# How to access sparse matrix elements?

``````type(A)
<class 'scipy.sparse.csc.csc_matrix'>
A.shape
(8529, 60877)
print A[0,:]
(0, 25)   1.0
(0, 7422) 1.0
(0, 26062)    1.0
(0, 31804)    1.0
(0, 41602)    1.0
(0, 43791)    1.0
print A[1,:]
(0, 7044) 1.0
(0, 31418)    1.0
(0, 42341)    1.0
(0, 47125)    1.0
(0, 54376)    1.0
print A[:,0]
#nothing returned
``````

Now what I don't understand is that `A[1,:]` should select elements from the 2nd row, yet I get elements from the 1st row via `print A[1,:]`. Also, `print A[:,0]` should return the first column but I get nothing printed. Why?

`A[1,:]` is itself a sparse matrix with shape (1, 60877). This is what you are printing, and it has only one row, so all the row coordinates are 0.

For example:

``````In : a = csc_matrix([[1, 0, 0, 0], [0, 0, 10, 11], [0, 0, 0, 99]])

In : a.todense()
Out:
matrix([[ 1,  0,  0,  0],
[ 0,  0, 10, 11],
[ 0,  0,  0, 99]], dtype=int64)

In : print(a[1, :])
(0, 2)    10
(0, 3)    11

In : print(a)
(0, 0)    1
(1, 2)    10
(1, 3)    11
(2, 3)    99

In : print(a[1, :].toarray())
[[ 0  0 10 11]]
``````

You can select columns, but if there are no nonzero elements in the column, nothing is displayed when it is output with `print`:

``````In : a[:, 3].toarray()
Out:
array([[ 0],
,
])

In : print(a[:,3])
(1, 0)    11
(2, 0)    99

In : a[:, 1].toarray()
Out:
array([,
,
])

In : print(a[:, 1])

In :
``````

The last `print` call shows no output because the column `a[:, 1]` has no nonzero elements.

• is it not possible to select columns? Feb 27, 2013 at 16:32
• @bizso09: Yes. But if there are no nonzero values in the column `A[:,0]`, the print statement doesn't print anything. I'll add an example to my answer. Feb 27, 2013 at 16:35

`csc_matrix` gives you the method `.nonzero()`.

Given:

``````>>> import numpy as np
>>> from scipy.sparse.csc import csc_matrix
>>>
>>> row = np.array( [0, 1, 3])
>>> col = np.array( [0, 2, 3])
>>> data = np.array([1, 4, 16])
>>> A = csc_matrix((data, (row, col)), shape=(4, 4))
``````

You can access the indices poniting to non-zero data by:

``````>>> rows, cols = A.nonzero()
>>> rows
array([0, 1, 3], dtype=int32)
>>> cols
array([0, 2, 3], dtype=int32)
``````

Which you can then use to access your data, without ever needing to make a dense version of your sparse matrix:

``````>>> [((i, j), A[i,j]) for i, j in zip(*A.nonzero())]
[((0, 0), 1), ((1, 2), 4), ((3, 3), 16)]
``````
• Thank you, latest information is really useful. Dec 15, 2021 at 14:02

If it is for calculating TFIDF score using `TfidfTransformer`, yu can get the IDF by `tfidf.idf_`. Then the sparse array name, say 'a', `a.toarray().`

`toarray` returns an ndarray; `todense` returns a matrix. If you want a matrix, use `todense`; otherwise, use `toarray`.

I fully acknowledge all the other given answers. This is simply a different approach.

To demonstrate this example I am creating a new sparse matrix:

``````from scipy.sparse.csc import csc_matrix
a = csc_matrix([[1, 0, 0, 0], [0, 0, 10, 11], [0, 0, 0, 99]])
print(a)
``````

Output:

``````(0, 0)  1
(1, 2)  10
(1, 3)  11
(2, 3)  99
``````

To access this easily, like the way we access a list, I converted it into a list.

``````temp_list = []
for i in a:
temp_list.append(list(i.A))

print(temp_list)
``````

Output:

``````[[1, 0, 0, 0], [0, 0, 10, 11], [0, 0, 0, 99]]
``````

This might look stupid, since I am creating a sparse matrix and converting it back, but there are some functions like TfidfVectorizer and others that return a sparse matrix as output and handling them can be tricky. This is one way to extract data out of a sparse matrix.