import collections.abc from datetime import datetime from math import ceil from operator import attrgetter from unittest import skipUnless from django.core.exceptions import FieldError from django.db import connection, models from django.db.models import ( BooleanField, Case, Exists, ExpressionWrapper, F, Max, OuterRef, Q, Subquery, Value, When, ) from django.db.models.functions import Cast, Substr from django.db.models.lookups import ( Exact, GreaterThan, GreaterThanOrEqual, LessThan, LessThanOrEqual, ) from django.test import TestCase, skipUnlessDBFeature from django.test.utils import isolate_apps from .models import ( Article, Author, Freebie, Game, IsNullWithNoneAsRHS, Player, Product, Season, Stock, Tag, ) class LookupTests(TestCase): @classmethod def setUpTestData(cls): # Create a few Authors. cls.au1 = Author.objects.create(name="Author 1", alias="a1") cls.au2 = Author.objects.create(name="Author 2", alias="a2") # Create a few Articles. cls.a1 = Article.objects.create( headline="Article 1", pub_date=datetime(2005, 7, 26), author=cls.au1, slug="a1", ) cls.a2 = Article.objects.create( headline="Article 2", pub_date=datetime(2005, 7, 27), author=cls.au1, slug="a2", ) cls.a3 = Article.objects.create( headline="Article 3", pub_date=datetime(2005, 7, 27), author=cls.au1, slug="a3", ) cls.a4 = Article.objects.create( headline="Article 4", pub_date=datetime(2005, 7, 28), author=cls.au1, slug="a4", ) cls.a5 = Article.objects.create( headline="Article 5", pub_date=datetime(2005, 8, 1, 9, 0), author=cls.au2, slug="a5", ) cls.a6 = Article.objects.create( headline="Article 6", pub_date=datetime(2005, 8, 1, 8, 0), author=cls.au2, slug="a6", ) cls.a7 = Article.objects.create( headline="Article 7", pub_date=datetime(2005, 7, 27), author=cls.au2, slug="a7", ) # Create a few Tags. cls.t1 = Tag.objects.create(name="Tag 1") cls.t1.articles.add(cls.a1, cls.a2, cls.a3) cls.t2 = Tag.objects.create(name="Tag 2") cls.t2.articles.add(cls.a3, cls.a4, cls.a5) cls.t3 = Tag.objects.create(name="Tag 3") cls.t3.articles.add(cls.a5, cls.a6, cls.a7) def test_exists(self): # We can use .exists() to check that there are some self.assertTrue(Article.objects.exists()) for a in Article.objects.all(): a.delete() # There should be none now! self.assertFalse(Article.objects.exists()) def test_lookup_int_as_str(self): # Integer value can be queried using string self.assertSequenceEqual( Article.objects.filter(id__iexact=str(self.a1.id)), [self.a1], ) @skipUnlessDBFeature("supports_date_lookup_using_string") def test_lookup_date_as_str(self): # A date lookup can be performed using a string search self.assertSequenceEqual( Article.objects.filter(pub_date__startswith="2005"), [self.a5, self.a6, self.a4, self.a2, self.a3, self.a7, self.a1], ) def test_iterator(self): # Each QuerySet gets iterator(), which is a generator that "lazily" # returns results using database-level iteration. self.assertIsInstance(Article.objects.iterator(), collections.abc.Iterator) self.assertQuerysetEqual( Article.objects.iterator(), [ "Article 5", "Article 6", "Article 4", "Article 2", "Article 3", "Article 7", "Article 1", ], transform=attrgetter("headline"), ) # iterator() can be used on any QuerySet. self.assertQuerysetEqual( Article.objects.filter(headline__endswith="4").iterator(), ["Article 4"], transform=attrgetter("headline"), ) def test_count(self): # count() returns the number of objects matching search criteria. self.assertEqual(Article.objects.count(), 7) self.assertEqual( Article.objects.filter(pub_date__exact=datetime(2005, 7, 27)).count(), 3 ) self.assertEqual( Article.objects.filter(headline__startswith="Blah blah").count(), 0 ) # count() should respect sliced query sets. articles = Article.objects.all() self.assertEqual(articles.count(), 7) self.assertEqual(articles[:4].count(), 4) self.assertEqual(articles[1:100].count(), 6) self.assertEqual(articles[10:100].count(), 0) # Date and date/time lookups can also be done with strings. self.assertEqual( Article.objects.filter(pub_date__exact="2005-07-27 00:00:00").count(), 3 ) def test_in_bulk(self): # in_bulk() takes a list of IDs and returns a dictionary mapping IDs to objects. arts = Article.objects.in_bulk([self.a1.id, self.a2.id]) self.assertEqual(arts[self.a1.id], self.a1) self.assertEqual(arts[self.a2.id], self.a2) self.assertEqual( Article.objects.in_bulk(), { self.a1.id: self.a1, self.a2.id: self.a2, self.a3.id: self.a3, self.a4.id: self.a4, self.a5.id: self.a5, self.a6.id: self.a6, self.a7.id: self.a7, }, ) self.assertEqual(Article.objects.in_bulk([self.a3.id]), {self.a3.id: self.a3}) self.assertEqual(Article.objects.in_bulk({self.a3.id}), {self.a3.id: self.a3}) self.assertEqual( Article.objects.in_bulk(frozenset([self.a3.id])), {self.a3.id: self.a3} ) self.assertEqual(Article.objects.in_bulk((self.a3.id,)), {self.a3.id: