# Copyright 2009-2017 by Peter Cock. 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. """SeqFeature related tests for SeqRecord objects from Bio.SeqIO. Initially this takes matched tests of GenBank and FASTA files from the NCBI and confirms they are consistent using our different parsers. """ import unittest from Bio import SeqIO from Bio.Seq import MutableSeq from Bio.Seq import Seq from Bio.SeqFeature import AfterPosition from Bio.SeqFeature import BeforePosition from Bio.SeqFeature import ExactPosition from Bio.SeqFeature import FeatureLocation from Bio.SeqFeature import OneOfPosition from Bio.SeqFeature import SeqFeature from Bio.SeqFeature import WithinPosition from Bio.SeqRecord import SeqRecord class SeqRecordCreation(unittest.TestCase): """Test basic creation of SeqRecords.""" def test_annotations(self): """Pass in annotations to SeqRecords.""" rec = SeqRecord(Seq("ACGT"), id="Test", name="Test", description="Test") self.assertEqual(rec.annotations, {}) rec = SeqRecord( Seq("ACGT"), id="Test", name="Test", description="Test", annotations={"test": ["a test"]}, ) self.assertEqual(rec.annotations["test"], ["a test"]) def test_letter_annotations(self): """Pass in letter annotations to SeqRecords.""" rec = SeqRecord(Seq("ACGT"), id="Test", name="Test", description="Test") self.assertEqual(rec.annotations, {}) rec = SeqRecord( Seq("ACGT"), id="Test", name="Test", description="Test", letter_annotations={"test": [1, 2, 3, 4]}, ) self.assertEqual(rec.letter_annotations["test"], [1, 2, 3, 4]) # Now try modifying it to a bad value... try: rec.letter_annotations["bad"] = "abc" self.fail("Adding a bad letter_annotation should fail!") except (TypeError, ValueError) as e: pass # Now try setting it afterwards to a bad value... rec = SeqRecord(Seq("ACGT"), id="Test", name="Test", description="Test") try: rec.letter_annotations = {"test": [1, 2, 3]} self.fail("Changing to bad letter_annotations should fail!") except (TypeError, ValueError) as e: pass # Now try setting it at creation time to a bad value... try: rec = SeqRecord( Seq("ACGT"), id="Test", name="Test", description="Test", letter_annotations={"test": [1, 2, 3]}, ) self.fail("Wrong length letter_annotations should fail!") except (TypeError, ValueError) as e: pass def test_replacing_seq(self): """Replacing .seq if .letter_annotation present.""" rec = SeqRecord( Seq("ACGT"), id="Test", name="Test", description="Test", letter_annotations={"example": [1, 2, 3, 4]}, ) try: rec.seq = Seq("ACGTACGT") self.fail( "Changing .seq length with letter_annotations present should fail!" ) except ValueError as e: self.assertEqual(str(e), "You must empty the letter annotations first!") # Check we can replace IF the length is the same self.assertEqual(rec.seq, "ACGT") self.assertEqual(rec.letter_annotations, {"example": [1, 2, 3, 4]}) rec.seq = Seq("NNNN") self.assertEqual(rec.seq, "NNNN") self.assertEqual(rec.letter_annotations, {"example": [1, 2, 3, 4]}) def test_valid_id(self): with self.assertRaises(TypeError): SeqRecord(Seq("ACGT"), id={}) def test_valid_name(self): with self.assertRaises(TypeError): SeqRecord(Seq("ACGT"), name={}) def test_valid_description(self): with self.assertRaises(TypeError): SeqRecord(Seq("ACGT"), description={}) def test_valid_dbxrefs(self): with self.assertRaises(TypeError): SeqRecord(Seq("ACGT"), dbxrefs={}) def test_valid_annotations(self): with self.assertRaises(TypeError): SeqRecord(Seq("ACGT"), annotations=[]) def test_valid_features(self): with self.assertRaises(TypeError): SeqRecord(Seq("ACGT"), features={}) class