Example #1
0
 def verify(self, ts, sample_sets):
     A1 = self.simple_mean_sample_ancestry(ts, sample_sets)
     A2 = tsinfer.mean_sample_ancestry(ts, sample_sets)
     self.assertEqual(A1.shape, A2.shape)
     # for tree in ts.trees():
     #     print(tree.interval)
     #     print(tree.draw(format="unicode"))
     # print()
     # for node in ts.nodes():
     #     print(node.id, np.sum(A2[:, node.id]), A2[:, node.id], sep="\t")
     self.assertTrue(np.allclose(A1, A2))
     S = np.sum(A1, axis=0)
     self.assertTrue(np.allclose(S[S != 0], 1))
     return A1
Example #2
0
 def test_span_zero_nodes(self):
     ts = msprime.simulate(10, random_seed=1)
     tables = ts.dump_tables()
     # Add in a few unreferenced nodes.
     u1 = tables.nodes.add_row(flags=0, time=1234)
     u2 = tables.nodes.add_row(flags=1, time=1234)
     ts = tables.tree_sequence()
     sample_sets = [[j] for j in range(10)]
     A1 = self.simple_mean_sample_ancestry(ts, sample_sets)
     A2 = tsinfer.mean_sample_ancestry(ts, sample_sets)
     S = np.sum(A1, axis=0)
     self.assertTrue(np.allclose(A1, A2))
     self.assertTrue(np.allclose(S[:u1], 1))
     self.assertTrue(np.all(A1[:, u1] == 0))
     self.assertTrue(np.all(A1[:, u2] == 0))
Example #3
0
 def test_two_populations_overlapping_samples(self):
     ts = self.two_populations_high_migration_example()
     with self.assertRaises(ValueError):
         tsinfer.mean_sample_ancestry(ts, [[1], [1]])
     with self.assertRaises(ValueError):
         tsinfer.mean_sample_ancestry(ts, [[1, 1], [2]])