self.a3}) self.assertEqual(Article.objects.in_bulk([1000]), {}) self.assertEqual(Article.objects.in_bulk([]), {}) self.assertEqual( Article.objects.in_bulk(iter([self.a1.id])), {self.a1.id: self.a1} ) self.assertEqual(Article.objects.in_bulk(iter([])), {}) with self.assertRaises(TypeError): Article.objects.in_bulk(headline__startswith="Blah") def test_in_bulk_lots_of_ids(self): test_range = 2000 max_query_params = connection.features.max_query_params expected_num_queries = ( ceil(test_range / max_query_params) if max_query_params else 1 ) Author.objects.bulk_create( [Author() for i in range(test_range - Author.objects.count())] ) authors = {author.pk: author for author in Author.objects.all()} with self.assertNumQueries(expected_num_queries): self.assertEqual(Author.objects.in_bulk(authors), authors) def test_in_bulk_with_field(self): self.assertEqual( Article.objects.in_bulk( [self.a1.slug, self.a2.slug, self.a3.slug], field_name="slug" ), { self.a1.slug: self.a1, self.a2.slug: self.a2, self.a3.slug: self.a3, }, ) def test_in_bulk_meta_constraint(self): season_2011 = Season.objects.create(year=2011) season_2012 = Season.objects.create(year=2012) Season.objects.create(year=2013) self.assertEqual( Season.objects.in_bulk( [season_2011.year, season_2012.year], field_name="year", ), {season_2011.year: season_2011, season_2012.year: season_2012}, ) def test_in_bulk_non_unique_field(self): msg = "in_bulk()'s field_name must be a unique field but 'author' isn't." with self.assertRaisesMessage(ValueError, msg): Article.objects.in_bulk([self.au1], field_name="author") @skipUnlessDBFeature("can_distinct_on_fields") def test_in_bulk_distinct_field(self): self.assertEqual( Article.objects.order_by("headline") .distinct("headline") .in_bulk( [self.a1.headline, self.a5.headline], field_name="headline", ), {self.a1.headline: self.a1, self.a5.headline: self.a5}, ) @skipUnlessDBFeature("can_distinct_on_fields") def test_in_bulk_multiple_distinct_field(self): msg = "in_bulk()'s field_name must be a unique field but 'pub_date' isn't." with self.assertRaisesMessage(ValueError, msg): Article.objects.order_by("headline", "pub_date").distinct( "headline", "pub_date", ).in_bulk(field_name="pub_date") @isolate_apps("lookup") def test_in_bulk_non_unique_meta_constaint(self): class Model(models.Model): ean = models.CharField(max_length=100) brand = models.CharField(max_length=100) name = models.CharField(max_length=80) class Meta: constraints = [ models.UniqueConstraint( fields=["ean"], name="partial_ean_unique", condition=models.Q(is_active=True), ), models.UniqueConstraint( fields=["brand", "name"], name="together_brand_name_unique", ), ] msg = "in_bulk()'s field_name must be a unique field but '%s' isn't." for field_name in ["brand", "ean"]: with self.subTest(field_name=field_name): with self.assertRaisesMessage(ValueError, msg % field_name): Model.objects.in_bulk(field_name=field_name) def test_in_bulk_sliced_queryset(self): msg = "Cannot use 'limit' or 'offset' with in_bulk()." with self.assertRaisesMessage(TypeError, msg): Article.objects.all()[0:5].in_bulk([self.a1.id, self.a2.id]) def test_values(self): # values() returns a list of dictionaries instead of object instances -- # and you can specify which fields you want to retrieve. self.assertSequenceEqual( Article.objects.values("headline"), [ {"headline": "Article 5"}, {"headline": "Article 6"}, {"headline": "Article 4"}, {"headline": "Article 2"}, {"headline": "Article 3"}, {"headline": "Article 7"}, {"headline": "Article 1"}, ], ) self.assertSequenceEqual( Article.objects.filter(pub_date__exact=datetime(2005, 7, 27)).values("id"), [{"id": self.a2.id}, {"id": self.a3.id}, {"id": self.a7.id}], ) self.assertSequenceEqual( Article.objects.values("id", "headline"), [ {"id": self.a5.id, "headline": "Article 5"}, {"id": self.a6.id, "headline": "Article 6"}, {"id": self.a4.id, "headline": "Article 4"}, {"id": self.a2.id, "headline": "Article 2"}, {"id": self.a3.id, "headline": "Article 3"}, {"id": self.a7.id, "headline": "Article 7"}, {"id": self.a1.id, "headline": "Article 1"}, ], ) # You can use values() with iterator() for memory savings, # because iterator() uses database-level iteration. self.assertSequenceEqual( list(Article.objects.values("id", "headline").iterator()), [ {"headline": "Article 5", "id": self.a5.id}, {"headline": "Article 6", "id": self.a6.id}, {"headline": "Article 4", "id": self.a4.id}, {"headline": "Article 2", "id": self.a2.id}, {"headline": "Article 3", "id": self.a3.id}, {"headline": "Article 7", "id": self.a7.id}, {"headline": "Article 1", "id": self.a1.id}, ], ) # The values() method works with "extra" fields specified in extra(select). self.assertSequenceEqual( Article.objects.extra(select={"id_plus_one": "id + 1"}).values( "id", "id_plus_one" ), [ {"id": self.a5.id, "id_plus_one": self.a5.id + 1}, {"id": self.a6.id, "id_plus_one": self.a6.id + 1}, {"id": self.a4.id, "id_plus_one": self.a4.id + 1}, {"id": self.a2.id, "id_plus_one": self.a2.id + 1}, {"id": self.a3.id, "id_plus_one": self.a3.id + 1}, {"id": self.a7.id, "id_plus_one": self.a7.id + 1}, {"id": self.a1.id, "id_plus_one": self.a1.id + 1}, ], ) data = { "id_plus_one": "id+1", "id_plus_two": "id+2", "id_plus_three": "id+3", "id_plus_four": "id+4", "id_plus_five": "id+5", "id_plus_six": "id+6", "id_plus_seven": "id+7", "id_plus_eight": "id+8", } self.assertSequenceEqual( Article.objects.filter(id=self.a1.id).extra(select=data).values(*data), [ { "id_plus_one": self.a1.id + 1, "id_plus_two": self.a1.id + 2, "id_plus_three": self.a1.id + 3, "id_plus_four": self.a1.id + 4, "id_plus_five": self.a1.id + 5, "id_plus_six": self.a1.id + 6, "id_plus_seven": self.a1.id + 7, "id_plus_eight": self.a1.id + 8, } ], ) # You can specify fields from forward and reverse relations, just like filter(). self.assertSequenceEqual( Article.objects.values("headline", "author__name"), [ {"headline": self.a5.headline, "author__name": self.au2.name}, {"headline": self.a6.headline, "author__name": self.au2.name}, {"headline": self.a4.headline, "author__name": self.au1.name}, {"headline": self.a2.headline, "author__name": self.au1.name}, {"headline": self.a3.headline, "author__name": self.au1.name}, {"headline": self.a7.headline, "author__name": self.au2.name}, {"headline": self.a1.headline, "author__name": self.au1.name}, ], ) self.assertSequenceEqual( Author.objects.values("name", "article__headline").order_by( "name", "article__headline" ), [ {"name": self.au1.name, "article__headline": self.a1.headline}, {"name": self.au1.name, "article__headline": self.a2.headline}, {"name": self.au1.name, "article__headline": self.a3.headline}, {"name": self.au1.name, "article__headline": self.a4.headline}, {"name": self.au2.name, "article__headline": self.a5.headline}, {"name": self.au2.name, "article__headline": self.a6.headline}, {"name": self.au2.name, "article__headline": self.a7.headline}, ], ) self.assertSequenceEqual( ( Author.objects.values( "name", "article__headline", "article__tag__name" ).order_by("name", "article__headline", "article__tag__name") ), [ { "name": self.au1.name, "article__headline": self.a1.headline, "article__tag__name": self.t1.name, }, { "name": self.au1.name, "article__headline": self.a2.headline, "article__tag__name": self.t1.name, }, { "name": self.au1.name, "article__headline": self.a3.headline, "article__tag__name": self.t1.name, }, { "name": self.au1.name, "article__headline": self.a3.headline, "article__tag__name": self.t2.name, }, { "name": self.au1.name, "article__headline": self.a4.headline, "article__tag__name": self.t2.name, }, { "name": self.au2.name, "article__headline": self.a5.headline, "article__tag__name": self.t2.name, }, { "name": self.au2.name, "article__headline": self.a5.headline, "article__tag__name": self.t3.name, }, { "name": self.au2.name, "article__headline": self.a6.headline, "article__tag__name": self.t3.name, }, { "name": self.au2.name, "article__headline": self.a7.headline, "article__tag__name": self.t3.name, }, ], ) # However, an exception FieldDoesNotExist will be thrown if you specify # a nonexistent field name in values() (a field that is neither in the # model nor in extra(select)). msg = ( "Cannot resolve keyword 'id_plus_two' into field. Choices are: " "author, author_id, headline, id, id_plus_one, pub_date, slug, tag" ) with self.assertRaisesMessage(FieldError, msg): Article.objects.extra(select={"id_plus_one": "id + 1"}).values( "id", "id_plus_two" ) # If you don't specify field names to values(), all are returned. self.assertSequenceEqual( Article.objects.filter(id=self.a5.id).values(), [ { "id": self.a5.id, "author_id": self.au2.id, "headline": "Article 5", "pub_date": datetime(2005, 8, 1, 9, 0), "slug": "a5", } ], ) def test_values_list(self): # values_list() is similar to values(), except that the results are # returned as a list of tuples, rather than a list of dictionaries. # Within each tuple, the order of the elements is the same as the order # of fields in the values_list() call. self.assertSequenceEqual( Article.objects.values_list("headline"), [ ("Article 5",), ("Article 6",), ("Article 4",), ("Article 2",), ("Article 3",), ("Article 7",), ("Article 1",), ], ) self.assertSequenceEqual( Article.objects.values_list("id").order_by("id"), [ (self.a1.id,), (self.a2.id,), (self.a3.id,), (self.a4.id,), (self.a5.id,), (self.a6.id,), (self.a7.id,), ], ) self.assertSequenceEqual( Article.objects.values_list("id", flat=True).order_by("id"), [ self.a1.id, self.a2.id, self.a3.id, self.a4.id, self.a5.id, self.a6.id, self.a7.id, ], ) self.assertSequenceEqual( Article.objects.extra(select={"id_plus_one": "id+1"}) .order_by("id") .values_list("id"), [ (self.a1.id,), (self.a2.id,), (self.a3.id,), (self.a4.id,), (self.a5.id,), (self.a6.id,), (self.a7.id,), ], ) self.assertSequenceEqual( Article.objects.extra(select={"id_plus_one": "id+1"}) .order_by("id") .values_list("id_plus_one", "id"), [ (self.a1.id + 1, self.a1.id), (self.a2.id + 1, self.a2.id), (self.a3.id + 1, self.a3.id), (self.a4.id + 1, self.a4.id), (self.a5.id + 1, self.a5.id), (self.a6.id + 1, self.a6.id), (self.a7.id + 1, self.a7.id), ], ) self.assertSequenceEqual( Article.objects.extra(select={"id_plus_one": "id+1"}) .order_by("id") .values_list("id", "id_plus_one"), [ (self.a1.id, self.a1.id + 1), (self.a2.id, self.a2.id + 1), (self.a3.id, self.a3.id + 1), (self.a4.id, self.a4.id + 1), (self.a5.id, self.a5.id + 1), (self.a6.id, self.a6.id + 1), (self.a7.id, self.a7.id + 1), ], ) args = ("name", "article__headline", "article__tag__name") self.assertSequenceEqual( Author.objects.values_list(*args).order_by(*args), [ (self.au1.name, self.a1.headline, self.t1.name), (self.au1.name, self.a2.headline, self.t1.name), (self.au1.name, self.a3.headline, self.t1.name), (self.au1.name, self.a3.headline, self.t2.name), (self.au1.name, self.a4.headline, self.t2.name), (self.au2.name, self.a5.headline, self.t2.name), (self.au2.name, self.a5.headline, self.t3.name), (self.au2.name, self.a6.headline, self.t3.name), (self.au2.name, self.a7.headline, self.t3.name), ], ) with self.assertRaises(TypeError): Article.objects.values_list("id", "headline", flat=True) def test_get_next_previous_by(self): # Every DateField and DateTimeField creates get_next_by_FOO() and # get_previous_by_FOO() methods. In the case of identical date values, # these methods will use the ID as a fallback check. This guarantees # that no records are skipped or duplicated. self.assertEqual(repr(self.a1.get_next_by_pub_date()), "") self.assertEqual(repr(self.a2.get_next_by_pub_date()), "") self.assertEqual( repr(self.a2.get_next_by_pub_date(headline__endswith="6")), "", ) self.assertEqual(repr(self.a3.get_next_by_pub_date()), "") self.assertEqual(repr(self.a4.get_next_by_pub_date()), "") with self.assertRaises(Article.DoesNotExist): self.a5.get_next_by_pub_date() self.assertEqual(repr(self.a6.get_next_by_pub_date()), "") self.assertEqual(repr(self.a7.get_next_by_pub_date()), "") self.assertEqual( repr(self.a7.get_previous_by_pub_date()), "" ) self.assertEqual( repr(self.a6.get_previous_by_pub_date()), "" ) self.assertEqual( repr(self.a5.get_previous_by_pub_date()), "" ) self.assertEqual( repr(self.a4.get_previous_by_pub_date()), "" ) self.assertEqual( repr(self.a3.get_previous_by_pub_date()), "" ) self.assertEqual( repr(self.a2.get_previous_by_pub_date()), "" ) def test_escaping(self): # Underscores, percent signs and backslashes have special meaning in the # underlying SQL code, but Django handles the quoting of them automatically. a8 = Article.objects.create( headline="Article_ with underscore", pub_date=datetime(2005, 11, 20) ) self.assertSequenceEqual( Article.objects.filter(headline__startswith="Article"), [a8, self.a5, self.a6, self.a4, self.a2, self.a3, self.a7, self.a1], ) self.assertSequenceEqual( Article.objects.filter(headline__startswith="Article_"), [a8], ) a9 = Article.objects.create( headline="Article% with percent sign", pub_date=datetime(2005, 11, 21) ) self.assertSequenceEqual( Article.objects.filter(headline__startswith="Article"), [a9, a8, self.a5, self.a6, self.a4, self.a2, self.a3, self.a7, self.a1], ) self.assertSequenceEqual( Article.objects.filter(headline__startswith="Article%"), [a9], ) a10 = Article.objects.create( headline="Article with \\ backslash", pub_date=datetime(2005, 11, 22) ) self.assertSequenceEqual( Article.objects.filter(headline__contains="\\"), [a10], ) def test_exclude(self): pub_date = datetime(2005, 11, 20) a8 = Article.objects.create( headline="Article_ with underscore", pub_date=pub_date ) a9 = Article.objects.create( headline="Article% with percent sign", pub_date=pub_date ) a10 = Article.objects.create( headline="Article with \\ backslash", pub_date=pub_date ) # exclude() is the opposite of filter() when doing lookups: self.assertSequenceEqual( Article.objects.filter(headline__contains="Article").exclude( headline__contains="with" ), [self.a5, self.a6, self.a4, self.a2, self.a3, self.a7, self.a1], ) self.assertSequenceEqual( Article.objects.exclude(headline__startswith="Article_"), [a10, a9, self.a5, self.a6, self.a4, self.a2, self.a3, self.a7, self.a1], ) self.assertSequenceEqual( Article.objects.exclude(headline="Article 7"), [a10, a9, a8, self.a5, self.a6, self.a4, self.a2, self.a3, self.a1], ) def test_none(self): # none() returns a QuerySet that behaves like any other QuerySet object