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100 lines
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Python

from __future__ import division, print_function, absolute_import
from numpy import array, kron, matrix, diag
from numpy.testing import assert_, assert_equal
from scipy.sparse import spfuncs
from scipy.sparse import csr_matrix, csc_matrix, bsr_matrix
from scipy.sparse._sparsetools import (csr_scale_rows, csr_scale_columns,
bsr_scale_rows, bsr_scale_columns)
class TestSparseFunctions(object):
def test_scale_rows_and_cols(self):
D = matrix([[1,0,0,2,3],
[0,4,0,5,0],
[0,0,6,7,0]])
#TODO expose through function
S = csr_matrix(D)
v = array([1,2,3])
csr_scale_rows(3,5,S.indptr,S.indices,S.data,v)
assert_equal(S.todense(), diag(v)*D)
S = csr_matrix(D)
v = array([1,2,3,4,5])
csr_scale_columns(3,5,S.indptr,S.indices,S.data,v)
assert_equal(S.todense(), D*diag(v))
# blocks
E = kron(D,[[1,2],[3,4]])
S = bsr_matrix(E,blocksize=(2,2))
v = array([1,2,3,4,5,6])
bsr_scale_rows(3,5,2,2,S.indptr,S.indices,S.data,v)
assert_equal(S.todense(), diag(v)*E)
S = bsr_matrix(E,blocksize=(2,2))
v = array([1,2,3,4,5,6,7,8,9,10])
bsr_scale_columns(3,5,2,2,S.indptr,S.indices,S.data,v)
assert_equal(S.todense(), E*diag(v))
E = kron(D,[[1,2,3],[4,5,6]])
S = bsr_matrix(E,blocksize=(2,3))
v = array([1,2,3,4,5,6])
bsr_scale_rows(3,5,2,3,S.indptr,S.indices,S.data,v)
assert_equal(S.todense(), diag(v)*E)
S = bsr_matrix(E,blocksize=(2,3))
v = array([1,2,3,4,5,6,7,8,9,10,11,12,13,14,15])
bsr_scale_columns(3,5,2,3,S.indptr,S.indices,S.data,v)
assert_equal(S.todense(), E*diag(v))
def test_estimate_blocksize(self):
mats = []
mats.append([[0,1],[1,0]])
mats.append([[1,1,0],[0,0,1],[1,0,1]])
mats.append([[0],[0],[1]])
mats = [array(x) for x in mats]
blks = []
blks.append([[1]])
blks.append([[1,1],[1,1]])
blks.append([[1,1],[0,1]])
blks.append([[1,1,0],[1,0,1],[1,1,1]])
blks = [array(x) for x in blks]
for A in mats:
for B in blks:
X = kron(A,B)
r,c = spfuncs.estimate_blocksize(X)
assert_(r >= B.shape[0])
assert_(c >= B.shape[1])
def test_count_blocks(self):
def gold(A,bs):
R,C = bs
I,J = A.nonzero()
return len(set(zip(I//R,J//C)))
mats = []
mats.append([[0]])
mats.append([[1]])
mats.append([[1,0]])
mats.append([[1,1]])
mats.append([[0,1],[1,0]])
mats.append([[1,1,0],[0,0,1],[1,0,1]])
mats.append([[0],[0],[1]])
for A in mats:
for B in mats:
X = kron(A,B)
Y = csr_matrix(X)
for R in range(1,6):
for C in range(1,6):
assert_equal(spfuncs.count_blocks(Y, (R, C)), gold(X, (R, C)))
X = kron([[1,1,0],[0,0,1],[1,0,1]],[[1,1]])
Y = csc_matrix(X)
assert_equal(spfuncs.count_blocks(X, (1, 2)), gold(X, (1, 2)))
assert_equal(spfuncs.count_blocks(Y, (1, 2)), gold(X, (1, 2)))