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# Scipy sparse triangular matrix?

I am using Scipy to construct a large, sparse (250k X 250k) co-occurrence matrix using `scipy.sparse.lil_matrix`. Co-occurrence matrices are triangular; that is, M[i,j] == M[j,i]. Since it would be highly inefficient (and in my case, impossible) to store all the data twice, I'm currently storing data at the coordinate (i,j) where i is always smaller than j. So in other words, I have a value stored at (2,3) and no value stored at (3,2), even though (3,2) in my model should be equal to (2,3). (See the matrix below for an example)

My problem is that I need to be able to randomly extract the data corresponding to a given index, but, at least the way, I'm currently doing it, half the data is in the row and half is in the column, like so:

``````M =
[1 2 3 4
0 5 6 7
0 0 8 9
0 0 0 10]
``````

So, given the above matrix, I want to be able to do a query like `M[1]`, and get back `[2,5,6,7]`. I have two questions:

1) Is there a more efficient (preferably built-in) way to do this than first querying the row, and then the column, and then concatenating the two? This is bad because whether I use CSC (column-based) or CSR (row-based) internal representation, one of the two queries is highly inefficient.

2) Am I even using the right part of Scipy? I have seen a few functions in the Scipy library that mention triangular matrices, but they seem to revolve around getting triangular matrices from a full matrix. In my case, (I think) I already have a triangular matrix, and want to manipulate it.

Many thanks.

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it's called triangular upper packed storage fiy. I do not think there are efficient ways to get entire column or row from triangular matrix. – Anycorn Jun 24 '10 at 4:44
`M[i, j]==M[j, i]` means that the matrix is symmetrical, not triangular. – EOL Jun 24 '10 at 7:50
@EOL Good point. Although according to the Wikipedia definition, this matrix is (upper) triangular too. – gilesc Jun 24 '10 at 11:16
For your information: upper triangular is different from symmetrical: it means `M[i, j<i] == 0`, i.e. that the matrix has zeros in the lower left triangle… There are examples in the Wikipedia page on "Upper triangular" matrices. – EOL Jun 25 '10 at 7:13