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I'm wondering what the best way is to iterate nonzero entries of sparse matrices with scipy.sparse. For example, if I do the following:

from scipy.sparse import lil_matrix

x = lil_matrix( (20,1) )
x[13,0] = 1
x[15,0] = 2

c = 0
for i in x:
  print c, i
  c = c+1

the output is

13   (0, 0) 1.0
15   (0, 0) 2.0

so it appears the iterator is touching every element, not just the nonzero entries. I've had a look at the API


and searched around a bit, but I can't seem to find a solution that works.

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up vote 33 down vote accepted

Edit: bbtrb's method (using coo_matrix) is much faster than my original suggestion, using nonzero. Sven Marnach's suggestion to use itertools.izip also improves the speed. Current fastest is using_tocoo_izip:

import scipy.sparse
import random
import itertools

def using_nonzero(x):
    rows,cols = x.nonzero()
    for row,col in zip(rows,cols):
        ((row,col), x[row,col])

def using_coo(x):
    cx = scipy.sparse.coo_matrix(x)    
    for i,j,v in zip(cx.row, cx.col, cx.data):

def using_tocoo(x):
    cx = x.tocoo()    
    for i,j,v in zip(cx.row, cx.col, cx.data):

def using_tocoo_izip(x):
    cx = x.tocoo()    
    for i,j,v in itertools.izip(cx.row, cx.col, cx.data):

x = scipy.sparse.lil_matrix( (N,N) )
for _ in xrange(N):

yields these timeit results:

% python -mtimeit -s'import test' 'test.using_tocoo_izip(test.x)'
1000 loops, best of 3: 670 usec per loop
% python -mtimeit -s'import test' 'test.using_tocoo(test.x)'
1000 loops, best of 3: 706 usec per loop
% python -mtimeit -s'import test' 'test.using_coo(test.x)'
1000 loops, best of 3: 802 usec per loop
% python -mtimeit -s'import test' 'test.using_nonzero(test.x)'
100 loops, best of 3: 5.25 msec per loop
share|improve this answer
Obviously it's better. – Kabie Nov 30 '10 at 21:59
How about using izip() instead of zip()? Should be faster for big matrices. – Sven Marnach Dec 1 '10 at 12:47
@Sven Marnach: Thanks; indeed that is faster. – unutbu Dec 1 '10 at 13:44
nice, didn't know about izip(). Actually I'm a bit surprised that tocoo() is faster than the coo_matrix() constructor... – bbtrb Dec 1 '10 at 14:43
The main point here is to use tocoo, but I strongly recommend no to iterate! All of x.row, x.col and x.data are numpy arrays which can be use as is in most cases. Simple example, setting matrix element value to the product of their indices: x.data[:] = x.col*x.row – Juh_ Mar 13 '13 at 12:14

The fastest way should be by converting to a coo_matrix:

cx = scipy.sparse.coo_matrix(x)

for i,j,v in zip(cx.row, cx.col, cx.data):
    print "(%d, %d), %s" % (i,j,v)
share|improve this answer
+1. You're right; for larger matrices this is much faster. – unutbu Dec 1 '10 at 3:27
Is it faster to convert and then iterate, or is this assuming that I can change to work with coo_matrix? – RandomGuy Dec 1 '10 at 16:16
@scandido: this depends on what you are going to achieve. coo_matrix is a very simple format and very fast to construct and access but might be ill-suited for other tasks. Here's an overview over the different matrix formats scipy.org/SciPyPackages/Sparse and especially section "constructing from scratch faster, with coo_matrix" – bbtrb Dec 1 '10 at 16:46

I had the same problem and actually, if your concern is only speed, the fastest way (more than 1 order of magnitude faster) is to convert the sparse matrix to a dense one (x.todense()), and iterating over the nonzero elements in the dense matrix. (Though, of course, this approach requires a lot more memory)

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Are you proposing using dense matrices all the time, or converting to dense and then iterating? I can't imagine the latter would be faster. But, of course using a dense matrix will be much, much faster if you have enough memory. – RandomGuy Dec 29 '10 at 16:58
I guess it depends on the scenario, and the kind of data. I've been doing some prophiling on a script that iterates on matrices containing at least 50-100M boolean elements. When iterating, converting to dense and then iterating requires way less time than iterating using the 'best solution' from unutbu's answer. But of course the memory usage increases A LOT. – Davide C Dec 29 '10 at 23:56

Try filter(lambda x:x, x) instead of x.

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tocoo() materializes the entire matrix into a different structure, which is not the preferred MO for python 3. You can also consider this iterator, which is especially useful for large matrices.

from itertools import chain, repeat
def iter_csr(matrix):
  for (row, col, val) in zip(
          repeat(i, r)
          for (i,r) in enumerate(comparisons.indptr[1:] - comparisons.indptr[:-1])
    yield (row, col, val)

I have to admit that I'm using a lot of python-constructs which possibly should be replaced by numpy-constructs (especially enumerate).


In [43]: t=time.time(); sum(1 for x in rather_dense_sparse_matrix.data); print(time.time()-t)
In [44]: t=time.time(); sum(1 for x in enumerate(rather_dense_sparse_matrix.data)); print(time.time()-t)
In [45]: rather_dense_sparse_matrix
<99829x99829 sparse matrix of type '<class 'numpy.float16'>'
with 757622819 stored elements in Compressed Sparse Row format>

So yes, enumerate is somewhat slow(ish)

For the iterator:

In [47]: it = iter_csr(rather_dense_sparse_matrix)
In [48]: t=time.time(); sum(1 for x in it); print(time.time()-t)
113.something something

So you decide whether this overhead is acceptable, in my case the tocoo caused MemoryOverflows's.

IMHO: such an iterator should be part of the csr_matrix interface, similar to items() in a dict() :)

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