from io import BytesIO import tempfile from unittest import TestCase import networkx as nx import networkx.readwrite.graph6 as g6 from networkx.testing.utils import assert_edges_equal from networkx.testing.utils import assert_nodes_equal class TestGraph6Utils(object): def test_n_data_n_conversion(self): for i in [0, 1, 42, 62, 63, 64, 258047, 258048, 7744773, 68719476735]: assert g6.data_to_n(g6.n_to_data(i))[0] == i assert g6.data_to_n(g6.n_to_data(i))[1] == [] assert (g6.data_to_n(g6.n_to_data(i) + [42, 43])[1] == [42, 43]) class TestFromGraph6Bytes(TestCase): def test_from_graph6_bytes(self): data = b'DF{' G = nx.from_graph6_bytes(data) assert_nodes_equal(G.nodes(), [0, 1, 2, 3, 4]) assert_edges_equal(G.edges(), [(0, 3), (0, 4), (1, 3), (1, 4), (2, 3), (2, 4), (3, 4)]) def test_read_equals_from_bytes(self): data = b'DF{' G = nx.from_graph6_bytes(data) fh = BytesIO(data) Gin = nx.read_graph6(fh) assert_nodes_equal(G.nodes(), Gin.nodes()) assert_edges_equal(G.edges(), Gin.edges()) class TestReadGraph6(TestCase): def test_read_many_graph6(self): """Test for reading many graphs from a file into a list.""" data = b'DF{\nD`{\nDqK\nD~{\n' fh = BytesIO(data) glist = nx.read_graph6(fh) assert len(glist) == 4 for G in glist: assert sorted(G) == list(range(5)) class TestWriteGraph6(TestCase): """Unit tests for writing a graph to a file in graph6 format.""" def test_null_graph(self): result = BytesIO() nx.write_graph6(nx.null_graph(), result) self.assertEqual(result.getvalue(), b'>>graph6<>graph6<<@\n') def test_complete_graph(self): result = BytesIO() nx.write_graph6(nx.complete_graph(4), result) self.assertEqual(result.getvalue(), b'>>graph6<>graph6<>graph6<>graph6<>graph6<