Exemplo n.º 1
0
 def test_add_supernode_similar_output_to_naive_small(self):
     G = nx.erdos_renyi_graph(10, 0.5)
     G2 = graphpca.reduce_graph_efficiently(G, 2, add_supernode=True)
     G2n = graphpca.reduce_graph_naively(G, 2)
     self.assertTrue(
         np.allclose(G2, G2n, rtol=1e-02, atol=1e-06),
         'Regular result:\n{}\nNaive result:\n{}\n'.format(G2, G2n))
Exemplo n.º 2
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 def test_add_supernode_similar_output_to_naive_big(self):
     G = nx.watts_strogatz_graph(1001, 10, 0.05)
     G2 = graphpca.reduce_graph_efficiently(G, 2, add_supernode=True)
     G2n = graphpca.reduce_graph_naively(G, 2)
     self.assertTrue(
         np.allclose(G2, G2n, rtol=1e-01, atol=1e-02),
         'Regular result:\n{}\nNaive result:\n{}\n'.format(G2, G2n))
Exemplo n.º 3
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 def test_similar_output_to_naive_big(self):
     G = nx.erdos_renyi_graph(1001, 0.02)
     G2 = graphpca.reduce_graph_efficiently(G, 2)
     G2n = graphpca.reduce_graph_naively(G, 2)
     self.assertTrue(
         np.allclose(G2, G2n, rtol=1e-03, atol=1e-05),
         'Regular result:\n{}\nNaive result:\n{}\n'.format(G2, G2n))
Exemplo n.º 4
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 def test_similar_output_to_naive_peterson(self):
     G = nx.petersen_graph()
     G2 = graphpca.reduce_graph_efficiently(G, 2)
     G2n = graphpca.reduce_graph_naively(G, 2)
     self.assertTrue(
         np.allclose(G2, G2n, rtol=1e-04, atol=1e-06),
         'Regular result:\n{}\nNaive result:\n{}\n'.format(G2, G2n))
Exemplo n.º 5
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 def test_add_supernode_similar_output_to_naive_mat_3(self):
     mat = scipy.io.loadmat('bcspwr01.mat')
     A = mat['Problem'][0][0][1].todense()
     G = nx.from_numpy_matrix(A)
     G3 = graphpca.reduce_graph_efficiently(G, 3, add_supernode=True)
     G3n = graphpca.reduce_graph_naively(G, 3)
     self.assertTrue(np.allclose(G3, G3n, rtol=1e-02, atol=1e-06),
                     'Regular result:\n{}\nNaive result:\n{}\n'.format(G3, G3n))
Exemplo n.º 6
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 def test_add_supernode_similar_output_to_naive_mat_3(self):
     mat = scipy.io.loadmat('bcspwr01.mat')
     A = mat['Problem'][0][0][1].todense()
     G = nx.from_numpy_matrix(A)
     G3 = graphpca.reduce_graph_efficiently(G, 3, add_supernode=True)
     G3n = graphpca.reduce_graph_naively(G, 3)
     self.assertTrue(
         np.allclose(G3, G3n, rtol=1e-02, atol=1e-06),
         'Regular result:\n{}\nNaive result:\n{}\n'.format(G3, G3n))
Exemplo n.º 7
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 def test_similar_output_to_naive_mat_3(self):
     mat = scipy.io.loadmat('bcspwr01.mat')
     # I love the UFSMC (https://www.cise.ufl.edu/research/sparse/matrices/)
     # but wow they really buried the matrix in this .mat
     A = mat['Problem'][0][0][1].todense()
     G = nx.from_numpy_matrix(A)
     G3 = graphpca.reduce_graph_efficiently(G, 3)
     G3n = graphpca.reduce_graph_naively(G, 3)
     self.assertTrue(np.allclose(G3, G3n, rtol=1e-04, atol=1e-06),
                     'Regular result:\n{}\nNaive result:\n{}\n'.format(G3, G3n))
Exemplo n.º 8
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 def test_add_supernode_similar_output_to_naive_mat_3(self):
     mat = get_fixture_mat("bcspwr01.mat")
     A = mat["Problem"][0][0][1].todense()
     G = nx.from_numpy_matrix(A)
     G3 = graphpca.reduce_graph_efficiently(G, 3, add_supernode=True)
     G3n = graphpca.reduce_graph_naively(G, 3)
     self.assertTrue(
         np.allclose(G3, G3n, rtol=1e-02, atol=1e-06),
         "Regular result:\n{}\nNaive result:\n{}\n".format(G3, G3n),
     )
Exemplo n.º 9
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 def test_similar_output_to_naive_mat_3(self):
     mat = scipy.io.loadmat('bcspwr01.mat')
     # I love the UFSMC (https://www.cise.ufl.edu/research/sparse/matrices/)
     # but wow they really buried the matrix in this .mat
     A = mat['Problem'][0][0][1].todense()
     G = nx.from_numpy_matrix(A)
     G3 = graphpca.reduce_graph_efficiently(G, 3)
     G3n = graphpca.reduce_graph_naively(G, 3)
     self.assertTrue(
         np.allclose(G3, G3n, rtol=1e-04, atol=1e-06),
         'Regular result:\n{}\nNaive result:\n{}\n'.format(G3, G3n))
Exemplo n.º 10
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 def test_add_supernode_similar_output_to_naive_big(self):
     G = nx.watts_strogatz_graph(1001, 10, 0.05)
     G2 = graphpca.reduce_graph_efficiently(G, 2, add_supernode=True)
     G2n = graphpca.reduce_graph_naively(G, 2)
     self.assertTrue(np.allclose(G2, G2n, rtol=1e-01, atol=1e-02),
                     'Regular result:\n{}\nNaive result:\n{}\n'.format(G2, G2n))
Exemplo n.º 11
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 def test_add_supernode_similar_output_to_naive_small(self):
     G = nx.erdos_renyi_graph(10, 0.5)
     G2 = graphpca.reduce_graph_efficiently(G, 2, add_supernode=True)
     G2n = graphpca.reduce_graph_naively(G, 2)
     self.assertTrue(np.allclose(G2, G2n, rtol=1e-02, atol=1e-06),
                     'Regular result:\n{}\nNaive result:\n{}\n'.format(G2, G2n))
Exemplo n.º 12
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 def test_similar_output_to_naive_big(self):
     G = nx.erdos_renyi_graph(1001, 0.02)
     G2 = graphpca.reduce_graph_efficiently(G, 2)
     G2n = graphpca.reduce_graph_naively(G, 2)
     self.assertTrue(np.allclose(G2, G2n, rtol=1e-03, atol=1e-05),
                     'Regular result:\n{}\nNaive result:\n{}\n'.format(G2, G2n))
Exemplo n.º 13
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 def test_similar_output_to_naive_peterson(self):
     G = nx.petersen_graph()
     G2 = graphpca.reduce_graph_efficiently(G, 2)
     G2n = graphpca.reduce_graph_naively(G, 2)
     self.assertTrue(np.allclose(G2, G2n, rtol=1e-04, atol=1e-06),
                     'Regular result:\n{}\nNaive result:\n{}\n'.format(G2, G2n))