Mercurial > repos > shellac > sam_consensus_v3
diff env/lib/python3.9/site-packages/networkx/tests/test_relabel.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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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/env/lib/python3.9/site-packages/networkx/tests/test_relabel.py Mon Mar 22 18:12:50 2021 +0000 @@ -0,0 +1,289 @@ +import pytest +import networkx as nx +from networkx.generators.classic import empty_graph +from networkx.testing import assert_nodes_equal, assert_edges_equal + + +class TestRelabel: + def test_convert_node_labels_to_integers(self): + # test that empty graph converts fine for all options + G = empty_graph() + H = nx.convert_node_labels_to_integers(G, 100) + assert list(H.nodes()) == [] + assert list(H.edges()) == [] + + for opt in ["default", "sorted", "increasing degree", "decreasing degree"]: + G = empty_graph() + H = nx.convert_node_labels_to_integers(G, 100, ordering=opt) + assert list(H.nodes()) == [] + assert list(H.edges()) == [] + + G = empty_graph() + G.add_edges_from([("A", "B"), ("A", "C"), ("B", "C"), ("C", "D")]) + H = nx.convert_node_labels_to_integers(G) + degH = (d for n, d in H.degree()) + degG = (d for n, d in G.degree()) + assert sorted(degH) == sorted(degG) + + H = nx.convert_node_labels_to_integers(G, 1000) + degH = (d for n, d in H.degree()) + degG = (d for n, d in G.degree()) + assert sorted(degH) == sorted(degG) + assert_nodes_equal(H.nodes(), [1000, 1001, 1002, 1003]) + + H = nx.convert_node_labels_to_integers(G, ordering="increasing degree") + degH = (d for n, d in H.degree()) + degG = (d for n, d in G.degree()) + assert sorted(degH) == sorted(degG) + assert H.degree(0) == 1 + assert H.degree(1) == 2 + assert H.degree(2) == 2 + assert H.degree(3) == 3 + + H = nx.convert_node_labels_to_integers(G, ordering="decreasing degree") + degH = (d for n, d in H.degree()) + degG = (d for n, d in G.degree()) + assert sorted(degH) == sorted(degG) + assert H.degree(0) == 3 + assert H.degree(1) == 2 + assert H.degree(2) == 2 + assert H.degree(3) == 1 + + H = nx.convert_node_labels_to_integers( + G, ordering="increasing degree", label_attribute="label" + ) + degH = (d for n, d in H.degree()) + degG = (d for n, d in G.degree()) + assert sorted(degH) == sorted(degG) + assert H.degree(0) == 1 + assert H.degree(1) == 2 + assert H.degree(2) == 2 + assert H.degree(3) == 3 + + # check mapping + assert H.nodes[3]["label"] == "C" + assert H.nodes[0]["label"] == "D" + assert H.nodes[1]["label"] == "A" or H.nodes[2]["label"] == "A" + assert H.nodes[1]["label"] == "B" or H.nodes[2]["label"] == "B" + + def test_convert_to_integers2(self): + G = empty_graph() + G.add_edges_from([("C", "D"), ("A", "B"), ("A", "C"), ("B", "C")]) + H = nx.convert_node_labels_to_integers(G, ordering="sorted") + degH = (d for n, d in H.degree()) + degG = (d for n, d in G.degree()) + assert sorted(degH) == sorted(degG) + + H = nx.convert_node_labels_to_integers( + G, ordering="sorted", label_attribute="label" + ) + assert H.nodes[0]["label"] == "A" + assert H.nodes[1]["label"] == "B" + assert H.nodes[2]["label"] == "C" + assert H.nodes[3]["label"] == "D" + + def test_convert_to_integers_raise(self): + with pytest.raises(nx.NetworkXError): + G = nx.Graph() + H = nx.convert_node_labels_to_integers(G, ordering="increasing age") + + def test_relabel_nodes_copy(self): + G = nx.empty_graph() + G.add_edges_from([("A", "B"), ("A", "C"), ("B", "C"), ("C", "D")]) + mapping = {"A": "aardvark", "B": "bear", "C": "cat", "D": "dog"} + H = nx.relabel_nodes(G, mapping) + assert_nodes_equal(H.nodes(), ["aardvark", "bear", "cat", "dog"]) + + def test_relabel_nodes_function(self): + G = nx.empty_graph() + G.add_edges_from([("A", "B"), ("A", "C"), ("B", "C"), ("C", "D")]) + # function mapping no longer encouraged but works + + def mapping(n): + return ord(n) + + H = nx.relabel_nodes(G, mapping) + assert_nodes_equal(H.nodes(), [65, 66, 67, 68]) + + def test_relabel_nodes_graph(self): + G = nx.Graph([("A", "B"), ("A", "C"), ("B", "C"), ("C", "D")]) + mapping = {"A": "aardvark", "B": "bear", "C": "cat", "D": "dog"} + H = nx.relabel_nodes(G, mapping) + assert_nodes_equal(H.nodes(), ["aardvark", "bear", "cat", "dog"]) + + def test_relabel_nodes_orderedgraph(self): + G = nx.OrderedGraph() + G.add_nodes_from([1, 2, 3]) + G.add_edges_from([(1, 3), (2, 3)]) + mapping = {1: "a", 2: "b", 3: "c"} + H = nx.relabel_nodes(G, mapping) + assert list(H.nodes) == ["a", "b", "c"] + + def test_relabel_nodes_digraph(self): + G = nx.DiGraph([("A", "B"), ("A", "C"), ("B", "C"), ("C", "D")]) + mapping = {"A": "aardvark", "B": "bear", "C": "cat", "D": "dog"} + H = nx.relabel_nodes(G, mapping, copy=False) + assert_nodes_equal(H.nodes(), ["aardvark", "bear", "cat", "dog"]) + + def test_relabel_nodes_multigraph(self): + G = nx.MultiGraph([("a", "b"), ("a", "b")]) + mapping = {"a": "aardvark", "b": "bear"} + G = nx.relabel_nodes(G, mapping, copy=False) + assert_nodes_equal(G.nodes(), ["aardvark", "bear"]) + assert_edges_equal(G.edges(), [("aardvark", "bear"), ("aardvark", "bear")]) + + def test_relabel_nodes_multidigraph(self): + G = nx.MultiDiGraph([("a", "b"), ("a", "b")]) + mapping = {"a": "aardvark", "b": "bear"} + G = nx.relabel_nodes(G, mapping, copy=False) + assert_nodes_equal(G.nodes(), ["aardvark", "bear"]) + assert_edges_equal(G.edges(), [("aardvark", "bear"), ("aardvark", "bear")]) + + def test_relabel_isolated_nodes_to_same(self): + G = nx.Graph() + G.add_nodes_from(range(4)) + mapping = {1: 1} + H = nx.relabel_nodes(G, mapping, copy=False) + assert_nodes_equal(H.nodes(), list(range(4))) + + def test_relabel_nodes_missing(self): + with pytest.raises(KeyError): + G = nx.Graph([("A", "B"), ("A", "C"), ("B", "C"), ("C", "D")]) + mapping = {0: "aardvark"} + G = nx.relabel_nodes(G, mapping, copy=False) + + def test_relabel_copy_name(self): + G = nx.Graph() + H = nx.relabel_nodes(G, {}, copy=True) + assert H.graph == G.graph + H = nx.relabel_nodes(G, {}, copy=False) + assert H.graph == G.graph + G.name = "first" + H = nx.relabel_nodes(G, {}, copy=True) + assert H.graph == G.graph + H = nx.relabel_nodes(G, {}, copy=False) + assert H.graph == G.graph + + def test_relabel_toposort(self): + K5 = nx.complete_graph(4) + G = nx.complete_graph(4) + G = nx.relabel_nodes(G, {i: i + 1 for i in range(4)}, copy=False) + nx.is_isomorphic(K5, G) + G = nx.complete_graph(4) + G = nx.relabel_nodes(G, {i: i - 1 for i in range(4)}, copy=False) + nx.is_isomorphic(K5, G) + + def test_relabel_selfloop(self): + G = nx.DiGraph([(1, 1), (1, 2), (2, 3)]) + G = nx.relabel_nodes(G, {1: "One", 2: "Two", 3: "Three"}, copy=False) + assert_nodes_equal(G.nodes(), ["One", "Three", "Two"]) + G = nx.MultiDiGraph([(1, 1), (1, 2), (2, 3)]) + G = nx.relabel_nodes(G, {1: "One", 2: "Two", 3: "Three"}, copy=False) + assert_nodes_equal(G.nodes(), ["One", "Three", "Two"]) + G = nx.MultiDiGraph([(1, 1)]) + G = nx.relabel_nodes(G, {1: 0}, copy=False) + assert_nodes_equal(G.nodes(), [0]) + + def test_relabel_multidigraph_inout_merge_nodes(self): + for MG in (nx.MultiGraph, nx.MultiDiGraph): + for cc in (True, False): + G = MG([(0, 4), (1, 4), (4, 2), (4, 