# Matlab: Getting Random values from each column w/o zeros

I have a 2d matrix as follows:

possibleDirections =

1     1     1     1     0
0     0     2     2     0
3     3     0     0     0
0     4     0     4     4
5     5     5     5     5

I need from every column to get a random number from the values that are non-zero in to a vector. The value 5 will always exist so there won't be any columns with all zeros. Any ideas how this can be achieved with the use of operations on the vectors (w/o treating each column separately)? An example result would be [1 1 1 1 5]

Thanks

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I think this may be difficult without custom functions because the randi (mathworks.com/help/matlab/ref/randi.html) function does not accept a vector of integers for different ranges. – Andrew Mao Feb 27 '13 at 19:30
I've uploaded the project to git: github.com/guywald/allele_fixation – Guy Feb 8 '14 at 17:29

You can do this without looping directly or via arrayfun.

[rowCount,colCount] = size(possibleDirections);
nonZeroCount = sum(possibleDirections ~= 0);
index = round(rand(1,colCount) .* nonZeroCount +0.5);
[nonZeroIndices,~] = find(possibleDirections);
index(2:end) = index(2:end) + cumsum(nonZeroCount(1:end-1));
result = possibleDirections(nonZeroIndices(index)+(0:rowCount:(rowCount*colCount-1))');
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would you mind explaining what the syntax [nonZeroIndices,~] = find(possibleDirections); does? I've never seen it before... – Floris Feb 27 '13 at 21:51
@Floris [I,J] = find(X,...) returns the row and column indices instead of linear indices into X. The ~ is there to force this mode (but discard the column indices). – grantnz Feb 27 '13 at 23:30
thanks. Learn something new every day! – Floris Feb 27 '13 at 23:35

Alternative solution:

[r,c] = size(possibleDirections);

[notUsed, idx] = max(rand(r, c).*(possibleDirections>0), [], 1);

val = possibleDirections(idx+(0:c-1)*r);

If the elements in the matrix possibleDirections are always either zero or equal to the respective row number like in the example given in the question, the last line is not necessary as the solution would already be idx.

And a (rather funny) one-liner:

result = imag(max(1e05+rand(size(possibleDirections)).*(possibleDirections>0) + 1i*possibleDirections, [], 1));

Note, however, that this one-liner only works if the values in possibleDirections are much smaller than 1e5.

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don;t you need to take the max along the first dim? max( ... ,[],1)? – Shai Feb 27 '13 at 21:51
Isn't that the default of of max? – H.Muster Feb 28 '13 at 7:00
@Shai, @HMuster You are both right. Using dim argument is just safer in case you get a 1-row matrix. – yuk Feb 28 '13 at 7:12
@yuk Ok, I added the explicit specification of the dimension. Thanks for the suggestion (Shai) and clarification (yuk). – H.Muster Feb 28 '13 at 7:36

Try this code with two arrayfun calls:

nc = size(possibleDirections,2); %# number of columns
idx = possibleDirections ~=0;    %# non-zero values
%# indices of non-zero values for each column (cell array)
tmp = arrayfun(@(x)find(idx(:,x)),1:nc,'UniformOutput',0);
s = sum(idx); %# number of non-zeros in each column
%# for each column get random index and extract the value
result = arrayfun(@(x) tmp{x}(randi(s(x),1)), 1:nc);
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:_) Thank you, Works like a charm! – Guy Feb 27 '13 at 19:44