364 lines
13 KiB
Python
364 lines
13 KiB
Python
import pytest
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import networkx as nx
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from networkx.utils import edges_equal
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class TestSubGraphView:
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gview = staticmethod(nx.graphviews.subgraph_view)
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graph = nx.Graph
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hide_edges_filter = staticmethod(nx.filters.hide_edges)
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show_edges_filter = staticmethod(nx.filters.show_edges)
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@classmethod
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def setup_class(cls):
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cls.G = nx.path_graph(9, create_using=cls.graph())
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cls.hide_edges_w_hide_nodes = {(3, 4), (4, 5), (5, 6)}
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def test_hidden_nodes(self):
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hide_nodes = [4, 5, 111]
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nodes_gone = nx.filters.hide_nodes(hide_nodes)
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gview = self.gview
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print(gview)
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G = gview(self.G, filter_node=nodes_gone)
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assert self.G.nodes - G.nodes == {4, 5}
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assert self.G.edges - G.edges == self.hide_edges_w_hide_nodes
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if G.is_directed():
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assert list(G[3]) == []
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assert list(G[2]) == [3]
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else:
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assert list(G[3]) == [2]
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assert set(G[2]) == {1, 3}
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pytest.raises(KeyError, G.__getitem__, 4)
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pytest.raises(KeyError, G.__getitem__, 112)
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pytest.raises(KeyError, G.__getitem__, 111)
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assert G.degree(3) == (3 if G.is_multigraph() else 1)
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assert G.size() == (7 if G.is_multigraph() else 5)
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def test_hidden_edges(self):
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hide_edges = [(2, 3), (8, 7), (222, 223)]
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edges_gone = self.hide_edges_filter(hide_edges)
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gview = self.gview
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G = gview(self.G, filter_edge=edges_gone)
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assert self.G.nodes == G.nodes
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if G.is_directed():
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assert self.G.edges - G.edges == {(2, 3)}
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assert list(G[2]) == []
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assert list(G.pred[3]) == []
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assert list(G.pred[2]) == [1]
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assert G.size() == 7
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else:
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assert self.G.edges - G.edges == {(2, 3), (7, 8)}
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assert list(G[2]) == [1]
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assert G.size() == 6
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assert list(G[3]) == [4]
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pytest.raises(KeyError, G.__getitem__, 221)
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pytest.raises(KeyError, G.__getitem__, 222)
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assert G.degree(3) == 1
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def test_shown_node(self):
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induced_subgraph = nx.filters.show_nodes([2, 3, 111])
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gview = self.gview
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G = gview(self.G, filter_node=induced_subgraph)
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assert set(G.nodes) == {2, 3}
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if G.is_directed():
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assert list(G[3]) == []
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else:
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assert list(G[3]) == [2]
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assert list(G[2]) == [3]
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pytest.raises(KeyError, G.__getitem__, 4)
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pytest.raises(KeyError, G.__getitem__, 112)
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pytest.raises(KeyError, G.__getitem__, 111)
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assert G.degree(3) == (3 if G.is_multigraph() else 1)
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assert G.size() == (3 if G.is_multigraph() else 1)
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def test_shown_edges(self):
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show_edges = [(2, 3), (8, 7), (222, 223)]
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edge_subgraph = self.show_edges_filter(show_edges)
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G = self.gview(self.G, filter_edge=edge_subgraph)
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assert self.G.nodes == G.nodes
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if G.is_directed():
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assert G.edges == {(2, 3)}
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assert list(G[3]) == []
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assert list(G[2]) == [3]
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assert list(G.pred[3]) == [2]
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assert list(G.pred[2]) == []
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assert G.size() == 1
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else:
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assert G.edges == {(2, 3), (7, 8)}
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assert list(G[3]) == [2]
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assert list(G[2]) == [3]
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assert G.size() == 2
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pytest.raises(KeyError, G.__getitem__, 221)
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pytest.raises(KeyError, G.__getitem__, 222)
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assert G.degree(3) == 1
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class TestSubDiGraphView(TestSubGraphView):
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gview = staticmethod(nx.graphviews.subgraph_view)
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graph = nx.DiGraph
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hide_edges_filter = staticmethod(nx.filters.hide_diedges)
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show_edges_filter = staticmethod(nx.filters.show_diedges)
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hide_edges = [(2, 3), (8, 7), (222, 223)]
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excluded = {(2, 3), (3, 4), (4, 5), (5, 6)}
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def test_inoutedges(self):
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edges_gone = self.hide_edges_filter(self.hide_edges)
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hide_nodes = [4, 5, 111]
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nodes_gone = nx.filters.hide_nodes(hide_nodes)
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G = self.gview(self.G, nodes_gone, edges_gone)
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assert self.G.in_edges - G.in_edges == self.excluded
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assert self.G.out_edges - G.out_edges == self.excluded
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def test_pred(self):
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edges_gone = self.hide_edges_filter(self.hide_edges)
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hide_nodes = [4, 5, 111]
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nodes_gone = nx.filters.hide_nodes(hide_nodes)
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G = self.gview(self.G, nodes_gone, edges_gone)
