/usr/lib/python2.7/dist-packages/networkx/classes/tests/test_multigraph.py is in python-networkx 1.9+dfsg1-1.
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from nose.tools import *
import networkx
from test_graph import BaseAttrGraphTester, TestGraph
class BaseMultiGraphTester(BaseAttrGraphTester):
def test_has_edge(self):
G=self.K3
assert_equal(G.has_edge(0,1),True)
assert_equal(G.has_edge(0,-1),False)
assert_equal(G.has_edge(0,1,0),True)
assert_equal(G.has_edge(0,1,1),False)
def test_get_edge_data(self):
G=self.K3
assert_equal(G.get_edge_data(0,1),{0:{}})
assert_equal(G[0][1],{0:{}})
assert_equal(G[0][1][0],{})
assert_equal(G.get_edge_data(10,20),None)
assert_equal(G.get_edge_data(0,1,0),{})
def test_adjacency_iter(self):
G=self.K3
assert_equal(dict(G.adjacency_iter()),
{0: {1: {0:{}}, 2: {0:{}}},
1: {0: {0:{}}, 2: {0:{}}},
2: {0: {0:{}}, 1: {0:{}}}})
def deepcopy_edge_attr(self,H,G):
assert_equal(G[1][2][0]['foo'],H[1][2][0]['foo'])
G[1][2][0]['foo'].append(1)
assert_not_equal(G[1][2][0]['foo'],H[1][2][0]['foo'])
def shallow_copy_edge_attr(self,H,G):
assert_equal(G[1][2][0]['foo'],H[1][2][0]['foo'])
G[1][2][0]['foo'].append(1)
assert_equal(G[1][2][0]['foo'],H[1][2][0]['foo'])
def same_attrdict(self, H, G):
# same attrdict in the edgedata
old_foo=H[1][2][0]['foo']
H.add_edge(1,2,0,foo='baz')
assert_equal(G.edge,H.edge)
H.add_edge(1,2,0,foo=old_foo)
assert_equal(G.edge,H.edge)
# but not same edgedata dict
H.add_edge(1,2,foo='baz')
assert_not_equal(G.edge,H.edge)
old_foo=H.node[0]['foo']
H.node[0]['foo']='baz'
assert_equal(G.node,H.node)
H.node[0]['foo']=old_foo
assert_equal(G.node,H.node)
def different_attrdict(self, H, G):
# used by graph_equal_but_different
old_foo=H[1][2][0]['foo']
H.add_edge(1,2,0,foo='baz')
assert_not_equal(G.edge,H.edge)
H.add_edge(1,2,0,foo=old_foo)
assert_equal(G.edge,H.edge)
HH=H.copy()
H.add_edge(1,2,foo='baz')
assert_not_equal(G.edge,H.edge)
H=HH
old_foo=H.node[0]['foo']
H.node[0]['foo']='baz'
assert_not_equal(G.node,H.node)
H.node[0]['foo']=old_foo
assert_equal(G.node,H.node)
def test_to_undirected(self):
G=self.K3
self.add_attributes(G)
H=networkx.MultiGraph(G)
self.is_shallow_copy(H,G)
H=G.to_undirected()
self.is_deepcopy(H,G)
def test_to_directed(self):
G=self.K3
self.add_attributes(G)
H=networkx.MultiDiGraph(G)
self.is_shallow_copy(H,G)
H=G.to_directed()
self.is_deepcopy(H,G)
def test_selfloops(self):
G=self.K3
G.add_edge(0,0)
assert_equal(G.nodes_with_selfloops(),[0])
assert_equal(G.selfloop_edges(),[(0,0)])
assert_equal(G.selfloop_edges(data=True),[(0,0,{})])
assert_equal(G.number_of_selfloops(),1)
def test_selfloops2(self):
G=self.K3
G.add_edge(0,0)
G.add_edge(0,0)
G.add_edge(0,0,key='parallel edge')
G.remove_edge(0,0,key='parallel edge')
assert_equal(G.number_of_edges(0,0),2)
G.remove_edge(0,0)
assert_equal(G.number_of_edges(0,0),1)
def test_edge_attr4(self):
G=self.Graph()
G.add_edge(1,2,key=0,data=7,spam='bar',bar='foo')
assert_equal(G.edges(data=True),
[(1,2,{'data':7,'spam':'bar','bar':'foo'})])
G[1][2][0]['data']=10 # OK to set data like this
assert_equal(G.edges(data=True),
[(1,2,{'data':10,'spam':'bar','bar':'foo'})])
G.edge[1][2][0]['data']=20 # another spelling, "edge"
assert_equal(G.edges(data=True),
[(1,2,{'data':20,'spam':'bar','bar':'foo'})])
G.edge[1][2][0]['listdata']=[20,200]
G.edge[1][2][0]['weight']=20
assert_equal(G.edges(data=True),
[(1,2,{'data':20,'spam':'bar',
