58 lines
1.6 KiB
Python
58 lines
1.6 KiB
Python
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#!/usr/bin/env python
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import pytest
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import networkx as nx
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#import random
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#random.seed(0)
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def test_double_edge_swap():
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graph = nx.barabasi_albert_graph(200, 1)
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degrees = sorted(d for n, d in graph.degree())
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G = nx.double_edge_swap(graph, 40)
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assert degrees == sorted(d for n, d in graph.degree())
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def test_double_edge_swap_seed():
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graph = nx.barabasi_albert_graph(200, 1)
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degrees = sorted(d for n, d in graph.degree())
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G = nx.double_edge_swap(graph, 40, seed=1)
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assert degrees == sorted(d for n, d in graph.degree())
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def test_connected_double_edge_swap():
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graph = nx.barabasi_albert_graph(200, 1)
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degrees = sorted(d for n, d in graph.degree())
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G = nx.connected_double_edge_swap(graph, 40, seed=1)
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assert nx.is_connected(graph)
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assert degrees == sorted(d for n, d in graph.degree())
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def test_double_edge_swap_small():
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with pytest.raises(nx.NetworkXError):
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G = nx.double_edge_swap(nx.path_graph(3))
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def test_double_edge_swap_tries():
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with pytest.raises(nx.NetworkXError):
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G = nx.double_edge_swap(nx.path_graph(10), nswap=1, max_tries=0)
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def test_connected_double_edge_swap_small():
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with pytest.raises(nx.NetworkXError):
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G = nx.connected_double_edge_swap(nx.path_graph(3))
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def test_connected_double_edge_swap_not_connected():
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with pytest.raises(nx.NetworkXError):
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G = nx.path_graph(3)
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nx.add_path(G, [10, 11, 12])
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G = nx.connected_double_edge_swap(G)
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def test_degree_seq_c4():
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G = nx.cycle_graph(4)
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degrees = sorted(d for n, d in G.degree())
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G = nx.double_edge_swap(G, 1, 100)
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assert degrees == sorted(d for n, d in G.degree())
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