# Replace non-NaN values with their row indices within matrix

I have the 4x2 matrix A:

``````A = [2 NaN 5 8; 14 NaN 23 NaN]';
``````

I want to replace the non-NaN values with their associated indices within each column in A. The output looks like this:

``````out = [1 NaN 3 4; 1 NaN 3 NaN]';
``````

I know how to do it for each column manually, but I would like an automatic solution, as I have much larger matrices to handle. Anyone has any idea?

Applying `ind2sub` to a mask created with `isnan` will do.

``````mask = find(~isnan(A));
``````

Note that the second output of `ind2sub` needs to be requested (but neglected with `~`) as well `[rows,~]` to indicate you want the output for a 2D-matrix.

``````A =

1     1
NaN   NaN
3     3
4   NaN

A.' =

1   NaN     3     4
1   NaN     3   NaN
``````

Also be careful the with the two different transpose operators `'` and `.'`.

## Alternative

``````[n,m] = size(A);
B = ndgrid(1:n,1:m);
B(isnan(A)) = NaN;
``````

or even (with a little inspiration by Luis Mendo)

``````[n,m] = size(A);
B = A-A + ndgrid(1:n,1:m)
``````

or in one line

``````B = A-A + ndgrid(1:size(A,1),1:size(A,2))
``````
• Equivalently: `[rows,cols] = find(~isnan(A)); A(sub2ind(size(A), rows, cols)) = rows;` – Luis Mendo Oct 3 '16 at 12:18
• The last two alternatives fail at zeros. `A./A` for 0 and `NaN` gives `NaN`. – erfan Oct 3 '16 at 12:37
• @erfan of course, thanks for the hint – thewaywewalk Oct 3 '16 at 12:45
• @thewaywewalk You can remove that `1` here: `B = A-A + ndgrid(1:n,1:m)` :-) – Luis Mendo Oct 3 '16 at 13:44
• @LuisMendo well not exactly, unless I change it to an addition – thewaywewalk Oct 3 '16 at 15:05
``````out = bsxfun(@times, A-A+1, (1:size(A,1)).');
``````

How it works:

• `A-A+1` replaces actual numbers in `A` by `1`, and keeps `NaN` as `NaN`
• `(1:size(A,1)).'` is a column vector of row indices
• `bsxfun(@times, ...)` multiplies both of the above with singleton expansion.

As pointed out by @thewaywewalk, in Matlab R2016 onwards `bsxfun(@times...)` can be replaced by `.*`, as singleton expansion is enabled by default:

``````out = (A-A+1) .* (1:size(A,1)).';
``````

An alternative suggested by @Dev-Il is

``````out = bsxfun(@plus, A*0, (1:size(A,1)).');
``````

This works because multiplying by `0` replaces actual numbers by `0`, and keeps `NaN` as is.

• with Matlab 2016b its just `(A-A+1) .* (1:size(A,1)).'` isn't it? – thewaywewalk Oct 3 '16 at 12:12
• Doing `A-A` instead of `zeros(...)` is quite clever. Nice code golfing. – rayryeng - Reinstate Monica Oct 3 '16 at 14:03
• @rayryeng Thanks! Actually it's even golfier: `A-A` gives zero or `NaN` depending on the input :-) – Luis Mendo Oct 3 '16 at 14:05
• @LuisMendo Hah! I didn't know that. Interesting. When would it give `NaN`? – rayryeng - Reinstate Monica Oct 3 '16 at 14:05
• Ah! Well that's actually a very useful feature. Thanks! – rayryeng - Reinstate Monica Oct 3 '16 at 14:08

This can be done using `repmat` and `isnan` as follows:

``````A = [ 2  NaN   5    8;
14  NaN  23  NaN];
out=repmat([1:size(A,2)],size(A,1),1); % out contains indexes of all the values
out(isnan(A))= NaN                     % Replacing the indexes where NaN exists with NaN
``````

Output:

`````` 1   NaN     3     4
1   NaN     3   NaN
``````

You can take the transpose if you want.

1. Because overkill (*ahem* `kron` *ahem*) is fun.
2. To demonstrate that `A*0` does the same as `A-A`.

``````A = [2 NaN 5 8; 14 NaN 23 NaN].';
out = A*0 + kron((1:size(A,1)).', ones(1,size(A,2)))

out =

1     1
NaN   NaN
3     3
4   NaN
``````