# In SciPy, using ix_() with sparse matrices doesn't seem to work so what else can I use?

In Numpy, ix_() is used to grab rows and columns of a matrix, but it doesn't seem to work with sparse matrices. For instance, this code works because it uses a dense matrix:

``````>>> import numpy as np
>>> x = np.mat([[1,0,3],[0,4,5],[7,8,0]])
>>> print x
[[1 0 3]
[0 4 5]
[7 8 0]]
>>> print x[np.ix_([0,2],[0,2])]
[[1 3]
[7 0]]
``````

I used ix_() to index the elements corresponding with the 0th and 2nd rows and columns which gives the 4 corners of the matrix.

The problem is that ix_ doesn't seem to work with sparse matrices. Continuing from the previous code, I try the following:

``````>>> import scipy.sparse as sparse
>>> xspar = sparse.csr_matrix(x)
>>> print xspar
(0, 0) 1
(0, 2) 3
(1, 1) 4
(1, 2) 5
(2, 0) 7
(2, 1) 8
>>> print xspar[np.ix_([0,2],[0,2])]
``````

and get a huge error message saying there is this exception:

``````  File "C:\Python26\lib\site-packages\scipy\sparse\compressed.py", line 138, in check_format
raise ValueError('data, indices, and indptr should be rank 1')
ValueError: data, indices, and indptr should be rank 1
``````

I have tried this with the other sparse matrix formats provided by SciPy, but none of them seem to work with ix_() though they don't all raise the same exception.

The example I gave used a matrix that wasn't very big or very sparse, but the ones I am dealing with are quite sparse and potentially very large so it doesn't seem prudent to just list off the elements one by one.

Does anyone know a (hopefully easy) way to do this sort of indexing with sparse matrices in SciPy or is this feature just not built into these sparse matrices?

-

``````>>> print xspar
(0, 0) 1
(0, 2) 3
(1, 1) 4
(1, 2) 5
(2, 0) 7
(2, 1) 8
>>> print xspar[[[0],[2]],[0,2]]
(0, 0) 1
(0, 2) 3
(2, 0) 7
``````

Note the difference with this:

``````>>> print xspar[[0,2],[0,2]]
[[1 0]]
``````
-
Works like a charm, thanks! Though it appears to work for csc and csr matrices, but not lil matrices - that's enough for me. –  Justin Peel Feb 25 '10 at 23:43
You're welcome! –  Steve Tjoa Feb 25 '10 at 23:51
It's a shame that the sparse syntax for slicing differs ever so slightly from the dense syntax. `xspar[[[0],[2]],[0,2]]` vs `xdense[[[0],[2]],[[0,2]]]` –  gabe Jan 11 '13 at 18:28
How can this be generalized to an arbitrary series of indices? E.g. if one would use `np.ix_(A,B)` for `np.arrays` A and B? –  zhermes Apr 23 '13 at 4:41
scipy 1.3 has improved the advanced indexing of sparse matricies. –  hpaulj Nov 26 '13 at 5:50
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