Mercurial > repos > shellac > sam_consensus_v3
view env/lib/python3.9/site-packages/networkx/generators/tests/test_small.py @ 0:4f3585e2f14b draft default tip
"planemo upload commit 60cee0fc7c0cda8592644e1aad72851dec82c959"
| author | shellac |
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| date | Mon, 22 Mar 2021 18:12:50 +0000 |
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import pytest import networkx as nx from networkx.algorithms.isomorphism.isomorph import graph_could_be_isomorphic is_isomorphic = graph_could_be_isomorphic """Generators - Small ===================== Some small graphs """ null = nx.null_graph() class TestGeneratorsSmall: def test_make_small_graph(self): d = ["adjacencylist", "Bull Graph", 5, [[2, 3], [1, 3, 4], [1, 2, 5], [2], [3]]] G = nx.make_small_graph(d) assert is_isomorphic(G, nx.bull_graph()) # Test small graph creation error with wrong ltype d[0] = "erroneouslist" pytest.raises(nx.NetworkXError, nx.make_small_graph, graph_description=d) def test__LCF_graph(self): # If n<=0, then return the null_graph G = nx.LCF_graph(-10, [1, 2], 100) assert is_isomorphic(G, null) G = nx.LCF_graph(0, [1, 2], 3) assert is_isomorphic(G, null) G = nx.LCF_graph(0, [1, 2], 10) assert is_isomorphic(G, null) # Test that LCF(n,[],0) == cycle_graph(n) for a, b, c in [(5, [], 0), (10, [], 0), (5, [], 1), (10, [], 10)]: G = nx.LCF_graph(a, b, c) assert is_isomorphic(G, nx.cycle_graph(a)) # Generate the utility graph K_{3,3} G = nx.LCF_graph(6, [3, -3], 3) utility_graph = nx.complete_bipartite_graph(3, 3) assert is_isomorphic(G, utility_graph) def test_properties_named_small_graphs(self): G = nx.bull_graph() assert G.number_of_nodes() == 5 assert G.number_of_edges() == 5 assert sorted(d for n, d in G.degree()) == [1, 1, 2, 3, 3] assert nx.diameter(G) == 3 assert nx.radius(G) == 2 G = nx.chvatal_graph() assert G.number_of_nodes() == 12 assert G.number_of_edges() == 24 assert list(d for n, d in G.degree()) == 12 * [4] assert nx.diameter(G) == 2 assert nx.radius(G) == 2 G = nx.cubical_graph() assert G.number_of_nodes() == 8 assert G.number_of_edges() == 12 assert list(d for n, d in G.degree()) == 8 * [3] assert nx.diameter(G) == 3 assert nx.radius(G) == 3 G = nx.desargues_graph() assert G.number_of_nodes() == 20 assert G.number_of_edges() == 30 assert list(d for n, d in G.degree()) == 20 * [3] G = nx.diamond_graph() assert G.number_of_nodes() == 4 assert sorted(d for n, d in G.degree()) == [2, 2, 3, 3] assert nx.diameter(G) == 2 assert nx.radius(G) == 1 G = nx.dodecahedral_graph() assert G.number_of_nodes() == 20 assert G.number_of_edges() == 30 assert list(d for n, d in G.degree()) == 20 * [3] assert nx.diameter(G) == 5 assert nx.radius(G) == 5 G = nx.frucht_graph() assert G.number_of_nodes() == 12 assert G.number_of_edges() == 18 assert list(d for n, d in G.degree()) == 12 * [3] assert nx.diameter(G) == 4 assert nx.radius(G) == 3 G = nx.heawood_graph() assert G.number_of_nodes() == 14 assert G.number_of_edges() == 21 assert list(d for n, d in G.degree()) == 14 * [3] assert nx.diameter(G) == 3 assert nx.radius(G) == 3 G = nx.hoffman_singleton_graph() assert G.number_of_nodes() == 50 assert G.number_of_edges() == 175 assert list(d for n, d in G.degree()) == 50 * [7] assert nx.diameter(G) == 2 assert nx.radius(G) == 2 G = nx.house_graph() assert G.number_of_nodes() == 5 assert G.number_of_edges() == 6 assert sorted(d for n, d in G.degree()) == [2, 2, 2, 3, 3] assert nx.diameter(G) == 2 assert nx.radius(G) == 2 G = nx.house_x_graph() assert G.number_of_nodes() == 5 assert G.number_of_edges() == 8 assert sorted(d for n, d in G.degree()) == [2, 3, 3, 4, 4] assert nx.diameter(G) == 2 assert nx.radius(G) == 1 G = nx.icosahedral_graph() assert G.number_of_nodes() == 12 assert G.number_of_edges() == 30 assert list(d for n, d in G.degree()) == [5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5] assert nx.diameter(G) == 3 assert nx.radius(G) == 3 G = nx.krackhardt_kite_graph() assert G.number_of_nodes() == 10 assert G.number_of_edges() == 18 assert sorted(d for n, d in G.degree()) == [1, 2, 3, 3, 3, 4, 4, 5, 5, 6] G = nx.moebius_kantor_graph() assert G.number_of_nodes() == 16 assert G.number_of_edges() == 24 assert list(d for n, d in G.degree()) == 16 * [3] assert nx.diameter(G) == 4 G = nx.octahedral_graph() assert G.number_of_nodes() == 6 assert G.number_of_edges() == 12 assert list(d for n, d in G.degree()) == 6 * [4] assert nx.diameter(G) == 2 assert nx.radius(G) == 2 G = nx.pappus_graph() assert G.number_of_nodes() == 18 assert G.number_of_edges() == 27 assert list(d for n, d in G.degree()) == 18 * [3] assert nx.diameter(G) == 4 G = nx.petersen_graph() assert G.number_of_nodes() == 10 assert G.number_of_edges() == 15 assert list(d for n, d in G.degree()) == 10 * [3] assert nx.diameter(G) == 2 assert nx.radius(G) == 2 G = nx.sedgewick_maze_graph() assert G.number_of_nodes() == 8 assert G.number_of_edges() == 10 assert sorted(d for n, d in G.degree()) == [1, 2, 2, 2, 3, 3, 3, 4] G = nx.tetrahedral_graph() assert G.number_of_nodes() == 4 assert G.number_of_edges() == 6 assert list(d for n, d in G.degree()) == [3, 3, 3, 3] assert nx.diameter(G) == 1 assert nx.radius(G) == 1 G = nx.truncated_cube_graph() assert G.number_of_nodes() == 24 assert G.number_of_edges() == 36 assert list(d for n, d in G.degree()) == 24 * [3] G = nx.truncated_tetrahedron_graph() assert G.number_of_nodes() == 12 assert G.number_of_edges() == 18 assert list(d for n, d in G.degree()) == 12 * [3] G = nx.tutte_graph() assert G.number_of_nodes() == 46 assert G.number_of_edges() == 69 assert list(d for n, d in G.degree()) == 46 * [3] # Test create_using with directed or multigraphs on small graphs pytest.raises(nx.NetworkXError, nx.tutte_graph, create_using=nx.DiGraph) MG = nx.tutte_graph(create_using=nx.MultiGraph) assert sorted(MG.edges()) == sorted(G.edges())