3)]) + G[0][4][0]["value"] = "a" + G[1][4][0]["value"] = "b" + G[4][2][0]["value"] = "c" + G[4][3][0]["value"] = "d" + G.add_edge(0, 4, key="x", value="e") + G.add_edge(4, 3, key="x", value="f") + mapping = {0: 9, 1: 9, 2: 9, 3: 9} + H = nx.relabel_nodes(G, mapping, copy=cc) + # No ordering on keys enforced + assert {"value": "a"} in H[9][4].values() + assert {"value": "b"} in H[9][4].values() + assert {"value": "c"} in H[4][9].values() + assert len(H[4][9]) == 3 if G.is_directed() else 6 + assert {"value": "d"} in H[4][9].values() + assert {"value": "e"} in H[9][4].values() + assert {"value": "f"} in H[4][9].values() + assert len(H[9][4]) == 3 if G.is_directed() else 6 + + def test_relabel_multigraph_merge_inplace(self): + G = nx.MultiGraph([(0, 1), (0, 2), (0, 3), (0, 1), (0, 2), (0, 3)]) + G[0][1][0]["value"] = "a" + G[0][2][0]["value"] = "b" + G[0][3][0]["value"] = "c" + mapping = {1: 4, 2: 4, 3: 4} + nx.relabel_nodes(G, mapping, copy=False) + # No ordering on keys enforced + assert {"value": "a"} in G[0][4].values() + assert {"value": "b"} in G[0][4].values() + assert {"value": "c"} in G[0][4].values() + + def test_relabel_multidigraph_merge_inplace(self): + G = nx.MultiDiGraph([(0, 1), (0, 2), (0, 3)]) + G[0][1][0]["value"] = "a" + G[0][2][0]["value"] = "b" + G[0][3][0]["value"] = "c" + mapping = {1: 4, 2: 4, 3: 4} + nx.relabel_nodes(G, mapping, copy=False) + # No ordering on keys enforced + assert {"value": "a"} in G[0][4].values() + assert {"value": "b"} in G[0][4].values() + assert {"value": "c"} in G[0][4].values() + + def test_relabel_multidigraph_inout_copy(self): + G = nx.MultiDiGraph([(0, 4), (1, 4), (4, 2), (4, 3)]) + G[0][4][0]["value"] = "a" + G[1][4][0]["value"] = "b" + G[4][2][0]["value"] = "c" + G[4][3][0]["value"] = "d" + G.add_edge(0, 4, key="x", value="e") + G.add_edge(4, 3, key="x", value="f") + mapping = {0: 9, 1: 9, 2: 9, 3: 9} + H = nx.relabel_nodes(G, mapping, copy=True) + # No ordering on keys enforced + assert {"value": "a"} in H[9][4].values() + assert {"value": "b"} in H[9][4].values() + assert {"value": "c"} in H[4][9].values() + assert len(H[4][9]) == 3 + assert {"value": "d"} in H[4][9].values() + assert {"value": "e"} in H[9][4].values() + assert {"value": "f"} in H[4][9].values() + assert len(H[9][4]) == 3 + + def test_relabel_multigraph_merge_copy(self): + G = nx.MultiGraph([(0, 1), (0, 2), (0, 3)]) + G[0][1][0]["value"] = "a" + G[0][2][0]["value"] = "b" + G[0][3][0]["value"] = "c" + mapping = {1: 4, 2: 4, 3: 4} + H = nx.relabel_nodes(G, mapping, copy=True) + assert {"value": "a"} in H[0][4].values() + assert {"value": "b"} in H[0][4].values() + assert {"value": "c"} in H[0][4].values() + + def test_relabel_multidigraph_merge_copy(self): + G = nx.MultiDiGraph([(0, 1), (0, 2), (0, 3)]) + G[0][1][0]["value"] = "a" + G[0][2][0]["value"] = "b" + G[0][3][0]["value"] = "c" + mapping = {1: 4, 2: 4, 3: 4} + H = nx.relabel_nodes(G, mapping, copy=True) + assert {"value": "a"} in H[0][4].values() + assert {"value": "b"} in H[0][4].values() + assert {"value": "c"} in H[0][4].values() + + def test_relabel_multigraph_nonnumeric_key(self): + for MG in (nx.MultiGraph, nx.MultiDiGraph): + for cc in (True, False): + G = nx.MultiGraph() + G.add_edge(0, 1, key="I", value="a") + G.add_edge(0, 2, key="II", value="b") + G.add_edge(0, 3, key="II", value="c") + mapping = {1: 4, 2: 4, 3: 4} + nx.relabel_nodes(G, mapping, copy=False) + assert {"value": "a"} in G[0][4].values() + assert {"value": "b"} in G[0][4].values() + assert {"value": "c"} in G[0][4].values() + assert 0 in G[0][4] + assert "I" in G[0][4] + assert "II" in G[0][4]