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When trying to directly set the data attribute of a sparse lil_matrix, I encounter very unexpected behavior. Can someone explain what is going on in the following simple example?

My particular use case is I want to set the row modulo 2; i.e. in dense-matrix-speak I just want to do matrix[0] %= 2.

from scipy import sparse
import numpy as np
np.random.seed(0)

matrix = sparse.rand(10**3,10**3).tolil()
num_entries = len(matrix[0].data[0])
print num_entries
# 9

# this throws no errors...
matrix[0].data[0] = [2]*num_entries
# but does nothing!

assert (np.array(matrix[0].data) == 2).all() # FAILS

# in fact nothing can be done to alter .data directly...
matrix[0].data[0].pop() # returns the last float from the row
# but does not actually pop it from the row!
assert (len(matrix[0].data[0]) == num_entries-1) # FAILS
  • What's the value of num_entries? I'm guessing 0. matrix.data is a list of lists, and matrix.data[0] is the first of those. It could well be empty. – hpaulj Aug 28 '14 at 19:58
  • I added it in the code above -- but num_entries is 9. matrix.data is actually a numpy.array of python objects which are lists. – gabe Aug 28 '14 at 20:07
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    So matrix[i].data[0] == matrix.data[i] is true for all i, but same is not true when compared with the is operator. – hpaulj Aug 28 '14 at 22:08
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I'm not quite sure what kind of object matrix[0] is, but I think you mean to drop the indexing on matrix and only keep it on data:

num_entries = len(matrix.data[0])
matrix.data[0] = [2]*num_entries
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    This solved it, thanks! I think the reason is that matrix[0] is actually making a copy of the first row and putting it in a new matrix. So when I was setting that data, I wasn't setting matrix. – gabe Aug 28 '14 at 18:37
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@vlsd found the bug, but I'm adding this to say more.

The issue with the code I posted is that I assign (throughout) to matrix[0].data. The problem is that matrix[0] doesn't work the same as dense-arrays; it's not simply pointing to the same object, but making a new object (I think). So assigning data to this new object is fine, but it just doesn't affect matrix. That's the problem.

So the following code works fine:

matrix.data[0] = [2]*num_entries
assert (np.array(matrix.data[0]) == 2).all() # passes
matrix.data[0].pop()
assert (len(matrix.data[0]) == num_entries-1) # passes

NB That popping from the list is generally a bad idea as this probably ruins the integrity of the sparse-matrix. But this was just to demo. And it now makes sense.

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