By representing the entries in a 3 column format, aka a coordinate list (i, j, value), you can simply select the items from the list. To get this, you can either use your original method for creating the sparse matrix (i.e. the precursor to `sparse()`

), or use the `find`

command, a la `[i,j,s] = find(S);`

If you don't need the entries, and it seems you don't, you can just extract `i`

and `j`

.

If, for some reason, your matrix is massive and your RAM limitations are severe, you can simply divide the matrix into regions, and let the probability of selecting a given sub-matrix be proportional to the number of non-zero elements (using `nnz`

) in that sub-matrix. You could go so far as to divide the matrix into individual columns, and the rest of the calculation is trivial. NB: by applying `sum`

to the matrix, you can get the per-column counts (assuming your entries are just 1s).

In this way, you need not even bother with rejection sampling (which seems pointless to me in this case, since Matlab knows where all of the non-zero entries are).

`nonzeros`

should be slightly more memory efficient than`find`

, since you don't store the row and column indicies. – Richie Cotton Feb 15 '12 at 10:57