self.assertQuerysetEqual(Article.objects.none(), []) self.assertQuerysetEqual( Article.objects.none().filter(headline__startswith="Article"), [] ) self.assertQuerysetEqual( Article.objects.filter(headline__startswith="Article").none(), [] ) self.assertEqual(Article.objects.none().count(), 0) self.assertEqual( Article.objects.none().update(headline="This should not take effect"), 0 ) self.assertQuerysetEqual(Article.objects.none().iterator(), []) def test_in(self): self.assertSequenceEqual( Article.objects.exclude(id__in=[]), [self.a5, self.a6, self.a4, self.a2, self.a3, self.a7, self.a1], ) def test_in_empty_list(self): self.assertSequenceEqual(Article.objects.filter(id__in=[]), []) def test_in_different_database(self): with self.assertRaisesMessage( ValueError, "Subqueries aren't allowed across different databases. Force the " "inner query to be evaluated using `list(inner_query)`.", ): list(Article.objects.filter(id__in=Article.objects.using("other").all())) def test_in_keeps_value_ordering(self): query = ( Article.objects.filter(slug__in=["a%d" % i for i in range(1, 8)]) .values("pk") .query ) self.assertIn(" IN (a1, a2, a3, a4, a5, a6, a7) ", str(query)) def test_in_ignore_none(self): with self.assertNumQueries(1) as ctx: self.assertSequenceEqual( Article.objects.filter(id__in=[None, self.a1.id]), [self.a1], ) sql = ctx.captured_queries[0]["sql"] self.assertIn("IN (%s)" % self.a1.pk, sql) def test_in_ignore_solo_none(self): with self.assertNumQueries(0): self.assertSequenceEqual(Article.objects.filter(id__in=[None]), []) def test_in_ignore_none_with_unhashable_items(self): class UnhashableInt(int): __hash__ = None with self.assertNumQueries(1) as ctx: self.assertSequenceEqual( Article.objects.filter(id__in=[None, UnhashableInt(self.a1.id)]), [self.a1], ) sql = ctx.captured_queries[0]["sql"] self.assertIn("IN (%s)" % self.a1.pk, sql) def test_error_messages(self): # Programming errors are pointed out with nice error messages with self.assertRaisesMessage( FieldError, "Cannot resolve keyword 'pub_date_year' into field. Choices are: " "author, author_id, headline, id, pub_date, slug, tag", ): Article.objects.filter(pub_date_year="2005").count() def test_unsupported_lookups(self): with self.assertRaisesMessage( FieldError, "Unsupported lookup 'starts' for CharField or join on the field " "not permitted, perhaps you meant startswith or istartswith?", ): Article.objects.filter(headline__starts="Article") with self.assertRaisesMessage( FieldError, "Unsupported lookup 'is_null' for DateTimeField or join on the field " "not permitted, perhaps you meant isnull?", ): Article.objects.filter(pub_date__is_null=True) with self.assertRaisesMessage( FieldError, "Unsupported lookup 'gobbledygook' for DateTimeField or join on the field " "not permitted.", ): Article.objects.filter(pub_date__gobbledygook="blahblah") def test_relation_nested_lookup_error(self): # An invalid nested lookup on a related field raises a useful error. msg = "Related Field got invalid lookup: editor" with self.assertRaisesMessage(FieldError, msg): Article.objects.filter(author__editor__name="James") msg = "Related Field got invalid lookup: foo" with self.assertRaisesMessage(FieldError, msg): Tag.objects.filter(articles__foo="bar") def test_regex(self): # Create some articles with a bit more interesting headlines for # testing field lookups. Article.objects.all().delete() now = datetime.now() Article.objects.bulk_create( [ Article(pub_date=now, headline="f"), Article(pub_date=now, headline="fo"), Article(pub_date=now, headline="foo"), Article(pub_date=now, headline="fooo"), Article(pub_date=now, headline="hey-Foo"), Article(pub_date=now, headline="bar"), Article(pub_date=now, headline="AbBa"), Article(pub_date=now, headline="baz"), Article(pub_date=now, headline="baxZ"), ] ) # zero-or-more self.assertQuerysetEqual( Article.objects.filter(headline__regex=r"fo*"), Article.objects.filter(headline__in=["f", "fo", "foo", "fooo"]), ) self.assertQuerysetEqual( Article.objects.filter(headline__iregex=r"fo*"), Article.objects.filter(headline__in=["f", "fo", "foo", "fooo", "hey-Foo"]), ) # one-or-more self.assertQuerysetEqual( Article.objects.filter(headline__regex=r"fo+"), Article.objects.filter(headline__in=["fo", "foo", "fooo"]), ) # wildcard self.assertQuerysetEqual( Article.objects.filter(headline__regex=r"fooo?"), Article.objects.filter(headline__in=["foo", "fooo"]), ) # leading anchor self.assertQuerysetEqual( Article.objects.filter(headline__regex=r"^b"), Article.objects.filter(headline__in=["bar", "baxZ", "baz"]), ) self.assertQuerysetEqual( Article.objects.filter(headline__iregex=r"^a"), Article.objects.filter(headline="AbBa"), ) # trailing anchor self.assertQuerysetEqual( Article.objects.filter(headline__regex=r"z$"), Article.objects.filter(headline="baz"), ) self.assertQuerysetEqual( Article.objects.filter(headline__iregex=r"z$"), Article.objects.filter(headline__in=["baxZ", "baz"]), ) # character sets self.assertQuerysetEqual( Article.objects.filter(headline__regex=r"ba[rz]"), Article.objects.filter(headline__in=["bar", "baz"]), ) self.assertQuerysetEqual( Article.objects.filter(headline__regex=r"ba.