Manipulating sparse matrices in Matlab

Suppose I have a sparse matrix `Sparstica` that is a vertical concatenation of several other sparse matrices. When I type `Sparstica(:)`, I get a list of the nonzero elements. In the left column, will be the index of the element, in the right column will be the nonzero element.

How can I manipulate the i-th and j-th non-zero element of every other sparse block matrix in the middle `n-2` blocks (`n` sparse block matrices in total)?

Appended: To clarify what I mean by the i-th and j-th element of every other sparse matrix, suppose I have

Sparstica = [A_1; A_2; A_3; ... ; A_n]

This was created from `vertcat`. Now I need to take the i-th and j-th, say the 3rd and 5th, nonzero element of every other sparse matrix from `A_2` to `A_{N-1}` (I know the notation for this actually isn't allowed, but just for demonstrative purposes). I'd like to accomplish this without using for-loops if possible.

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How large is `n` in your case? And have you checked that using `for`-loops is definitely too slow? –  Florian Brucker Mar 15 '13 at 6:56
mathworks.com/help/matlab/math/… ctrl+f "exacerbate the inefficiency". For my purposes `n` can reach upwards of 2^15 or so. I forget what the upper limit is that Matlab can handle on my machine. –  AlanH Mar 15 '13 at 7:18

You can find the non-zero elements using `find`:

``````>> A = speye(3)

A =

(1,1)        1
(2,2)        1
(3,3)        1

>> I = find(A ~= 0)

I =

1
5
9
``````

If you need the indices in row/column format, use `ind2sub`:

``````>> [X, Y] = ind2sub(size(A), I)

X =

1
2
3

Y =

1
2
3
``````
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Do you know how I could manipulate the same i-th and j-th element of every other sparse matrix without using a for loop? –  AlanH Mar 14 '13 at 7:36
Can you clearify what you mean with "the same i-th and j-th element of every other sparse matrix"? –  Florian Brucker Mar 14 '13 at 7:49
Sure, see post. –  AlanH Mar 14 '13 at 19:32
I thought about this for a bit, but I couldn't come up with something that doesn't use `for` loops. If this is critical for your code and if standard MATLAB `for` loops are too slow then I suggest either performing these operations before the big sparse matrix is assembled or using a MEX-function to perform the looping. –  Florian Brucker Mar 18 '13 at 7:59
Side note on `find`: requesting two outputs yields row-column directly, e.g., `[X,Y]=find(A)` yields `X=[1;2;3],Y=[1;2;3]` in place of `ind2sub(size(A),find(A))`. Third output gives you value also; see MATLAB or GNU Octave docs for more. –  hoc_age Jun 26 '14 at 14:01