# Copyright (C) 2009 by Eric Talevich (eric.talevich@gmail.com) # This code is part of the Biopython distribution and governed by its # license. Please see the LICENSE file that should have been included # as part of this package. """Unit tests for the Bio.Phylo module.""" import unittest from cStringIO import StringIO from Bio import Phylo from Bio.Phylo import PhyloXML # Example Newick and Nexus files EX_NEWICK = 'Nexus/int_node_labels.nwk' EX_NEXUS = 'Nexus/test_Nexus_input.nex' # Example PhyloXML files EX_APAF = 'PhyloXML/apaf.xml' EX_BCL2 = 'PhyloXML/bcl_2.xml' EX_PHYLO = 'PhyloXML/phyloxml_examples.xml' class IOTests(unittest.TestCase): """Tests for parsing and writing the supported formats.""" def setUp(self): self.mem_file = StringIO() def test_newick(self): """Read a Newick file with one tree.""" tree = Phylo.read(EX_NEWICK, 'newick') self.assertEqual(len(tree.get_terminals()), 28) def test_newick(self): """Parse a Nexus file with multiple trees.""" trees = list(Phylo.parse(EX_NEXUS, 'nexus')) self.assertEqual(len(trees), 3) for tree in trees: self.assertEqual(len(tree.get_terminals()), 9) def test_convert(self): """Convert a tree between all supported formats.""" mem_file_2 = StringIO() mem_file_3 = StringIO() Phylo.convert(EX_NEWICK, 'newick', self.mem_file, 'nexus') self.mem_file.seek(0) Phylo.convert(self.mem_file, 'nexus', mem_file_2, 'phyloxml') mem_file_2.seek(0) Phylo.convert(mem_file_2, 'phyloxml', mem_file_3, 'newick') mem_file_3.seek(0) tree = Phylo.read(mem_file_3, 'newick') self.assertEqual(len(tree.get_terminals()), 28) class TreeTests(unittest.TestCase): """Tests for methods on BaseTree.Tree objects.""" def test_root_with_outgroup(self): """Tree.root_with_outgroup: reroot at a given clade.""" tree = Phylo.read(EX_APAF, 'phyloxml') orig_num_tips = len(tree.get_terminals()) orig_tree_len = tree.total_branch_length() tree.root_with_outgroup({'name': '19_NEMVE'}, {'name': '20_NEMVE'}) self.assertEqual(orig_num_tips, len(tree.get_terminals())) self.assertAlmostEqual(orig_tree_len, tree.total_branch_length()) # Magic method def test_str(self): """Tree.__str__: pretty-print to a string. NB: The exact line counts are liable to change if the object constructors change. """ for source, count in zip((EX_APAF, EX_BCL2), (386, 747)): tree = Phylo.read(source, 'phyloxml') output = str(tree) self.assertEqual(len(output.splitlines()), count) class MixinTests(unittest.TestCase): """Tests for TreeMixin methods.""" def setUp(self): self.phylogenies = list(Phylo.parse(EX_PHYLO, 'phyloxml')) # Traversal methods def test_find_elements(self): """TreeMixin: find_elements() method.""" # From the docstring example tree = self.phylogenies[5] matches = list(tree.find_elements(PhyloXML.Taxonomy, code='OCTVU')) self.assertEqual(len(matches), 1) self.assertTrue(isinstance(matches[0], PhyloXML.Taxonomy)) self.assertEqual(matches[0].code, 'OCTVU') self.assertEqual(matches[0].scientific_name, 'Octopus vulgaris') # Iteration and regexps tree = self.phylogenies[10] for point, alt in zip(tree.find_elements(geodetic_datum=r'WGS\d{2}'), (472, 10, 452)): self.assertTrue(isinstance(point, PhyloXML.Point)) self.assertEqual(point.geodetic_datum, 'WGS84') self.assertAlmostEqual(point.alt, alt) # class filter tree = self.phylogenies[4] events = list(tree.find_elements(PhyloXML.Events)) self.assertEqual(len(events), 2) self.assertEqual(events[0].speciations, 1) self.assertEqual(events[1].duplications, 1) # integer filter tree = Phylo.read(EX_APAF, 