enviPy-bayer/tests/test_multigen_eval.py

import json
from django.test import TestCase
from networkx.utils.misc import graphs_equal
from epdb.logic import PackageManager, SPathway
from epdb.models import Pathway, User, Package
from utilities.ml import multigen_eval, pathway_edit_eval, graph_from_pathway


class MultiGenTest(TestCase):
    fixtures = ["test_fixtures.jsonl.gz"]

    @classmethod
    def setUpClass(cls):
        super(MultiGenTest, cls).setUpClass()
        cls.user: 'User' = User.objects.get(username='anonymous')
        cls.package: 'Package' = PackageManager.create_package(cls.user, 'Anon Test Package', 'No Desc')
        cls.BBD_SUBSET: 'Package' = Package.objects.get(name='Fixtures')

    def test_equal_pathways(self):
        """Test that two identical pathways return a precision and recall of 1.0"""
        pathways = self.BBD_SUBSET.pathways.all()
        for pathway in pathways:
            if len(pathway.edge_set.all()) == 0:  # Do not test pathways with no edges
                continue
            score, precision, recall = multigen_eval(pathway, pathway)
            self.assertEqual(precision, 1.0, f"Precision should be one for identical pathways. "
                                             f"Failed on pathway: {pathway.name}")
            self.assertEqual(recall, 1.0, f"Recall should be one for identical pathways. "
                                          f"Failed on pathway: {pathway.name}")

    def test_intermediates(self):
        """Test that an intermediate can be correctly identified and the metrics are correctly adjusted"""
        score, precision, recall, intermediates = multigen_eval(*self.intermediate_case(), return_intermediates=True)
        self.assertEqual(len(intermediates), 1, "There should be 1 found intermediate")
        self.assertEqual(precision, 1, "Precision should be 1")
        self.assertEqual(recall, 1, "Recall should be 1")

    def test_fp(self):
        """Test that a false-positive (extra compound) is correctly penalised"""
        score, precision, recall = multigen_eval(*self.fp_case())
        self.assertAlmostEqual(precision, 0.75, 3, "Precision should be 0.75")
        self.assertEqual(recall, 1, "Recall should be 1")

    def test_fn(self):
        """Test that a false-negative (missed compound) is correctly penalised"""
        score, precision, recall = multigen_eval(*self.fn_case())
        self.assertEqual(precision, 1, "Precision should be 1.0")
        self.assertAlmostEqual(recall, 0.667, 3, "Recall should be 0.667")

    def test_all(self):
        """Test an intermediate, false-positive and false-negative together"""
        score, precision, recall, intermediates = multigen_eval(*self.all_case(), return_intermediates=True)
        self.assertEqual(len(intermediates), 1, "There should be 1 found intermediate")
        self.assertAlmostEqual(precision, 0.6, 3, "Precision should be 0.6")
        self.assertAlmostEqual(recall, 0.75, 3, "Recall should be 0.75")

    def test_shallow_pathway(self):
        pathways = self.BBD_SUBSET.pathways.all()
        for pathway in pathways:
            pathway_name = pathway.name
            if len(pathway.edge_set.all()) == 0:  # Do not test pathways with no edges
                continue
            shallow_pathway = graph_from_pathway(SPathway.from_pathway(pathway))
            pathway = graph_from_pathway(pathway)
            if not graphs_equal(shallow_pathway, pathway):
                print('\n\nS', shallow_pathway.adj)
                print('\n\nPW', pathway.adj)
                # print(shallow_pathway.nodes, pathway.nodes)
                # print(shallow_pathway.graph, pathway.graph)

            self.assertTrue(graphs_equal(shallow_pathway, pathway), f"Networkx graph from shallow pathway not "
                                                                    f"equal to pathway for pathway {pathway.name}")

