import networkx as nx def test_unionfind(): # Fixed by: 2cddd5958689bdecdcd89b91ac9aaf6ce0e4f6b8 # Previously (in 2.x), the UnionFind class could handle mixed types. # But in Python 3.x, this causes a TypeError such as: # TypeError: unorderable types: str() > int() # # Now we just make sure that no exception is raised. x = nx.utils.UnionFind() x.union(0, "a") def test_subtree_union(): # See https://github.com/networkx/networkx/pull/3224 # (35db1b551ee65780794a357794f521d8768d5049). # Test if subtree unions hare handled correctly by to_sets(). uf = nx.utils.UnionFind() uf.union(1, 2) uf.union(3, 4) uf.union(4, 5) uf.union(1, 5) assert list(uf.to_sets()) == [{1, 2, 3, 4, 5}] def test_unionfind_weights(): # Tests if weights are computed correctly with unions of many elements uf = nx.utils.UnionFind() uf.union(1, 4, 7) uf.union(2, 5, 8) uf.union(3, 6, 9) uf.union(1, 2, 3, 4, 5, 6, 7, 8, 9) assert uf.weights[uf[1]] == 9 def test_unbalanced_merge_weights(): # Tests if the largest set's root is used as the new root when merging uf = nx.utils.UnionFind() uf.union(1, 2, 3) uf.union(4, 5, 6, 7, 8, 9) assert uf.weights[uf[1]] == 3 assert uf.weights[uf[4]] == 6 largest_root = uf[4] uf.union(1, 4) assert uf[1] == largest_root assert uf.weights[largest_root] == 9 def test_empty_union(): # Tests if a null-union does nothing. uf = nx.utils.UnionFind((0, 1)) uf.union() assert uf[0] == 0 assert uf[1] == 1