,

``````c(1,:) = b(1,:) - a; %...
``````

but I'd expect that to be slower than your by-column processing for large matrixes since it accesses elements out of memory order.

If you turn your by-column processing into a `for` loop in a *.m file or subfunction, is it still faster than the `repmat` version?

One other thing you might test for speed: Try preallocating `c`.

``````c = zeros(size(b));
c(:,1) = b(:,1) - a(1); %...
``````
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The fourth is by using `bsxfun`, as explained in the duplicate answers as well as my comment. –  Jonas Mar 17 '11 at 17:44