76

How do you save/load a scipy sparse csr_matrix in a portable format? The scipy sparse matrix is created on Python 3 (Windows 64-bit) to run on Python 2 (Linux 64-bit). Initially, I used pickle (with protocol=2 and fix_imports=True) but this didn't work going from Python 3.2.2 (Windows 64-bit) to Python 2.7.2 (Windows 32-bit) and got the error:

TypeError: ('data type not understood', <built-in function _reconstruct>, (<type 'numpy.ndarray'>, (0,), '[98]')).

Next, tried numpy.save and numpy.load as well as scipy.io.mmwrite() and scipy.io.mmread() and none of these methods worked either.

  • 2
    mmwrite/mmread should work, as it's a text file format. the possible issue with Linux vs. Windows may be the line endings, CRLF vs LF – pv. Jan 22 '12 at 16:42

10 Answers 10

107

edit: SciPy 1.19 now has scipy.sparse.save_npz and scipy.sparse.load_npz.

from scipy import sparse

sparse.save_npz("yourmatrix.npz", your_matrix)
your_matrix_back = sparse.load_npz("yourmatrix.npz")

For both functions, the file argument may also be a file-like object (i.e. the result of open) instead of a filename.


Got an answer from the Scipy user group:

A csr_matrix has 3 data attributes that matter: .data, .indices, and .indptr. All are simple ndarrays, so numpy.save will work on them. Save the three arrays with numpy.save or numpy.savez, load them back with numpy.load, and then recreate the sparse matrix object with:

new_csr = csr_matrix((data, indices, indptr), shape=(M, N))

So for example:

def save_sparse_csr(filename, array):
    np.savez(filename, data=array.data, indices=array.indices,
             indptr=array.indptr, shape=array.shape)

def load_sparse_csr(filename):
    loader = np.load(filename)
    return csr_matrix((loader['data'], loader['indices'], loader['indptr']),
                      shape=loader['shape'])
  • 3
    Any idea if there some reason this was not implemented as a method in the sparse matrix objects? The scipy.io.savemat method seems to work reliably enough though ... – mathtick Mar 27 '13 at 15:11
  • 6
    Note: If filename in save_sparse_csr does not have extension .npz, this will be added automatically. This is not automatically done in the load_sparse_csr function. – physicalattraction Jul 9 '14 at 14:41
  • @physicalattraction an easy solution is to add this at the beginning of the loader function if not filename.endswith('.npz'): filename += '.npz' – Alexander Shchur Mar 15 '17 at 12:47
  • 11
    Scipy 1.19 now has scipy.sparse.save_npz and load. – hpaulj Mar 25 '17 at 18:05
  • 3
    @hpaulj It might be useful to new users to correct answer: the version is scipy 0.19 – P. Camilleri Apr 21 '17 at 13:58
36

Though you write, scipy.io.mmwrite and scipy.io.mmread don't work for you, I just want to add how they work. This question is the no. 1 Google hit, so I myself started with np.savez and pickle.dump before switching to the simple and obvious scipy-functions. They work for me and shouldn't be overseen by those who didn't tried them yet.

from scipy import sparse, io

m = sparse.csr_matrix([[0,0,0],[1,0,0],[0,1,0]])
m              # <3x3 sparse matrix of type '<type 'numpy.int64'>' with 2 stored elements in Compressed Sparse Row format>

io.mmwrite("test.mtx", m)
del m

newm = io.mmread("test.mtx")
newm           # <3x3 sparse matrix of type '<type 'numpy.int32'>' with 2 stored elements in COOrdinate format>
newm.tocsr()   # <3x3 sparse matrix of type '<type 'numpy.int32'>' with 2 stored elements in Compressed Sparse Row format>
newm.toarray() # array([[0, 0, 0], [1, 0, 0], [0, 1, 0]], dtype=int32)
  • Is this the latest solution compared to other answers? – dineshdileep Sep 22 '15 at 3:57
  • Yes, currently it is the latest one. You can order the answers by the time of time of creation by clicking on oldest in the tab below the question. – Frank Zalkow Sep 22 '15 at 14:47
  • This method fails when only writing import scipy. An explicit from scipy import io or import scipy.io is needed. – blootsvoets Oct 27 '15 at 17:04
  • This seems to work much slower than the np.savez and cPickle solutions, and produce ~3x bigger file. Please see my answer for the test details. – Dennis Golomazov Mar 9 '17 at 19:37
25

