# Take the product of all nonzero elements in each column of a sparse matrix

Is there a well-vectorized way to take the product of all the nonzero elements in each column of a sparse matrix in octave (or matlab) (returning a row-vector of products)?

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I'd combine `find` with `accumarray`:

``````%# create a random sparse array
s = sprand(4,4,0.6);

%# find the nonzero values
[rowIdx,colIdx,values] = find(s);

%# calculate product
product = accumarray(colIdx,values,[],@prod)
``````

Some alternatives (that might be less efficient; you may want to profile them)

``````%# simply set the zero-elements to 1, then apply prod
%# may lead to memory issues
s(s==0) = 1;
product = prod(s,1);
``````

.

``````%# do "manual" accumarray
[rowIdx,colIdx,values] = find(s);

product = zeros(1,size(s,2));
uCols = unique(colIdx);

for col = uCols(:)'
product(col) = prod(values(colIdx==col));
end
``````
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Thank you, I didn't know about accumarray. Do you know if there's any way that doesn't involve function passing? –  dspyz Apr 7 '13 at 1:31
@dspyz: what do you mean with "function passing"? –  Jonas Apr 7 '13 at 1:57
@dspyz Assuming that when you say "avoid function passing" you are referring to the `@prod` argument to `accumarray` - that is how `accumarray` knows which function to apply to the array. It is the typical, intended syntax. Why do you want to avoid it? –  tmpearce Apr 7 '13 at 2:28
Just because it limits the efficiency. Ideally, I'm looking for an approach that only invokes compiled code. It's the same reason you would just use sum rather than accumarray(... @sum) –  dspyz Apr 7 '13 at 2:43
@dspyz: I have added two additional solutions. They may (or not) be more efficient. –  Jonas Apr 7 '13 at 2:58

I found an alternative approach to solving this, but it may be slower and not quite as precise in the worst-case:

Simply take the log of all the nonzero elements and then sum the columns. Then take the exp of the resulting vector:

``````function [r] = prodnz(m)
nzinds = find(m != 0);
vals = full(m(nzinds));
vals = log(vals);
m(nzinds) = vals;
s = full(sum(m));
r = exp(s);
endfunction
``````
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