SeqRecordMethods(unittest.TestCase): """Test SeqRecord methods.""" def setUp(self): f0 = SeqFeature( FeatureLocation(0, 26), type="source", qualifiers={"mol_type": ["fake protein"]}, ) f1 = SeqFeature(FeatureLocation(0, ExactPosition(10))) f2 = SeqFeature( FeatureLocation(WithinPosition(12, left=12, right=15), BeforePosition(22)) ) f3 = SeqFeature( FeatureLocation( AfterPosition(16), OneOfPosition(26, [ExactPosition(25), AfterPosition(26)]), ) ) self.record = SeqRecord( Seq("ABCDEFGHIJKLMNOPQRSTUVWZYX"), id="TestID", name="TestName", description="TestDescr", dbxrefs=["TestXRef"], annotations={"k": "v"}, letter_annotations={"fake": "X" * 26}, features=[f0, f1, f2, f3], ) def test_iter(self): for amino in self.record: self.assertEqual("A", amino) break def test_contains(self): self.assertIn(Seq("ABC"), self.record) def test_str(self): expected = """ ID: TestID Name: TestName Description: TestDescr Database cross-references: TestXRef Number of features: 4 /k=v Per letter annotation for: fake Seq('ABCDEFGHIJKLMNOPQRSTUVWZYX')""" self.assertEqual(expected.lstrip(), str(self.record)) def test_repr(self): expected = ( "SeqRecord(seq=Seq('ABCDEFGHIJKLMNOPQRSTUVWZYX'), " "id='TestID', name='TestName', description='TestDescr', dbxrefs=['TestXRef'])" ) self.assertEqual(expected, repr(self.record)) def test_format(self): expected = ">TestID TestDescr\nABCDEFGHIJKLMNOPQRSTUVWZYX\n" self.assertEqual(expected, self.record.format("fasta")) def test_format_str(self): expected = ">TestID TestDescr\nABCDEFGHIJKLMNOPQRSTUVWZYX\n" self.assertEqual(expected, f"{self.record:fasta}") def test_format_str_binary(self): with self.assertRaisesRegex( ValueError, "Binary format sff cannot be used with SeqRecord format method" ): f"{self.record:sff}" def test_format_spaces(self): rec = SeqRecord( Seq("ABCDEFGHIJKLMNOPQRSTUVWZYX"), id="TestID", name="TestName", description="TestDescr", ) rec.description = "TestDescr with5spaces" expected = ">TestID TestDescr with5spaces\nABCDEFGHIJKLMNOPQRSTUVWZYX\n" self.assertEqual(expected, rec.format("fasta")) def test_upper(self): self.assertEqual("ABCDEFGHIJKLMNOPQRSTUVWZYX", self.record.lower().upper().seq) def test_lower(self): self.assertEqual("abcdefghijklmnopqrstuvwzyx", self.record.lower().seq) def test_slicing(self): self.assertEqual("B", self.record[1]) self.assertEqual("BC", self.record[1:3].seq) with self.assertRaises(ValueError): c = self.record["a"].seq def test_slice_variants(self): """Simple slices using different start/end values.""" for start in list(range(-30, 30)) + [None]: for end in list(range(-30, 30)) + [None]: if start is None and end is None: continue rec = self.record[start:end] seq = self.record.seq[start:end] seq_str = str(self.record.seq)[start:end] self.assertEqual(seq_str, str(seq)) self.assertEqual(seq_str, str(rec.seq)) self.assertEqual("X" * len(seq_str), rec.letter_annotations["fake"]) def test_slice_simple(self): """Simple slice.""" rec = self.record self.assertEqual(len(rec), 26) left = rec[:10] self.assertEqual(left.seq, rec.seq[:10]) right = rec[-10:] self.assertEqual(right.seq, rec.seq[-10:]) mid = rec[12:22] self.assertEqual(mid.seq, rec.seq[12:22]) for sub in [left, right, mid]: self.assertEqual(len(sub), 10) self.assertEqual(sub.id, "TestID") self.assertEqual(sub.name, "TestName") self.assertEqual(sub.description, "TestDescr") self.assertEqual(sub.letter_annotations, {"fake": "X" * 10}) self.assertEqual(sub.dbxrefs, []) # May change this... self.assertEqual(sub.annotations, {}) # May