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assert list(G.pred[2]) == [1]
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assert list(G.pred[6]) == []
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def test_inout_degree(self):
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edges_gone = self.hide_edges_filter(self.hide_edges)
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hide_nodes = [4, 5, 111]
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nodes_gone = nx.filters.hide_nodes(hide_nodes)
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G = self.gview(self.G, nodes_gone, edges_gone)
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assert G.degree(2) == 1
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assert G.out_degree(2) == 0
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assert G.in_degree(2) == 1
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assert G.size() == 4
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# multigraph
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class TestMultiGraphView(TestSubGraphView):
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gview = staticmethod(nx.graphviews.subgraph_view)
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graph = nx.MultiGraph
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hide_edges_filter = staticmethod(nx.filters.hide_multiedges)
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show_edges_filter = staticmethod(nx.filters.show_multiedges)
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@classmethod
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def setup_class(cls):
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cls.G = nx.path_graph(9, create_using=cls.graph())
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multiedges = {(2, 3, 4), (2, 3, 5)}
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cls.G.add_edges_from(multiedges)
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cls.hide_edges_w_hide_nodes = {(3, 4, 0), (4, 5, 0), (5, 6, 0)}
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def test_hidden_edges(self):
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hide_edges = [(2, 3, 4), (2, 3, 3), (8, 7, 0), (222, 223, 0)]
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edges_gone = self.hide_edges_filter(hide_edges)
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G = self.gview(self.G, filter_edge=edges_gone)
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assert self.G.nodes == G.nodes
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if G.is_directed():
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assert self.G.edges - G.edges == {(2, 3, 4)}
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assert list(G[3]) == [4]
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assert list(G[2]) == [3]
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assert list(G.pred[3]) == [2] # only one 2 but two edges
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assert list(G.pred[2]) == [1]
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assert G.size() == 9
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else:
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assert self.G.edges - G.edges == {(2, 3, 4), (7, 8, 0)}
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assert list(G[3]) == [2, 4]
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assert list(G[2]) == [1, 3]
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assert G.size() == 8
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assert G.degree(3) == 3
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pytest.raises(KeyError, G.__getitem__, 221)
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pytest.raises(KeyError, G.__getitem__, 222)
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def test_shown_edges(self):
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show_edges = [(2, 3, 4), (2, 3, 3), (8, 7, 0), (222, 223, 0)]
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edge_subgraph = self.show_edges_filter(show_edges)
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G = self.gview(self.G, filter_edge=edge_subgraph)
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assert self.G.nodes == G.nodes
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if G.is_directed():
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assert G.edges == {(2, 3, 4)}
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assert list(G[3]) == []
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assert list(G.pred[3]) == [2]
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assert list(G.pred[2]) == []
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assert G.size() == 1
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else:
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assert G.edges == {(2, 3, 4), (7, 8, 0)}
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assert G.size() == 2
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assert list(G[3]) == [2]
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assert G.degree(3) == 1
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assert list(G[2]) == [3]
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pytest.raises(KeyError, G.__getitem__, 221)
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pytest.raises(KeyError, G.__getitem__, 222)
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# multidigraph
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class TestMultiDiGraphView(TestMultiGraphView, TestSubDiGraphView):
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gview = staticmethod(nx.graphviews.subgraph_view)
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graph = nx.MultiDiGraph
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hide_edges_filter = staticmethod(nx.filters.hide_multidiedges)
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show_edges_filter = staticmethod(nx.filters.show_multidiedges)
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hide_edges = [(2, 3, 0), (8, 7, 0), (222, 223, 0)]
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excluded = {(2, 3, 0), (3, 4, 0), (4, 5, 0), (5, 6, 0)}
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def test_inout_degree(self):
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edges_gone = self.hide_edges_filter(self.hide_edges)
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hide_nodes = [4, 5, 111]
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nodes_gone = nx.filters.hide_nodes(hide_nodes)
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G = self.gview(self.G, nodes_gone, edges_gone)
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assert G.degree(2) == 3
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assert G.out_degree(2) == 2
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assert G.in_degree(2) == 1
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assert G.size() == 6
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# induced_subgraph
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class TestInducedSubGraph:
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@classmethod
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def setup_class(cls):
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cls.K3 = G = nx.complete_graph(3)
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G.graph["foo"] = []
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G.nodes[0]["foo"] = []
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G.remove_edge(1, 2)
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ll = []
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G.add_edge(1, 2, foo=ll)
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G.add_edge(2, 1, foo=ll)
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def test_full_graph(self):
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G = self.K3
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H = nx.induced_subgraph(G, [0, 1, 2, 5])
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assert H.name == G.name
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self.graphs_equal(H, G)
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self.same_attrdict(H, G)
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def test_partial_subgraph(self):
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G = self.K3
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H = nx.induced_subgraph(G, 0)
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assert dict(H.adj) == {0: {}}
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assert dict(G.adj) != {0: {}}
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H = nx.induced_subgraph(G, [0, 1])
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assert dict(H.adj) == {0: {1: {}}, 1: {0: {}}}
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def same_attrdict(self, H, G):
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old_foo = H[1][2]["foo"]
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H.edges[1, 2]["foo"] = "baz"