    def test_graph_edit_eval(self):
        """Performs all the previous tests but with graph_edit_eval
        Unlike multigen_eval, these test cases have not been hand verified"""
        pathways = self.BBD_SUBSET.pathways.all()
        for pathway in pathways:
            if len(pathway.edge_set.all()) == 0:  # Do not test pathways with no edges
                continue
            score = pathway_edit_eval(pathway, pathway)
            self.assertEqual(score, 0.0, "Pathway edit distance should be zero for identical pathways. "
                                         f"Failed on pathway: {pathway.name}")
        inter_score = pathway_edit_eval(*self.intermediate_case())
        self.assertAlmostEqual(inter_score, 1.75, 3, "Pathway edit distance failed on intermediate case")
        fp_score = pathway_edit_eval(*self.fp_case())
        self.assertAlmostEqual(fp_score, 1.25, 3, "Pathway edit distance failed on fp case")
        fn_score = pathway_edit_eval(*self.fn_case())
        self.assertAlmostEqual(fn_score, 1.25, 3, "Pathway edit distance failed on fn case")
        all_score = pathway_edit_eval(*self.all_case())
        self.assertAlmostEqual(all_score, 1.0, 3, "Pathway edit distance failed on all case")

    def intermediate_case(self):
        """Create an example with an intermediate in the predicted pathway"""
        true_pathway = Pathway.create(self.package, "CCO")
        true_pathway.add_edge([true_pathway.root_nodes.all()[0]], [true_pathway.add_node("CC(=O)O", depth=1)])
        pred_pathway = Pathway.create(self.package, "CCO")
        pred_pathway.add_edge([pred_pathway.root_nodes.all()[0]],
                              [acetaldehyde := pred_pathway.add_node("CC=O", depth=1)])
        pred_pathway.add_edge([acetaldehyde], [pred_pathway.add_node("CC(=O)O", depth=2)])
        return true_pathway, pred_pathway

    def fp_case(self):
        """Create an example with an extra compound in the predicted pathway"""
        true_pathway = Pathway.create(self.package, "CCO")
        true_pathway.add_edge([true_pathway.root_nodes.all()[0]],
                              [acetaldehyde := true_pathway.add_node("CC=O", depth=1)])
        true_pathway.add_edge([acetaldehyde], [true_pathway.add_node("CC(=O)O", depth=2)])
        pred_pathway = Pathway.create(self.package, "CCO")
        pred_pathway.add_edge([pred_pathway.root_nodes.all()[0]],
                              [acetaldehyde := pred_pathway.add_node("CC=O", depth=1)])
        pred_pathway.add_edge([acetaldehyde], [pred_pathway.add_node("CC(=O)O", depth=2)])
        pred_pathway.add_edge([acetaldehyde], [pred_pathway.add_node("C", depth=2)])
        return true_pathway, pred_pathway

    def fn_case(self):
        """Create an example with a missing compound in the predicted pathway"""
        true_pathway = Pathway.create(self.package, "CCO")
        true_pathway.add_edge([true_pathway.root_nodes.all()[0]],
                              [acetaldehyde := true_pathway.add_node("CC=O", depth=1)])
        true_pathway.add_edge([acetaldehyde], [true_pathway.add_node("CC(=O)O", depth=2)])
        pred_pathway = Pathway.create(self.package, "CCO")
        pred_pathway.add_edge([pred_pathway.root_nodes.all()[0]], [pred_pathway.add_node("CC=O", depth=1)])
        return true_pathway, pred_pathway

    def all_case(self):
        """Create an example with an intermediate, extra compound and missing compound"""
        true_pathway = Pathway.create(self.package, "CCO")
        true_pathway.add_edge([true_pathway.root_nodes.all()[0]],
                              [acetaldehyde := true_pathway.add_node("CC=O", depth=1)])
        true_pathway.add_edge([acetaldehyde], [true_pathway.add_node("C", depth=2)])
        true_pathway.add_edge([acetaldehyde], [true_pathway.add_node("CC(=O)O", depth=2)])
        pred_pathway = Pathway.create(self.package, "CCO")
        pred_pathway.add_edge([pred_pathway.root_nodes.all()[0]], [methane := pred_pathway.add_node("C", depth=1)])
        pred_pathway.add_edge([methane], [true_pathway.add_node("CC=O", depth=2)])
        pred_pathway.add_edge([methane], [true_pathway.add_node("c1ccccc1", depth=2)])
        return true_pathway, pred_pathway