Here is performance comparison of the three most upvoted answers using Jupyter notebook. The input is a 1M x 100K random sparse matrix with density 0.001, containing 100M non-zero values:

from scipy.sparse import random
matrix = random(1000000, 100000, density=0.001, format='csr')

matrix
<1000000x100000 sparse matrix of type '<type 'numpy.float64'>'
with 100000000 stored elements in Compressed Sparse Row format>

io.mmwrite / io.mmread

from scipy.sparse import io

%time io.mmwrite('test_io.mtx', matrix)
CPU times: user 4min 37s, sys: 2.37 s, total: 4min 39s
Wall time: 4min 39s

%time matrix = io.mmread('test_io.mtx')
CPU times: user 2min 41s, sys: 1.63 s, total: 2min 43s
Wall time: 2min 43s    

matrix
<1000000x100000 sparse matrix of type '<type 'numpy.float64'>'
with 100000000 stored elements in COOrdinate format>    

Filesize: 3.0G.

(note that the format has been changed from csr to coo).

np.savez / np.load

import numpy as np
from scipy.sparse import csr_matrix

def save_sparse_csr(filename, array):
    # note that .npz extension is added automatically
    np.savez(filename, data=array.data, indices=array.indices,
             indptr=array.indptr, shape=array.shape)

def load_sparse_csr(filename):
    # here we need to add .npz extension manually
    loader = np.load(filename + '.npz')
    return csr_matrix((loader['data'], loader['indices'], loader['indptr']),
                      shape=loader['shape'])


%time save_sparse_csr('test_savez', matrix)
CPU times: user 1.26 s, sys: 1.48 s, total: 2.74 s
Wall time: 2.74 s    

%time matrix = load_sparse_csr('test_savez')
CPU times: user 1.18 s, sys: 548 ms, total: 1.73 s
Wall time: 1.73 s

matrix
<1000000x100000 sparse matrix of type '<type 'numpy.float64'>'
with 100000000 stored elements in Compressed Sparse Row format>

Filesize: 1.1G.

cPickle

import cPickle as pickle

def save_pickle(matrix, filename):
    with open(filename, 'wb') as outfile:
        pickle.dump(matrix, outfile, pickle.HIGHEST_PROTOCOL)
def load_pickle(filename):
    with open(filename, 'rb') as infile:
        matrix = pickle.load(infile)    
    return matrix    

%time save_pickle(matrix, 'test_pickle.mtx')
CPU times: user 260 ms, sys: 888 ms, total: 1.15 s
Wall time: 1.15 s    

%time matrix = load_pickle('test_pickle.mtx')
CPU times: user 376 ms, sys: 988 ms, total: 1.36 s
Wall time: 1.37 s    

matrix
<1000000x100000 sparse matrix of type '<type 'numpy.float64'>'
with 100000000 stored elements in Compressed Sparse Row format>

Filesize: 1.1G.

Note: cPickle does not work with very large objects (see this answer). In my experience, it didn't work for a 2.7M x 50k matrix with 270M non-zero values. np.savez solution worked well.

Conclusion

(based on this simple test for CSR matrices) cPickle is the fastest method, but it doesn't work with very large matrices, np.savez is only slightly slower, while io.mmwrite is much slower, produces bigger file and restores to the wrong format. So np.savez is the winner here.

  • 2
    Thanks! Just a note that at least for me (Py 2.7.11) the line from scipy.sparse import io does not work. Instead, just do from scipy import io. Docs – patrick Jun 14 '17 at 15:15
  • 1
    @patrick thanks for the update. The import change must have been done in scipy. – Dennis Golomazov Jun 14 '17 at 18:50
16

Now you can use scipy.sparse.save_npz : https://docs.scipy.org/doc/scipy/reference/generated/scipy.sparse.save_npz.html

11

Assuming you have scipy on both machines, you can just use pickle.

However, be sure to specify a binary protocol when pickling numpy arrays. Otherwise you'll wind up with a huge file.