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assert G.edges == H.edges
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H.edges[1, 2]["foo"] = old_foo
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assert G.edges == H.edges
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old_foo = H.nodes[0]["foo"]
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H.nodes[0]["foo"] = "baz"
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assert G.nodes == H.nodes
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H.nodes[0]["foo"] = old_foo
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assert G.nodes == H.nodes
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def graphs_equal(self, H, G):
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assert G._adj == H._adj
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assert G._node == H._node
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assert G.graph == H.graph
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assert G.name == H.name
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if not G.is_directed() and not H.is_directed():
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assert H._adj[1][2] is H._adj[2][1]
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assert G._adj[1][2] is G._adj[2][1]
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else: # at least one is directed
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if not G.is_directed():
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G._pred = G._adj
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G._succ = G._adj
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if not H.is_directed():
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H._pred = H._adj
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H._succ = H._adj
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assert G._pred == H._pred
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assert G._succ == H._succ
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assert H._succ[1][2] is H._pred[2][1]
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assert G._succ[1][2] is G._pred[2][1]
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# edge_subgraph
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class TestEdgeSubGraph:
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@classmethod
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def setup_class(cls):
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# Create a path graph on five nodes.
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cls.G = G = nx.path_graph(5)
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# Add some node, edge, and graph attributes.
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for i in range(5):
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G.nodes[i]["name"] = f"node{i}"
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G.edges[0, 1]["name"] = "edge01"
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G.edges[3, 4]["name"] = "edge34"
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G.graph["name"] = "graph"
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# Get the subgraph induced by the first and last edges.
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cls.H = nx.edge_subgraph(G, [(0, 1), (3, 4)])
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def test_correct_nodes(self):
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"""Tests that the subgraph has the correct nodes."""
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assert [(0, "node0"), (1, "node1"), (3, "node3"), (4, "node4")] == sorted(
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self.H.nodes.data("name")
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)
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def test_correct_edges(self):
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"""Tests that the subgraph has the correct edges."""
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assert edges_equal(
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[(0, 1, "edge01"), (3, 4, "edge34")], self.H.edges.data("name")
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)
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def test_add_node(self):
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"""Tests that adding a node to the original graph does not
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affect the nodes of the subgraph.
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"""
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self.G.add_node(5)
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assert [0, 1, 3, 4] == sorted(self.H.nodes)
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self.G.remove_node(5)
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def test_remove_node(self):
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"""Tests that removing a node in the original graph
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removes the nodes of the subgraph.
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"""
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self.G.remove_node(0)
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assert [1, 3, 4] == sorted(self.H.nodes)
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self.G.add_node(0, name="node0")
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self.G.add_edge(0, 1, name="edge01")
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def test_node_attr_dict(self):
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"""Tests that the node attribute dictionary of the two graphs is
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the same object.
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"""
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for v in self.H:
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assert self.G.nodes[v] == self.H.nodes[v]
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# Making a change to G should make a change in H and vice versa.
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self.G.nodes[0]["name"] = "foo"
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assert self.G.nodes[0] == self.H.nodes[0]
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self.H.nodes[1]["name"] = "bar"
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assert self.G.nodes[1] == self.H.nodes[1]
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# Revert the change, so tests pass with pytest-randomly
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self.G.nodes[0]["name"] = "node0"
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self.H.nodes[1]["name"] = "node1"
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def test_edge_attr_dict(self):
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"""Tests that the edge attribute dictionary of the two graphs is
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the same object.
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"""
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for u, v in self.H.edges():
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assert self.G.edges[u, v] == self.H.edges[u, v]
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# Making a change to G should make a change in H and vice versa.
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self.G.edges[0, 1]["name"] = "foo"
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assert self.G.edges[0, 1]["name"] == self.H.edges[0, 1]["name"]
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self.H.edges[3, 4]["name"] = "bar"
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assert self.G.edges[3, 4]["name"] == self.H.edges[3, 4]["name"]
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# Revert the change, so tests pass with pytest-randomly
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self.G.edges[0, 1]["name"] = "edge01"
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self.H.edges[3, 4]["name"] = "edge34"
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def test_graph_attr_dict(self):
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"""Tests that the graph attribute dictionary of the two graphs
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is the same object.
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"""
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assert self.G.graph is self.H.graph
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def test_readonly(self):
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"""Tests that the subgraph cannot change the graph structure"""
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pytest.raises(nx.NetworkXError, self.H.add_node, 5)
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pytest.raises(nx.NetworkXError, self.H.remove_node, 0)
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pytest.raises(nx.NetworkXError, self.H.add_edge, 5, 6)
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pytest.raises(nx.NetworkXError, self.H.remove_edge, 0, 1)
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