# replace first (x number) non-nan values with nan

suppose I have the following matrix: a =

`````` 2   NaN   NaN
4   NaN     3
3     7     9
5    12     5
8    10     8
12     5    10
``````

I need to replace the first x number non-Nan values in each column with Nan.

If number of values to be replaced is x = 3, then the new matrix should be:

b =

``````NaN   NaN   NaN

NaN   NaN   NaN

NaN   NaN   NaN

5     NaN   NaN

8     NaN   8

12    5     10
``````

Any ideas how to do this?

-

Here is another vectorized code:

``````%# given the data
a = [ 2 NaN NaN; 4 NaN 3; 3 7 9; 5 12 5; 8 10 8; 12 5 10 ]
x = 3

%# replace with NaNs
sz = size(a);
d = [ones(1,sz(2)) ; diff(~isnan(a))];
rIdx = arrayfun(@(k) find(d(:,k),1,'last'), 1:sz(2));
ind = bsxfun(@plus, sub2ind(sz, rIdx, 1:sz(2)), (0:x-1)');
a(ind(:)) = NaN;
``````

First we check non-nan elements, then we `diff` the result across the rows. We find the location of the last `1` in each column, convert to linear indices and add the offset `x` to each. Finally we use the computed indices to replace with `NaN`s.

-

Loop through the columns, then loop through the members of each column, replacing the first 3 non-NaN numbers with Nan:

``````for c = 1:size (a,2)
col = a (:,c);
replaced = 0;
for r = 1:size (col)
if (~isnan (col (r)))
a (r,c) = Nan;
replaced = replaced + 1
if (replaced == 3)
break;
end
end
end
end
``````

I think that should do it

-
I' ll try that, thanks – mario Jun 10 '12 at 9:13
I haven't actually tried running it so I might have messed up some syntax (I don't use Matlab much), but should be mostly right I think – lxop Jun 10 '12 at 9:16
yes! works great, thanks again – mario Jun 10 '12 at 9:20

This is a vectorized solution. First get the top part of `a` (the part that will be replaced with new `NaN`s) into `aTopMatrix`. Then get get lower part of `a` into `aLowMatrix`. Then replace values of `aLowMatrix` with `NaN`s according to the pre-existing `NaN` values in `aTopMatrix` by using logical addressing. Finally, create a `NaN` array sized `x` x `size(a,2)` and concatenate it vertically with `aLowMatrix` to get the desired result matrix in `b`.

% Define the example data:

``````a = [ 2 NaN NaN; 4 NaN 3; 3 7 9; 5 12 5; 8 10 8; 12 5 10 ]
x = 3
``````

% Here's the code:

``````aTopMatrix = a(1:x, 1:end);
aLowMatrix = a(x+1:end, 1:end);
aLowMatrix(isnan(aTopMatrix)) = NaN;
b = [ ones(x, size(a,2))*NaN; aLowMatrix ];
``````
-
works beautiful, thank you! – mario Jun 10 '12 at 14:12
This won't work properly if the matrix height is anything other than 6 (double the required number of NaNs), nor will it work if there are non-Nan gaps between NaNs (eg a column 4 Nan 3 Nan 4 3 2). If the matrix is always this size and the NaNs are always bunched at the top however, then this works very well. – lxop Jun 10 '12 at 21:29
``````class TestNan
{
public static void main(String[] args)
{
double[][] mat = new double[6][3];
//initialize the matrix here
for(int i = 0; i<3; i++)
{
int x = 3; // no. of numbers to be replaced
for(int j = 0; j<6; j++)
{
if(x == 0)
break;
Double d = Double.valueOf(mat[i][j]);
if(!d.isNaN())
{
d = Double.NaN;
x--;
}
}
}