change this... self.assertEqual(len(sub.features), 1) # By construction, each feature matches the full sliced region: self.assertEqual(sub.features[0].extract(sub.seq), sub.seq) self.assertEqual(sub.features[0].extract(sub.seq), sub.seq) def test_slice_zero(self): """Zero slice.""" rec = self.record self.assertEqual(len(rec), 26) self.assertEqual(len(rec[2:-2]), 22) self.assertEqual(len(rec[5:2]), 0) self.assertEqual(len(rec[5:2][2:-2]), 0) def test_add_simple(self): """Simple addition.""" rec = self.record + self.record self.assertEqual(len(rec), 52) self.assertEqual(rec.id, "TestID") self.assertEqual(rec.name, "TestName") self.assertEqual(rec.description, "TestDescr") self.assertEqual(rec.dbxrefs, ["TestXRef"]) self.assertEqual(rec.annotations, {"k": "v"}) self.assertEqual(rec.letter_annotations, {"fake": "X" * 52}) self.assertEqual(len(rec.features), 2 * len(self.record.features)) def test_add_seq(self): """Simple addition of Seq or string.""" for other in [Seq("BIO"), "BIO"]: rec = self.record + other # will use SeqRecord's __add__ method self.assertEqual(len(rec), 26 + 3) self.assertEqual(rec.seq, str(self.record.seq) + "BIO") self.assertEqual(rec.id, "TestID") self.assertEqual(rec.name, "TestName") self.assertEqual(rec.description, "TestDescr") self.assertEqual(rec.dbxrefs, ["TestXRef"]) self.assertEqual(rec.annotations, {"k": "v"}) self.assertEqual(rec.letter_annotations, {}) self.assertEqual(len(rec.features), len(self.record.features)) self.assertEqual(rec.features[0].type, "source") self.assertEqual(rec.features[0].location.nofuzzy_start, 0) self.assertEqual(rec.features[0].location.nofuzzy_end, 26) # not +3 def test_add_seqrecord(self): """Simple left addition of SeqRecord from genbank file.""" other = SeqIO.read("GenBank/dbsource_wrap.gb", "gb") other.dbxrefs = ["dummy"] rec = self.record + other self.assertEqual(len(rec), len(self.record) + len(other)) self.assertEqual(rec.seq, self.record.seq + other.seq) self.assertEqual(rec.id, "") self.assertEqual(rec.name, "") self.assertEqual(rec.description, "") self.assertEqual(rec.dbxrefs, ["TestXRef", "dummy"]) self.assertEqual(len(rec.annotations), 0) self.assertEqual(len(rec.letter_annotations), 0) self.assertEqual( len(rec.features), len(self.record.features) + len(other.features) ) self.assertEqual(rec.features[0].type, "source") self.assertEqual(rec.features[0].location.nofuzzy_start, 0) self.assertEqual( rec.features[0].location.nofuzzy_end, len(self.record) ) # not +3 i = len(self.record.features) self.assertEqual(rec.features[i].type, "source") self.assertEqual(rec.features[i].location.nofuzzy_start, len(self.record)) self.assertEqual(rec.features[i].location.nofuzzy_end, len(rec)) def test_add_seq_left(self): """Simple left addition of Seq or string.""" for other in [Seq("BIO"), "BIO"]: rec = other + self.record # will use SeqRecord's __radd__ method self.assertEqual(len(rec), 26 + 3) self.assertEqual(rec.seq, "BIO" + self.record.seq) self.assertEqual(rec.id, "TestID") self.assertEqual(rec.name, "TestName") self.assertEqual(rec.description, "TestDescr") self.assertEqual(rec.dbxrefs, ["TestXRef"]) self.assertEqual(rec.annotations, {"k": "v"}) self.assertEqual(rec.letter_annotations, {}) self.assertEqual(len(rec.features), len(self.record.features)) self.assertEqual(rec.features[0].type, "source") self.assertEqual(rec.features[0].location.nofuzzy_start, 3) self.assertEqual(rec.features[0].location.nofuzzy_end, 26 + 3) def test_slice_add_simple(self): """Simple slice and add.""" for cut in