At any rate, you should be able to do this:

import cPickle as pickle
import numpy as np
import scipy.sparse

# Just for testing, let's make a dense array and convert it to a csr_matrix
x = np.random.random((10,10))
x = scipy.sparse.csr_matrix(x)

with open('test_sparse_array.dat', 'wb') as outfile:
    pickle.dump(x, outfile, pickle.HIGHEST_PROTOCOL)

You can then load it with:

import cPickle as pickle

with open('test_sparse_array.dat', 'rb') as infile:
    x = pickle.load(infile)
  • using pickle was my original solution (with protocol=2 and fix_imports=True) but it didn't work going from Python 3.2.2 to Python 2.7.2. Have added this info to question. – Henry Thornton Jan 22 '12 at 0:22
  • Please note that, although this seems to be the fastest solution (according to the simple test in my answer), cPickle does not work with very large matrices (link). – Dennis Golomazov Mar 9 '17 at 19:40
9

As of scipy 0.19.0, you can save and load sparse matrices this way:

from scipy import sparse

data = sparse.csr_matrix((3, 4))

#Save
sparse.save_npz('data_sparse.npz', data)

#Load
data = sparse.load_npz("data_sparse.npz")
2

EDIT Apparently it is simple enough to:

def sparse_matrix_tuples(m):
    yield from m.todok().items()

Which will yield a ((i, j), value) tuples, which are easy to serialize and deserialize. Not sure how it compares performance-wise with the code below for csr_matrix, but it's definitely simpler. I'm leaving the original answer below as I hope it's informative.


Adding my two cents: for me, npz is not portable as I can't use it to export my matrix easily to non-Python clients (e.g. PostgreSQL -- glad to be corrected). So I would have liked to get CSV output for the sparse matrix (much like you would get it you print() the sparse matrix). How to achieve this depends on the representation of the sparse matrix. For a CSR matrix, the following code spits out CSV output. You can adapt for other representations.

import numpy as np

def csr_matrix_tuples(m):
    # not using unique will lag on empty elements
    uindptr, uindptr_i = np.unique(m.indptr, return_index=True)
    for i, (start_index, end_index) in zip(uindptr_i, zip(uindptr[:-1], uindptr[1:])):
        for j, data in zip(m.indices[start_index:end_index], m.data[start_index:end_index]):
            yield (i, j, data)

for i, j, data in csr_matrix_tuples(my_csr_matrix):
    print(i, j, data, sep=',')

It's about 2 times slower than save_npz in the current implementation, from what I've tested.

1

This is what I used to save a lil_matrix.

import numpy as np
from scipy.sparse import lil_matrix

def save_sparse_lil(filename, array):
    # use np.savez_compressed(..) for compression
    np.savez(filename, dtype=array.dtype.str, data=array.data,
        rows=array.rows, shape=array.shape)

def load_sparse_lil(filename):
    loader = np.load(filename)
    result = lil_matrix(tuple(loader["shape"]), dtype=str(loader["dtype"]))
    result.data = loader["data"]
    result.rows = loader["rows"]
    return result

I must say I found NumPy's np.load(..) to be very slow. This is my current solution, I feel runs much faster:

from scipy.sparse import lil_matrix
import numpy as np
import json

def lil_matrix_to_dict(myarray):
    result = {
        "dtype": myarray.dtype.str,
        "shape": myarray.shape,
        "data":  myarray.data,
        "rows":  myarray.rows
    }
    return result

def lil_matrix_from_dict(mydict):
    result = lil_matrix(tuple(mydict["shape"]), dtype=mydict["dtype"])
    result.data = np.array(mydict["data"])
    result.rows = np.array(mydict["rows"])
    return result

def load_lil_matrix(filename):
    result = None
    with open(filename, "r", encoding="utf-8") as infile:
        mydict = json.load(infile)
        result = lil_matrix_from_dict(mydict)
    return result

def save_lil_matrix(filename, myarray):
    with open(filename, "w", encoding="utf-8") as outfile:
        mydict = lil_matrix_to_dict(myarray)
        json.dump(mydict, outfile)
0

I was asked to send the matrix in a simple and generic format:

<x,y,value>

I ended up with this:

def save_sparse_matrix(m,filename):
    thefile = open(filename, 'w')
    nonZeros = np.array(m.nonzero())
    for entry in range(nonZeros.shape[1]):
        thefile.write("%s,%s,%s\n" % (nonZeros[0, entry], nonZeros[1, entry], m[nonZeros[0, entry], nonZeros[1, entry]]))
0

This works for me:

import numpy as np
import scipy.sparse as sp
x = sp.csr_matrix([1,2,3])
y = sp.csr_matrix([2,3,4])
np.savez(file, x=x, y=y)
npz = np.load(file)

>>> npz['x'].tolist()
<1x3 sparse matrix of type '<class 'numpy.int64'>'
    with 3 stored elements in Compressed Sparse Row format>

>>> npz['x'].tolist().toarray()
array([[1, 2, 3]], dtype=int64)

The trick was to call .tolist() to convert the shape 0 object array to the original object.

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