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Version:
2.1 ▾
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#!/usr/bin/env python
"""Original NetworkX graph tests"""
from nose.tools import *
import networkx
import networkx as nx
from networkx.testing.utils import *
from historical_tests import HistoricalTests
class TestDiGraphHistorical(HistoricalTests):
def setUp(self):
HistoricalTests.setUp(self)
self.G = nx.DiGraph
def test_in_degree(self):
G = self.G()
G.add_nodes_from('GJK')
G.add_edges_from([('A', 'B'), ('A', 'C'), ('B', 'D'),
('B', 'C'), ('C', 'D')])
assert_equal(sorted(d for n, d in G.in_degree()), [0, 0, 0, 0, 1, 2, 2])
assert_equal(dict(G.in_degree()),
{'A': 0, 'C': 2, 'B': 1, 'D': 2, 'G': 0, 'K': 0, 'J': 0})
def test_out_degree(self):
G = self.G()
G.add_nodes_from('GJK')
G.add_edges_from([('A', 'B'), ('A', 'C'), ('B', 'D'),
('B', 'C'), ('C', 'D')])
assert_equal(sorted([v for k, v in G.in_degree()]),
[0, 0, 0, 0, 1, 2, 2])
assert_equal(dict(G.out_degree()),
{'A': 2, 'C': 1, 'B': 2, 'D': 0, 'G': 0, 'K': 0, 'J': 0})
def test_degree_digraph(self):
H = nx.DiGraph()
H.add_edges_from([(1, 24), (1, 2)])
assert_equal(sorted(d for n, d in H.in_degree([1, 24])), [0, 1])
assert_equal(sorted(d for n, d in H.out_degree([1, 24])), [0, 2])
assert_equal(sorted(d for n, d in H.degree([1, 24])), [1, 2])
def test_neighbors(self):
G = self.G()
G.add_nodes_from('GJK')
G.add_edges_from([('A', 'B'), ('A', 'C'), ('B', 'D'),
('B', 'C'), ('C', 'D')])
assert_equal(sorted(G.neighbors('C')), ['D'])
assert_equal(sorted(G['C']), ['D'])
assert_equal(sorted(G.neighbors('A')), ['B', 'C'])
assert_raises(nx.NetworkXError, G.neighbors, 'j')
assert_raises(nx.NetworkXError, G.neighbors, 'j')
def test_successors(self):
G = self.G()
G.add_nodes_from('GJK')
G.add_edges_from([('A', 'B'), ('A', 'C'), ('B', 'D'),
('B', 'C'), ('C', 'D')])
assert_equal(sorted(G.successors('A')), ['B', 'C'])
assert_equal(sorted(G.successors('A')), ['B', 'C'])
assert_equal(sorted(G.successors('G')), [])
assert_equal(sorted(G.successors('D')), [])
assert_equal(sorted(G.successors('G')), [])
assert_raises(nx.NetworkXError, G.successors, 'j')
assert_raises(nx.NetworkXError, G.successors, 'j')
def test_predecessors(self):
G = self.G()
G.add_nodes_from('GJK')
G.add_edges_from([('A', 'B'), ('A', 'C'), ('B', 'D'),
('B', 'C'), ('C', 'D')])
assert_equal(sorted(G.predecessors('C')), ['A', 'B'])
assert_equal(sorted(G.predecessors('C')), ['A', 'B'])
assert_equal(sorted(G.predecessors('G')), [])
assert_equal(sorted(G.predecessors('A')), [])
assert_equal(sorted(G.predecessors('G')), [])
assert_equal(sorted(G.predecessors('A')), [])
assert_equal(sorted(G.successors('D')), [])
assert_raises(nx.NetworkXError, G.predecessors, 'j')
assert_raises(nx.NetworkXError, G.predecessors, 'j')
def test_reverse(self):
G = nx.complete_graph(10)
H = G.to_directed()
HR = H.reverse()
assert_true(nx.is_isomorphic(H, HR))
assert_equal(sorted(H.edges()), sorted(HR.edges()))
def test_reverse2(self):
H = nx.DiGraph()
foo = [H.add_edge(u, u + 1) for u in range(0, 5)]
HR = H.reverse()
for u in range(0, 5):
assert_true(HR.has_edge(u + 1, u))
def test_reverse3(self):
H = nx.DiGraph()
H.add_nodes_from([1, 2, 3, 4])
HR = H.reverse()
assert_equal(sorted(HR.nodes()), [1, 2, 3, 4])