# Incrementing one value of a MATLAB array multiple times in one line

This is a question about incrementing one value of a MATLAB array multiple times in the same statement, without having to use a for loop.

I set my array as:

``````>> A = [10 20 30];
``````

And then run:

``````>> A([1, 1]) = A([1, 1]) + [20 3]

A =

13    20    30
``````

Clearly the 20 is ignored. However, i would like it to be included, so that:

``````>> A = [10 20 30];
>> A([1, 1]) = A([1, 1]) + [20, 3]
``````

would give:

``````A =

33    20    30
``````

Is there a function to allow this to be done in a nice, vectorised fashion?

(In reality, the indexing to the array would include multiple indexes, so it could be `[1 1 2 2 1 1 1 1 3 3 3]` etc., with an array of numbers to increment by (the `[20, 3]` above) of the same length.)

-

What you want to do can be done using the function ACCUMARRAY, like so:

``````A = [10 20 30];            %# Starting array
index = [1 2 2 1];         %# Indices for increments
increment = [20 10 10 3];  %# Value of increments
A = accumarray([1:numel(A) index].',[A increment]);  %'# Accumulate starting
%#   values and increments
``````

And the output of this example should be:

``````A = [33 40 30];
``````

EDIT: If `A` is a large array of values, and there are just a few increments to add, the following may be more computationally efficient than the above:

``````B = accumarray(index.',increment);  %'# Accumulate the increments
nzIndex = (B ~= 0);               %# Find the indices of the non-zero increments
A(nzIndex) = A(nzIndex)+B(nzIndex);  %# Add the non-zero increments
``````
-
aaargh, 30 sec faster :) –  Adrien Oct 17 '10 at 20:41
Thanks, I've got that first one working a treat. I believe there's a transpose symbol missing on the SUBS though - I could only make `A = accumarray([1:numel(A) index]',[A increment]);` work. I'll do some speed comparisons for the second suggestion once my data's populated. –  Bill Cheatham Oct 18 '10 at 9:14
@Bill: You're right. I forgot that the first input has to be a column vector in this case. In general, the first input has to be an M-by-N matrix where M is the number of values being accumulated and N is the number of subscripts (1 in this case, but more for multidimensional indexing). –  gnovice Oct 18 '10 at 14:03
@Adrien: Don't be surprised. @gnovice is the only user with a golden Matlab badge. That means that he's both fast and right. –  Jonas Oct 18 '10 at 15:25
@Jonas: ... or thoroughly addicted to SO. ;) –  gnovice Oct 18 '10 at 16:11

Maybe there's something I don't quite get here, but you're basically trying to add 23 to the first element of A, right? So you can write:

``````A([1, 1]) = A([1, 1]) + sum([20 3])
``````

Also, if you have an index array, you can write

``````indexArray = [1 2 2 3 1 1 2 1];
I think the general case has `toAdd` the same length as `indexArray`. So if the contents of `indexArray` were unique, you'd just do `A(indexArray) + toAdd`. –  Oli Charlesworth Oct 17 '10 at 20:46