'bar':'foo','listdata':[20,200],'weight':20})])
class TestMultiGraph(BaseMultiGraphTester,TestGraph):
def setUp(self):
self.Graph=networkx.MultiGraph
# build K3
ed1,ed2,ed3 = ({0:{}},{0:{}},{0:{}})
self.k3adj={0: {1: ed1, 2: ed2},
1: {0: ed1, 2: ed3},
2: {0: ed2, 1: ed3}}
self.k3edges=[(0, 1), (0, 2), (1, 2)]
self.k3nodes=[0, 1, 2]
self.K3=self.Graph()
self.K3.adj = self.K3.edge = self.k3adj
self.K3.node={}
self.K3.node[0]={}
self.K3.node[1]={}
self.K3.node[2]={}
def test_data_input(self):
G=self.Graph(data={1:[2],2:[1]}, name="test")
assert_equal(G.name,"test")
assert_equal(sorted(G.adj.items()),[(1, {2: {0:{}}}), (2, {1: {0:{}}})])
def test_getitem(self):
G=self.K3
assert_equal(G[0],{1: {0:{}}, 2: {0:{}}})
assert_raises(KeyError, G.__getitem__, 'j')
assert_raises((TypeError,networkx.NetworkXError), G.__getitem__, ['A'])
def test_remove_node(self):
G=self.K3
G.remove_node(0)
assert_equal(G.adj,{1:{2:{0:{}}},2:{1:{0:{}}}})
assert_raises((KeyError,networkx.NetworkXError), G.remove_node,-1)
def test_add_edge(self):
G=self.Graph()
G.add_edge(0,1)
assert_equal(G.adj,{0: {1: {0:{}}}, 1: {0: {0:{}}}})
G=self.Graph()
G.add_edge(*(0,1))
assert_equal(G.adj,{0: {1: {0:{}}}, 1: {0: {0:{}}}})
def test_add_edge_conflicting_key(self):
G=self.Graph()
G.add_edge(0,1,key=1)
G.add_edge(0,1)
assert_equal(G.number_of_edges(),2)
G=self.Graph()
G.add_edges_from([(0,1,1,{})])
G.add_edges_from([(0,1)])
assert_equal(G.number_of_edges(),2)
def test_add_edges_from(self):
G=self.Graph()
G.add_edges_from([(0,1),(0,1,{'weight':3})])
assert_equal(G.adj,{0: {1: {0:{},1:{'weight':3}}},
1: {0: {0:{},1:{'weight':3}}}})
G.add_edges_from([(0,1),(0,1,{'weight':3})],weight=2)
assert_equal(G.adj,{0: {1: {0:{},1:{'weight':3},
2:{'weight':2},3:{'weight':3}}},
1: {0: {0:{},1:{'weight':3},
2:{'weight':2},3:{'weight':3}}}})
# too few in tuple
assert_raises(networkx.NetworkXError, G.add_edges_from,[(0,)])
# too many in tuple
assert_raises(networkx.NetworkXError, G.add_edges_from,[(0,1,2,3,4)])
assert_raises(TypeError, G.add_edges_from,[0]) # not a tuple
def test_remove_edge(self):
G=self.K3
G.remove_edge(0,1)
assert_equal(G.adj,{0: {2: {0: {}}},
1: {2: {0: {}}},
2: {0: {0: {}},
1: {0: {}}}})
assert_raises((KeyError,networkx.NetworkXError), G.remove_edge,-1,0)
assert_raises((KeyError,networkx.NetworkXError), G.remove_edge,0,2,
key=1)
def test_remove_edges_from(self):
G=self.K3.copy()
G.remove_edges_from([(0,1)])
assert_equal(G.adj,{0:{2:{0:{}}},1:{2:{0:{}}},2:{0:{0:{}},1:{0:{}}}})
G.remove_edges_from([(0,0)]) # silent fail
self.K3.add_edge(0,1)
G=self.K3.copy()
G.remove_edges_from(G.edges(data=True,keys=True))
assert_equal(G.adj,{0:{},1:{},2:{}})
G=self.K3.copy()
G.remove_edges_from(G.edges(data=False,keys=True))
assert_equal(G.adj,{0:{},1:{},2:{}})
G=self.K3.copy()
G.remove_edges_from(G.edges(data=False,keys=False))
assert_equal(G.adj,{0:{},1:{},2:{}})
G=self.K3.copy()
G.remove_edges_from([(0,1,0),(0,2,0,{}),(1,2)])
assert_equal(G.adj,{0:{1:{1:{}}},1:{0:{1:{}}},2:{}})
def test_remove_multiedge(self):
G=self.K3
G.add_edge(0,1,key='parallel edge')
G.remove_edge(0,1,key='parallel edge')
assert_equal(G.adj,{0: {1: {0:{}}, 2: {0:{}}},
1: {0: {0:{}}, 2: {0:{}}},
2: {0: {0:{}}, 1: {0:{}}}})
G.remove_edge(0,1)
assert_equal(G.adj,{0:{2:{0:{}}},1:{2:{0:{}}},2:{0:{0:{}},1:{0:{}}}})
assert_raises((KeyError,networkx.NetworkXError), G.remove_edge,-1,0)
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