range(27): rec = self.record[:cut] + self.record[cut:] self.assertEqual(rec.seq, self.record.seq) self.assertEqual(len(rec), 26) self.assertEqual(rec.id, "TestID") self.assertEqual(rec.name, "TestName") self.assertEqual(rec.description, "TestDescr") self.assertEqual(rec.dbxrefs, []) # May change this... self.assertEqual(rec.annotations, {}) # May change this... self.assertEqual(rec.letter_annotations, {"fake": "X" * 26}) self.assertLessEqual(len(rec.features), len(self.record.features)) def test_slice_add_shift(self): """Simple slice and add to shift.""" for cut in range(27): rec = self.record[cut:] + self.record[:cut] self.assertEqual(rec.seq, self.record.seq[cut:] + self.record.seq[:cut]) self.assertEqual(len(rec), 26) self.assertEqual(rec.id, "TestID") self.assertEqual(rec.name, "TestName") self.assertEqual(rec.description, "TestDescr") self.assertEqual(rec.dbxrefs, []) # May change this... self.assertEqual(rec.annotations, {}) # May change this... self.assertEqual(rec.letter_annotations, {"fake": "X" * 26}) self.assertLessEqual(len(rec.features), len(self.record.features)) class SeqRecordMethodsMore(unittest.TestCase): """Test SeqRecord methods cont.""" # This class does not have a setUp defining self.record def test_reverse_complement_seq(self): s = SeqRecord( Seq("ACTG"), id="TestID", name="TestName", description="TestDescription", dbxrefs=["TestDbxrefs"], features=[SeqFeature(FeatureLocation(0, 3), type="Site")], annotations={"organism": "bombyx"}, letter_annotations={"test": "abcd"}, ) rc = s.reverse_complement( id=True, name=True, description=True, dbxrefs=True, features=True, annotations=True, letter_annotations=True, ) self.assertEqual("CAGT", rc.seq) self.assertEqual("TestID", rc.id) self.assertEqual("TestID", s.reverse_complement(id="TestID").id) self.assertEqual("TestName", rc.name) self.assertEqual("TestName", s.reverse_complement(name="TestName").name) self.assertEqual("TestDescription", rc.description) self.assertEqual( "TestDescription", s.reverse_complement(description="TestDescription").description, ) self.assertEqual(["TestDbxrefs"], rc.dbxrefs) self.assertEqual( ["TestDbxrefs"], s.reverse_complement(dbxrefs=["TestDbxrefs"]).dbxrefs ) self.assertEqual( "[SeqFeature(FeatureLocation(ExactPosition(1), ExactPosition(4)), type='Site')]", repr(rc.features), ) rc2 = s.reverse_complement( features=[SeqFeature(FeatureLocation(1, 4), type="Site")] ) self.assertEqual( "[SeqFeature(FeatureLocation(ExactPosition(1), ExactPosition(4)), type='Site')]", repr(rc2.features), ) self.assertEqual({"organism": "bombyx"}, rc.annotations) self.assertEqual( {"organism": "bombyx"}, s.reverse_complement(annotations={"organism": "bombyx"}).annotations, ) self.assertEqual({"test": "dcba"}, rc.letter_annotations) self.assertEqual( {"test": "abcd"}, s.reverse_complement( letter_annotations={"test": "abcd"} ).letter_annotations, ) def test_reverse_complement_mutable_seq(self): s = SeqRecord(MutableSeq("ACTG")) self.assertEqual("CAGT", s.reverse_complement().seq) def test_translate(self): s = SeqRecord( Seq("ATGGTGTAA"), id="TestID", name="TestName", description="TestDescription", dbxrefs=["TestDbxrefs"], features=[SeqFeature(FeatureLocation(0, 3), type="Site")], annotations={"organism": "bombyx"}, letter_annotations={"test": "abcdefghi"}, ) t = s.translate() self.assertEqual(t.seq, "MV*") self.assertEqual(t.id, "") self.assertEqual(t.name, "") self.assertEqual(t.description, "") self.assertFalse(t.dbxrefs) self.assertFalse(t.features) self.assertEqual(t.annotations, {"molecule_type": "protein"}) self.assertFalse(t.letter_annotations) t = s.translate( cds=True, id=True, name=True, description=True, dbxrefs=True, annotations=True, ) self.assertEqual(t.seq, "MV") self.assertEqual(t.id, "TestID") self.assertEqual(t.name, "TestName") self.assertEqual(t.description, "TestDescription") self.assertEqual(t.dbxrefs, ["TestDbxrefs"]) self.assertFalse(t.features) self.assertEqual( t.annotations, {"organism": "bombyx", "molecule_type": "protein"} ) self.assertFalse(t.letter_annotations) def test_lt_exception(self): def lt(): return SeqRecord(Seq("A")) < SeqRecord(Seq("A")) self.assertRaises(NotImplementedError, lt) def test_le_exception(self): def le(): return SeqRecord(Seq("A")) <= SeqRecord(Seq("A")) self.assertRaises(NotImplementedError, le) def test_eq_exception(self): def equality(): return SeqRecord(Seq("A")) == SeqRecord(Seq("A")) self.assertRaises(NotImplementedError, equality) def test_ne_exception(self): def notequality(): return SeqRecord(Seq("A")) != SeqRecord(Seq("A")) self.assertRaises(NotImplementedError, notequality) def test_gt_exception(self): def gt(): return SeqRecord(Seq("A")) > SeqRecord(Seq("A")) self.assertRaises(NotImplementedError, gt) def test_ge_exception(self): def ge(): return SeqRecord(Seq("A")) >= SeqRecord(Seq("A")) self.assertRaises(NotImplementedError, ge) def test_hash_exception(self): def hash1(): hash(SeqRecord(Seq("A"))) self.assertRaises(TypeError, hash1) def hash2(): SeqRecord(Seq("A")).__hash__() self.assertRaises(TypeError, hash2) class TestTranslation(unittest.TestCase): def setUp(self): self.s = SeqRecord( Seq("ATGGTGTAA"), id="TestID", name="TestName", description="TestDescription", dbxrefs=["TestDbxrefs"], features=[SeqFeature(FeatureLocation(0, 3), type="Site")], annotations={"organism": "bombyx"}, letter_annotations={"test": "abcdefghi"}, ) def test_defaults(self): t = self.s.translate() self.assertEqual(t.seq, "MV*") self.assertEqual(t.id, "") self.assertEqual(t.name, "") self.assertEqual(t.description, "") self.assertFalse(t.dbxrefs) self.assertFalse(t.features) self.assertEqual(t.annotations, {"molecule_type": "protein"}) self.assertFalse(t.letter_annotations) def test_preserve(self): t = self.s.translate( cds=True, id=True, name=True, description=True, dbxrefs=True, annotations=True, ) self.assertEqual(t.seq, "MV") self.assertEqual(t.id, "TestID") self.assertEqual(t.name, "TestName") self.assertEqual(t.description, "TestDescription") self.assertEqual(t.dbxrefs, ["TestDbxrefs"]) self.assertFalse(t.features) self.assertEqual( t.annotations, {"organism": "bombyx", "molecule_type": "protein"} ) self.assertFalse(t.letter_annotations) # Should not preserve these self.assertRaises(TypeError, self.s.translate, features=True) self.assertRaises(TypeError, self.s.translate, letter_annotations=True) def test_new_annot(self): t = self.s.translate( 1, to_stop=True, gap="-", id="Foo", name="Bar", description="Baz", dbxrefs=["Nope"], features=[SeqFeature(FeatureLocation(0, 3), type="Site")], annotations={"a": "team"}, letter_annotations={"aa": ["Met", "Val"]}, ) self.assertEqual(t.seq, "MV") self.assertEqual(t.id, "Foo") self.assertEqual(t.name, "Bar") self.assertEqual(t.description, "Baz") self.assertEqual(t.dbxrefs, ["Nope"]) self.assertEqual(len(t.features), 1) self.assertEqual(t.annotations, {"a": "team", "molecule_type": "protein"}) self.assertEqual(t.letter_annotations, {"aa": ["Met", "Val"]}) if __name__ == "__main__": runner = unittest.TextTestRunner(verbosity=2) unittest.main(testRunner=runner)