[RxZ]"), Article.objects.filter(headline="baxZ"), ) self.assertQuerysetEqual( Article.objects.filter(headline__iregex=r"ba[RxZ]"), Article.objects.filter(headline__in=["bar", "baxZ", "baz"]), ) # and more articles: Article.objects.bulk_create( [ Article(pub_date=now, headline="foobar"), Article(pub_date=now, headline="foobaz"), Article(pub_date=now, headline="ooF"), Article(pub_date=now, headline="foobarbaz"), Article(pub_date=now, headline="zoocarfaz"), Article(pub_date=now, headline="barfoobaz"), Article(pub_date=now, headline="bazbaRFOO"), ] ) # alternation self.assertQuerysetEqual( Article.objects.filter(headline__regex=r"oo(f|b)"), Article.objects.filter( headline__in=[ "barfoobaz", "foobar", "foobarbaz", "foobaz", ] ), ) self.assertQuerysetEqual( Article.objects.filter(headline__iregex=r"oo(f|b)"), Article.objects.filter( headline__in=[ "barfoobaz", "foobar", "foobarbaz", "foobaz", "ooF", ] ), ) self.assertQuerysetEqual( Article.objects.filter(headline__regex=r"^foo(f|b)"), Article.objects.filter(headline__in=["foobar", "foobarbaz", "foobaz"]), ) # greedy matching self.assertQuerysetEqual( Article.objects.filter(headline__regex=r"b.*az"), Article.objects.filter( headline__in=[ "barfoobaz", "baz", "bazbaRFOO", "foobarbaz", "foobaz", ] ), ) self.assertQuerysetEqual( Article.objects.filter(headline__iregex=r"b.*ar"), Article.objects.filter( headline__in=[ "bar", "barfoobaz", "bazbaRFOO", "foobar", "foobarbaz", ] ), ) @skipUnlessDBFeature("supports_regex_backreferencing") def test_regex_backreferencing(self): # grouping and backreferences now = datetime.now() Article.objects.bulk_create( [ Article(pub_date=now, headline="foobar"), Article(pub_date=now, headline="foobaz"), Article(pub_date=now, headline="ooF"), Article(pub_date=now, headline="foobarbaz"), Article(pub_date=now, headline="zoocarfaz"), Article(pub_date=now, headline="barfoobaz"), Article(pub_date=now, headline="bazbaRFOO"), ] ) self.assertQuerysetEqual( Article.objects.filter(headline__regex=r"b(.).*b\1").values_list( "headline", flat=True ), ["barfoobaz", "bazbaRFOO", "foobarbaz"], ) def test_regex_null(self): """ A regex lookup does not fail on null/None values """ Season.objects.create(year=2012, gt=None) self.assertQuerysetEqual(Season.objects.filter(gt__regex=r"^$"), []) def test_regex_non_string(self): """ A regex lookup does not fail on non-string fields """ s = Season.objects.create(year=2013, gt=444) self.assertQuerysetEqual(Season.objects.filter(gt__regex=r"^444$"), [s]) def test_regex_non_ascii(self): """ A regex lookup does not trip on non-ASCII characters. """ Player.objects.create(name="\u2660") Player.objects.get(name__regex="\u2660") def test_nonfield_lookups(self): """ A lookup query containing non-fields raises the proper exception. """ msg = ( "Unsupported lookup 'blahblah' for CharField or join on the field not " "permitted." ) with self.assertRaisesMessage(FieldError, msg): Article.objects.filter(headline__blahblah=99) with self.assertRaisesMessage(FieldError, msg): Article.objects.filter(headline__blahblah__exact=99) msg = ( "Cannot resolve keyword 'blahblah' into field. Choices are: " "author, author_id, headline, id, pub_date, slug, tag" ) with self.assertRaisesMessage(FieldError, msg): Article.objects.filter(blahblah=99) def test_lookup_collision(self): """ Genuine field names don't collide with built-in lookup types ('year', 'gt', 'range', 'in' etc.) (#11670). """ # 'gt' is used as a code number for the year, e.g. 111=>2009. season_2009 = Season.objects.create(year=2009, gt=111) season_2009.games.create(home="Houston Astros", away="St. Louis Cardinals") season_2010 = Season.objects.create(year=2010, gt=222) season_2010.games.create(home="Houston Astros", away="Chicago Cubs") season_2010.games.create(home="Houston Astros", away="Milwaukee Brewers") season_2010.games.create(home="Houston Astros", away="St. Louis Cardinals") season_2011 = Season.objects.create(year=2011, gt=333) season_2011.games.create(home="Houston Astros", away="St. Louis Cardinals") season_2011.games.create(home="Houston Astros", away="Milwaukee Brewers") hunter_pence = Player.objects.create(name="Hunter Pence") hunter_pence.games.set(Game.objects.filter(season__year__in=[2009, 2010])) pudge = Player.objects.create(name="Ivan Rodriquez") pudge.games.set(Game.objects.filter(season__year=2009)) pedro_feliz = Player.objects.create(name="Pedro Feliz") pedro_feliz.games.set(Game.objects.filter(season__year__in=[2011])) johnson = Player.objects.create(name="Johnson") johnson.games.set(Game.objects.filter(season__year__in=[2011])) # Games in 2010 self.assertEqual(Game.objects.filter(season__year=2010).count(), 3) self.assertEqual(Game.objects.filter(season__year__exact=2010).count(), 3) self.assertEqual(Game.objects.filter(season__gt=222).count(), 3) self.assertEqual(Game.objects.filter(season__gt__exact=222).count(), 3) # Games in 2011 self.assertEqual(Game.objects.filter(season__year=2011).count(), 2) self.assertEqual(Game.objects.filter(season__year__exact=2011).count(), 2) self.assertEqual(Game.objects.filter(season__gt=333).count(), 2) self.assertEqual(Game.objects.filter(season__gt__exact=333).count(), 2) self.assertEqual(Game.objects.filter(season__year__gt=2010).count(), 2) self.assertEqual(Game.objects.filter(season__gt__gt=222).count(), 2) # Games played in 2010 and 2011 self.assertEqual(Game.objects.filter(season__year__in=[2010, 2011]).count(), 5) self.assertEqual(Game.objects.filter(season__year__gt=2009).count(), 5) self.assertEqual(Game.objects.filter(season__gt__in=[222, 333]).count(), 5) self.assertEqual(Game.objects.filter(season__gt__gt=111).count(), 5) # Players who played in 2009 self.assertEqual( Player.objects.filter(games__season__year=2009).distinct().count(), 2 ) self.assertEqual( Player.objects.filter(games__season__year__exact=2009).distinct().count(), 2 ) self.assertEqual( Player.objects.filter(games__season__gt=111).distinct().count(), 2 ) self.assertEqual( Player.objects.filter(games__season__gt__exact=111).distinct().count(), 2 ) # Players who played in 2010 self.assertEqual( Player.objects.filter(games__season__year=2010).distinct().count(), 1 ) self.assertEqual( Player.objects.filter(games__season__year__exact=2010).distinct().count(), 1 ) self.assertEqual( Player.objects.filter(games__season__gt=222).distinct().count(), 1 ) self.assertEqual( Player.objects.filter(games__season__gt__exact=222).distinct().count(), 1 ) # Players who played in 2011 self.assertEqual( Player.objects.filter(games__season__year=2011).distinct().count(), 2 ) self.assertEqual( Player.objects.filter(games__season__year__exact=2011).distinct().count(), 2 ) self.assertEqual( Player.objects.filter(games__season__gt=333).distinct().count(), 2 ) self.assertEqual( Player.objects.filter(games__season__year__gt=2010).distinct().count(), 2 ) self.assertEqual( Player.objects.filter(games__season__gt__gt=222).distinct().count(), 2 ) def test_chain_date_time_lookups(self): self.assertCountEqual( Article.objects.filter(pub_date__month__gt=7), [self.a5, self.a6], ) self.assertCountEqual( Article.objects.filter(pub_date__day__gte=27), [self.a2, self.a3, self.a4, self.a7], ) self.assertCountEqual( Article.objects.filter(pub_date__hour__lt=8), [self.a1, self.a2, self.a3, self.a4, self.a7], ) self.assertCountEqual( Article.objects.filter(pub_date__minute__lte=0), [self.a1, self.a2, self.a3, self.a4, self.a5, self.a6, self.a7], ) def test_exact_none_transform(self): """Transforms are used for __exact=None.""" Season.objects.create(year=1, nulled_text_field="not null") self.assertFalse(Season.objects.filter(nulled_text_field__isnull=True)) self.assertTrue(Season.objects.filter(nulled_text_field__nulled__isnull=True)) self.assertTrue(Season.objects.filter(nulled_text_field__nulled__exact=None)) self.assertTrue(Season.objects.filter(nulled_text_field__nulled=None)) def test_exact_sliced_queryset_limit_one(self): self.assertCountEqual( Article.objects.filter(author=Author.objects.all()[:1]), [self.a1, self.a2, self.a3, self.a4], ) def test_exact_sliced_queryset_limit_one_offset(self): self.assertCountEqual( Article.objects.filter(author=Author.objects.all()[1:2]), [self.a5, self.a6, self.a7], ) def test_exact_sliced_queryset_not_limited_to_one(self): msg = ( "The QuerySet value for an exact lookup must be limited to one " "result using slicing." ) with self.assertRaisesMessage(ValueError, msg): list(Article.objects.filter(author=Author.objects.all()[:2])) with self.assertRaisesMessage(ValueError, msg): list(Article.objects.filter(author=Author.objects.all()[1:])) @skipUnless(connection.vendor == "mysql", "MySQL-specific workaround.") def test_exact_booleanfield(self): # MySQL ignores indexes with boolean fields unless they're compared # directly to a boolean value. product = Product.objects.create(name="Paper", qty_target=5000) Stock.objects.create(product=product, short=False, qty_available=5100) stock_1 = Stock.objects.create(product=product, short=True, qty_available=180) qs = Stock.objects.filter(short=True) self.assertSequenceEqual(qs, [stock_1]) self.assertIn( "%s = True" % connection.ops.quote_name("short"), str(qs.query), ) @skipUnless(connection.vendor == "mysql", "MySQL-specific workaround.") def test_exact_booleanfield_annotation(self): # MySQL ignores indexes with boolean fields unless they're