# Copyright 2001 by Tarjei Mikkelsen. All rights reserved. # Revisions copyright 2018 by Maximilian Greil. All rights reserved. # 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. # python unittest framework """Tests for Pathway module.""" import unittest # modules to be tested from Bio.Pathway import Reaction from Bio.Pathway.Rep.Graph import Graph from Bio.Pathway.Rep.MultiGraph import MultiGraph class GraphTestCase(unittest.TestCase): def test_Equals(self): a = Graph(["a", "b", "c"]) a.add_edge("a", "b", "label1") a.add_edge("b", "c", "label1") a.add_edge("b", "a", "label2") b = Graph(["a", "b", "c"]) self.assertNotEqual(a, b, "equal to similar nodes, no edges") b.add_edge("a", "b", "label1") self.assertNotEqual(a, b, "equal to similar nodes, edge subset") b.add_edge("b", "c", "label1") b.add_edge("b", "a", "label2") self.assertEqual(a, b, "not equal to similar") c = Graph(["a", "b", "c"]) c.add_edge("a", "b", "label2") c.add_edge("b", "c", "label2") c.add_edge("b", "a", "label1") self.assertNotEqual(a, c, "equal to similar with different labels") self.assertNotEqual(c, Graph(), "equal to empty graph") self.assertEqual(Graph(), Graph(), "empty graph not equal to self") def test_Nodes(self): a = Graph() self.assertEqual(a.nodes(), [], "default graph not empty") a.add_node("a") self.assertEqual(a.nodes(), ["a"], "one node not added") a.add_node("a") self.assertEqual(a.nodes(), ["a"], "duplicate node added") a.add_node("b") self.assertEqual(sorted(a.nodes()), ["a", "b"], "second node not added") def test_Edges(self): a = Graph(["a", "b", "c", "d"]) a.add_edge("a", "b", "label1") self.assertEqual(a.child_edges("a"), [("b", "label1")]) a.add_edge("b", "a", "label2") self.assertEqual(a.parent_edges("a"), [("b", "label2")]) a.add_edge("b", "c", "label3") self.assertEqual(a.parent_edges("c"), [("b", "label3")]) self.assertEqual(sorted(a.children("b")), ["a", "c"], "incorrect children") self.assertEqual(a.children("d"), [], "incorrect children for singleton") self.assertEqual(a.parents("a"), ["b"], "incorrect parents") def test_RemoveNode(self): a = Graph(["a", "b", "c", "d", "e"]) a.add_edge("a", "e", "label1") a.add_edge("b", "e", "label1") a.add_edge("c", "e", "label2") a.add_edge("d", "e", "label3") a.add_edge("e", "d", "label4") a.add_edge("a", "b", "label5") a.remove_node("e") b = Graph(["a", "b", "c", "d"]) b.add_edge("a", "b", "label5") self.assertEqual(a, b) # , "incorrect node removal") def testAdditionalFunctions(self): a = Graph(["a", "b", "c"]) a.add_edge("a", "b", "label1") a.add_edge("b", "c", "label1") a.add_edge("b", "a", "label2") self.assertEqual(str(a), "") self.assertEqual( repr(a), "", ) self.assertEqual(a.edges("label1"), [("a", "b"), ("b", "c")]) self.assertEqual(a.labels(), ["label1", "label2"]) class MultiGraphTestCase(unittest.TestCase): def test_Equals(self): a = MultiGraph(["a", "b", "c"]) a.add_edge("a", "b", "label1") a.add_edge("b", "c", "label1") a.add_edge("b", "a", "label2") b = MultiGraph(["a", "b", "c"]) self.assertNotEqual(a, b, "equal to similar nodes, no edges") b.add_edge("a", "b", "label1") self.assertNotEqual(a, b, "equal to similar nodes, edge subset") b.add_edge("b", "c", "label1") b.add_edge("b", "a", "label2") self.assertEqual(a, b, "not equal to similar") c = MultiGraph(["a", "b", "c"]) c.add_edge("a", "b", "label2") c.add_edge("b", "c", "label2") c.add_edge("b", "a", "label1") self.assertNotEqual(a, c, "equal to similar with different labels") self.assertNotEqual(c, MultiGraph(), "equal to empty graph") self.assertEqual(MultiGraph(), MultiGraph(), "empty graph not equal to self") def test_Nodes(self): a = MultiGraph() self.assertEqual(a.nodes(), [], "default graph not empty") a.add_node("a") self.assertEqual(a.nodes(), ["a"], "one node not added") a.add_node("a") self.assertEqual(a.nodes(), ["a"], "duplicate node added") a.add_node("b") self.assertEqual(sorted(a.nodes()), ["a", "b"], "second node not added") def test_Edges(self): a = MultiGraph(["a", "b", "c", "d"]) a.add_edge("a", "b", "label1") self.assertEqual(a.child_edges("a"), [("b", "label1")]) a.add_edge("a", "b", "label2") self.assertEqual(sorted(a.child_edges("a")), [("b", "label1"), ("b", "label2")]) a.add_edge("b", "a", "label2") self.assertEqual(a.parent_edges("a"), [("b", "label2")]) a.add_edge("b", "c", "label3") self.assertEqual(a.parent_edges("c"), [("b", "label3")]) children = a.children("b") children.sort() self.assertEqual(children, ["a", "c"], "incorrect children") self.assertEqual(a.children("d"), [], "incorrect children for singleton") self.assertEqual(a.parents("a"), ["b"], "incorrect parents") def test_RemoveNode(self): a = MultiGraph(["a", "b", "c", "d", "e"]) a.add_edge("a", "e", "label1") self.assertEqual( repr(a), "" ) a.add_edge("b", "e", "label1") a.add_edge("c", "e", "label2") a.add_edge("d", "e", "label3") a.add_edge("e", "d", "label4") a.add_edge("a", "b", "label5") self.assertEqual( repr(a), "", ) a.remove_node("e") self.assertEqual( repr(a), "" ) b = MultiGraph(["a", "b", "c", "d"]) b.add_edge("a", "b", "label5") self.assertEqual( repr(b), "" ) self.assertEqual(repr(a), repr(b)) self.assertEqual(a, b) # , "incorrect node removal") def testAdditionalFunctions(self): a = MultiGraph(["a", "b", "c"]) a.add_edge("a", "b", "label1") a.add_edge("b", "c", "label1") a.add_edge("b", "a", "label2") self.assertEqual( str(a), "" ) self.assertEqual(a.edges("label1"), [("a", "b"), ("b", "c")]) self.assertEqual(a.labels(), ["label1", "label2"]) class ReactionTestCase(unittest.TestCase): def setUp(self): self.r_empty = Reaction() self.r_prod = Reaction({"a": 1}) self.r_dest = Reaction({"a": -1}) self.r_1 = Reaction({"a": -1, "b": 1}) self.r_1i = Reaction({"a": -1, "b": 1, "c": 0}) self.r_2 = Reaction({"b": -1, "c": 1}) self.r_3 = Reaction({"a": -1, "d": 2}) self.r_4 = Reaction({"c": -1, "d": -1, "a": 1, "e": 2}) def test_eq(self): self.assertEqual(self.r_1, self.r_1i) # , "not equal to similar") self.assertNotEqual(self.r_3, self.r_4) # , "equal to different") def test_rev(self): self.assertEqual( self.r_empty.reverse(), self.r_empty, "empty reversed not empty" ) self.assertEqual( self.r_prod.reverse(), self.r_dest, "reversed reaction not equal to similar" ) self.assertEqual( self.r_4.reverse(), Reaction({"c": 1, "d": 1, "a": -1, "e": -2}), "reversed reaction not equal to similar", ) self.assertEqual( self.r_3.reverse().reverse(), self.r_3, "double reversal not identity" ) if __name__ == "__main__": runner = unittest.TextTestRunner(verbosity=2) unittest.main(testRunner=runner)