'phyloxml') domains = list(tree.find_elements(start=5)) self.assertEqual(len(domains), 8) for dom in domains: self.assertEqual(dom.start, 5) self.assertEqual(dom.value, 'CARD') def test_find_clades(self): """TreeMixin: find_clades() method.""" # boolean filter for clade, name in zip(self.phylogenies[10].find_clades(name=True), list('ABCD')): self.assertTrue(isinstance(clade, PhyloXML.Clade)) self.assertEqual(clade.name, name) # finding deeper attributes octo = list(self.phylogenies[5].find_clades(code='OCTVU')) self.assertEqual(len(octo), 1) self.assertTrue(isinstance(octo[0], PhyloXML.Clade)) self.assertEqual(octo[0].taxonomies[0].code, 'OCTVU') def test_find_terminal(self): """TreeMixin: find_elements() with terminal argument.""" for tree, total, extern, intern in zip( self.phylogenies, (6, 6, 7, 18, 21, 27, 7, 9, 9, 19, 15, 9, 6), (3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 4, 3, 3), (3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3), ): self.assertEqual(len(list(tree.find_elements())), total) self.assertEqual(len(list(tree.find_elements(terminal=True))), extern) self.assertEqual(len(list(tree.find_elements(terminal=False))), intern) def test_get_path(self): """TreeMixin: get_path() method.""" path = self.phylogenies[1].get_path({'name': 'B'}) self.assertEqual(len(path), 2) self.assertAlmostEqual(path[0].branch_length, 0.06) self.assertAlmostEqual(path[1].branch_length, 0.23) self.assertEqual(path[1].name, 'B') def test_trace(self): """TreeMixin: trace() method.""" tree = self.phylogenies[1] path = tree.trace({'name': 'A'}, {'name': 'C'}) self.assertEqual(len(path), 3) self.assertAlmostEqual(path[0].branch_length, 0.06) self.assertAlmostEqual(path[2].branch_length, 0.4) self.assertEqual(path[2].name, 'C') # Information methods def test_common_ancestor(self): """TreeMixin: common_ancestor() method.""" tree = self.phylogenies[1] lca = tree.common_ancestor({'name': 'A'}, {'name': 'B'}) self.assertEqual(lca, tree.clade[0]) lca = tree.common_ancestor({'name': 'A'}, {'name': 'C'}) self.assertEqual(lca, tree.clade) tree = self.phylogenies[10] lca = tree.common_ancestor({'name': 'A'}, {'name': 'B'}, {'name': 'C'}) self.assertEqual(lca, tree.clade[0]) def test_depths(self): """TreeMixin: depths() method.""" tree = self.phylogenies[1] depths = tree.depths() self.assertEqual(len(depths), 5) for found, expect in zip(sorted(depths.values()), [0, 0.060, 0.162, 0.290, 0.400]): self.assertAlmostEqual(found, expect) def test_distance(self): """TreeMixin: distance() method.""" t = self.phylogenies[1] self.assertAlmostEqual(t.distance({'name': 'A'}), 0.162) self.assertAlmostEqual(t.distance({'name': 'B'}), 0.29) self.assertAlmostEqual(t.distance({'name': 'C'}), 0.4) self.assertAlmostEqual(t.distance({'name': 'A'}, {'name': 'B'}), 0.332) self.assertAlmostEqual(t.distance({'name': 'A'}, {'name': 'C'}), 0.562) self.assertAlmostEqual(t.distance({'name': 'B'}, {'name': 'C'}), 0.69) def test_is_bifurcating(self): """TreeMixin: is_bifurcating() method.""" for tree, is_b in zip(self.phylogenies, (1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 1, 1)): self.assertEqual(tree.is_bifurcating(), is_b) def test_is_monophyletic(self): """TreeMixin: is_monophyletic() method.""" tree = self.phylogenies[10] abcd = tree.get_terminals() abc = tree.clade[0].get_terminals() ab = abc[:2] d = tree.clade[1].get_terminals() self.assertEqual(tree.is_monophyletic(abcd), tree.root) self.assertEqual(tree.is_monophyletic(abc), tree.clade[0]) self.assertEqual(tree.is_monophyletic(ab), False) self.assertEqual(tree.is_monophyletic(d), tree.clade[1]) def