def test_graph(self):
G = nx.barbell_graph(5, 0)
S = set(range(5))
T = set(G) - S
expansion = nx.mixing_expansion(G, S, T)
# There is one cut edge, and the total number of edges in the
# graph is twice the total number of edges in a clique of size
# five, plus one more for the bridge.
expected = 1 / (2 * (5 * 4 + 1))
assert_equal(expected, expansion)
def test_graph(self):
G = nx.barbell_graph(5, 0)
S = set(range(5))
T = set(G) - S
expansion = nx.mixing_expansion(G, S, T)
# There is one cut edge, and the total number of edges in the
# graph is twice the total number of edges in a clique of size
# five, plus one more for the bridge.
expected = 1 / (2 * (5 * 4 + 1))
assert expected == expansion
def cut_mixing_expansion(self, set_A, set_B):
return nx.mixing_expansion(self.G, set_A, set_B, weight='weight')
