import pytest import networkx as nx from networkx.utils import arbitrary_element, graphs_equal @pytest.mark.parametrize("prefix_tree_fn", (nx.prefix_tree, nx.prefix_tree_recursive)) def test_basic_prefix_tree(prefix_tree_fn): # This example is from the Wikipedia article "Trie" # . strings = ["a", "to", "tea", "ted", "ten", "i", "in", "inn"] T = prefix_tree_fn(strings) root, NIL = 0, -1 def source_label(v): return T.nodes[v]["source"] # First, we check that the tree has the expected # structure. Recall that each node that corresponds to one of # the input strings has an edge to the NIL node. # # Consider the three children at level 1 in the trie. a, i, t = sorted(T[root], key=source_label) # Check the 'a' branch. assert len(T[a]) == 1 nil = arbitrary_element(T[a]) assert len(T[nil]) == 0 # Check the 'i' branch. assert len(T[i]) == 2 nil, in_ = sorted(T[i], key=source_label) assert len(T[nil]) == 0 assert len(T[in_]) == 2 nil, inn = sorted(T[in_], key=source_label) assert len(T[nil]) == 0 assert len(T[inn]) == 1 nil = arbitrary_element(T[inn]) assert len(T[nil]) == 0 # Check the 't' branch. te, to = sorted(T[t], key=source_label) assert len(T[to]) == 1 nil = arbitrary_element(T[to]) assert len(T[nil]) == 0 tea, ted, ten = sorted(T[te], key=source_label) assert len(T[tea]) == 1 assert len(T[ted]) == 1 assert len(T[ten]) == 1 nil = arbitrary_element(T[tea]) assert len(T[nil]) == 0 nil = arbitrary_element(T[ted]) assert len(T[nil]) == 0 nil = arbitrary_element(T[ten]) assert len(T[nil]) == 0 # Next, we check that the "sources" of each of the nodes is the # rightmost letter in the string corresponding to the path to # that node. assert source_label(root) is None assert source_label(a) == "a" assert source_label(i) == "i" assert source_label(t) == "t" assert source_label(in_) == "n" assert source_label(inn) == "n" assert source_label(to) == "o" assert source_label(te) == "e" assert source_label(tea) == "a" assert source_label(ted) == "d" assert source_label(ten) == "n" assert source_label(NIL) == "NIL" @pytest.mark.parametrize( "strings", ( ["a", "to", "tea", "ted", "ten", "i", "in", "inn"], ["ab", "abs", "ad"], ["ab", "abs", "ad", ""], ["distant", "disparaging", "distant", "diamond", "ruby"], ), ) def test_implementations_consistent(strings): """Ensure results are consistent between prefix_tree implementations.""" assert graphs_equal(nx.prefix_tree(strings), nx.prefix_tree_recursive(strings)) def test_random_tree(): """Tests that a random tree is in fact a tree.""" T = nx.random_tree(10, seed=1234) assert nx.is_tree(T) def test_random_tree_n_zero(): """Tests if n = 0 then the NetworkXPointlessConcept exception is raised.""" with pytest.raises(nx.NetworkXPointlessConcept): T = nx.random_tree(0, seed=1234) def test_random_tree_using_generator(): """Tests that creating a ramdom tree with a generator works""" G = nx.Graph() T = nx.random_tree(10, seed=1234, create_using=G) assert nx.is_tree(T)