test_total_branch_length(self): """TreeMixin: total_branch_length() method.""" tree = self.phylogenies[1] self.assertAlmostEqual(tree.total_branch_length(), 0.792) self.assertAlmostEqual(tree.clade[0].total_branch_length(), 0.392) # Tree manipulation methods def test_collapse(self): """TreeMixin: collapse() method.""" tree = self.phylogenies[1] parent = tree.collapse(tree.clade[0]) self.assertEqual(len(parent), 3) for clade, name, blength in zip(parent, ('C', 'A', 'B'), (0.4, 0.162, 0.29)): self.assertEqual(clade.name, name) self.assertAlmostEqual(clade.branch_length, blength) def test_collapse_all(self): """TreeMixin: collapse_all() method.""" tree = Phylo.read(EX_APAF, 'phyloxml') d1 = tree.depths() tree.collapse_all() d2 = tree.depths() # Total branch lengths should not change for clade in d2: self.assertAlmostEqual(d1[clade], d2[clade]) # No internal nodes should remain except the root self.assertEqual(len(tree.get_terminals()), len(tree.clade)) self.assertEqual(len(list(tree.find_clades(terminal=False))), 1) def test_ladderize(self): """TreeMixin: ladderize() method.""" def ordered_names(tree): return [n.name for n in tree.get_terminals()] tree = self.phylogenies[10] self.assertEqual(ordered_names(tree), list('ABCD')) tree.ladderize() self.assertEqual(ordered_names(tree), list('DABC')) tree.ladderize(reverse=True) self.assertEqual(ordered_names(tree), list('ABCD')) def test_prune(self): """TreeMixin: prune() method.""" tree = self.phylogenies[10] # Taxon in a trifurcation -- no collapse afterward parent = tree.prune(name='B') self.assertEqual(len(parent.clades), 2) self.assertEqual(parent.clades[0].name, 'A') self.assertEqual(parent.clades[1].name, 'C') self.assertEqual(len(tree.get_terminals()), 3) self.assertEqual(len(tree.get_nonterminals()), 2) # Taxon in a bifurcation -- collapse tree = self.phylogenies[0] parent = tree.prune(name='A') self.assertEqual(len(parent.clades), 2) for clade, name, blen in zip(parent, 'BC', (.29, .4)): self.assertTrue(clade.is_terminal()) self.assertEqual(clade.name, name) self.assertAlmostEqual(clade.branch_length, blen) self.assertEqual(len(tree.get_terminals()), 2) self.assertEqual(len(tree.get_nonterminals()), 1) # Taxon just below the root -- don't screw up tree = self.phylogenies[1] parent = tree.prune(name='C') self.assertEqual(parent, tree.root) self.assertEqual(len(parent.clades), 2) for clade, name, blen in zip(parent, 'AB', (.102, .23)): self.assertTrue(clade.is_terminal()) self.assertEqual(clade.name, name) self.assertAlmostEqual(clade.branch_length, blen) self.assertEqual(len(tree.get_terminals()), 2) self.assertEqual(len(tree.get_nonterminals()), 1) def test_split(self): """TreeMixin: split() method.""" tree = self.phylogenies[0] C = tree.clade[1] C.split() self.assertEqual(len(C), 2) self.assertEqual(len(tree.get_terminals()), 4) self.assertEqual(len(tree.get_nonterminals()), 3) C[0].split(3, .5) self.assertEqual(len(tree.get_terminals()), 6) self.assertEqual(len(tree.get_nonterminals()), 4) for clade, name, blen in zip(C[0], ('C00', 'C01', 'C02'), (0.5, 0.5, 0.5)): self.assertTrue(clade.is_terminal()) self.assertEqual(clade.name, name) self.assertEqual(clade.branch_length, blen) # --------------------------------------------------------- if __name__ == '__main__': runner = unittest.TextTestRunner(verbosity=2) unittest.main(testRunner=runner)