compared # directly to a boolean value. qs = Author.objects.annotate( case=Case( When(alias="a1", then=True), default=False, output_field=BooleanField(), ) ).filter(case=True) self.assertSequenceEqual(qs, [self.au1]) self.assertIn(" = True", str(qs.query)) qs = Author.objects.annotate( wrapped=ExpressionWrapper(Q(alias="a1"), output_field=BooleanField()), ).filter(wrapped=True) self.assertSequenceEqual(qs, [self.au1]) self.assertIn(" = True", str(qs.query)) # EXISTS(...) shouldn't be compared to a boolean value. qs = Author.objects.annotate( exists=Exists(Author.objects.filter(alias="a1", pk=OuterRef("pk"))), ).filter(exists=True) self.assertSequenceEqual(qs, [self.au1]) self.assertNotIn(" = True", str(qs.query)) def test_custom_field_none_rhs(self): """ __exact=value is transformed to __isnull=True if Field.get_prep_value() converts value to None. """ season = Season.objects.create(year=2012, nulled_text_field=None) self.assertTrue( Season.objects.filter(pk=season.pk, nulled_text_field__isnull=True) ) self.assertTrue(Season.objects.filter(pk=season.pk, nulled_text_field="")) def test_pattern_lookups_with_substr(self): a = Author.objects.create(name="John Smith", alias="Johx") b = Author.objects.create(name="Rhonda Simpson", alias="sonx") tests = ( ("startswith", [a]), ("istartswith", [a]), ("contains", [a, b]), ("icontains", [a, b]), ("endswith", [b]), ("iendswith", [b]), ) for lookup, result in tests: with self.subTest(lookup=lookup): authors = Author.objects.filter( **{"name__%s" % lookup: Substr("alias", 1, 3)} ) self.assertCountEqual(authors, result) def test_custom_lookup_none_rhs(self): """Lookup.can_use_none_as_rhs=True allows None as a lookup value.""" season = Season.objects.create(year=2012, nulled_text_field=None) query = Season.objects.get_queryset().query field = query.model._meta.get_field("nulled_text_field") self.assertIsInstance( query.build_lookup(["isnull_none_rhs"], field, None), IsNullWithNoneAsRHS ) self.assertTrue( Season.objects.filter(pk=season.pk, nulled_text_field__isnull_none_rhs=True) ) def test_exact_exists(self): qs = Article.objects.filter(pk=OuterRef("pk")) seasons = Season.objects.annotate(pk_exists=Exists(qs),).filter( pk_exists=Exists(qs), ) self.assertCountEqual(seasons, Season.objects.all()) def test_nested_outerref_lhs(self): tag = Tag.objects.create(name=self.au1.alias) tag.articles.add(self.a1) qs = Tag.objects.annotate( has_author_alias_match=Exists( Article.objects.annotate( author_exists=Exists( Author.objects.filter(alias=OuterRef(OuterRef("name"))) ), ).filter(author_exists=True) ), ) self.assertEqual(qs.get(has_author_alias_match=True), tag) def test_exact_query_rhs_with_selected_columns(self): newest_author = Author.objects.create(name="Author 2") authors_max_ids = ( Author.objects.filter( name="Author 2", ) .values( "name", ) .annotate( max_id=Max("id"), ) .values("max_id") ) authors = Author.objects.filter(id=authors_max_ids[:1]) self.assertEqual(authors.get(), newest_author) def test_isnull_non_boolean_value(self): msg = "The QuerySet value for an isnull lookup must be True or False." tests = [ Author.objects.filter(alias__isnull=1), Article.objects.filter(author__isnull=1), Season.objects.filter(games__isnull=1), Freebie.objects.filter(stock__isnull=1), ] for qs in tests: with self.subTest(qs=qs): with self.assertRaisesMessage(ValueError, msg): qs.exists() def test_lookup_rhs(self): product = Product.objects.create(name="GME", qty_target=5000) stock_1 = Stock.objects.create(product=product, short=True, qty_available=180) stock_2 = Stock.objects.create(product=product, short=False, qty_available=5100) Stock.objects.create(product=product, short=False, qty_available=4000) self.assertCountEqual( Stock.objects.filter(short=Q(qty_available__lt=F("product__qty_target"))), [stock_1, stock_2], ) self.assertCountEqual( Stock.objects.filter( short=ExpressionWrapper( Q(qty_available__lt=F("product__qty_target")), output_field=BooleanField(), ) ), [stock_1, stock_2], ) class LookupQueryingTests(TestCase): @classmethod def setUpTestData(cls): cls.s1 = Season.objects.create(year=1942, gt=1942) cls.s2 = Season.objects.create(year=1842, gt=1942) cls.s3 = Season.objects.create(year=2042, gt=1942) def test_annotate(self): qs = Season.objects.annotate(equal=Exact(F("year"), 1942)) self.assertCountEqual( qs.values_list("year", "equal"), ((1942, True), (1842, False), (2042, False)), ) def test_alias(self): qs = Season.objects.alias(greater=GreaterThan(F("year"), 1910)) self.assertCountEqual(qs.filter(greater=True), [self.s1, self.s3]) def test_annotate_value_greater_than_value(self): qs = Season.objects.annotate(greater=GreaterThan(Value(40), Value(30))) self.assertCountEqual( qs.values_list("year", "greater"), ((1942, True), (1842, True), (2042, True)), ) def test_annotate_field_greater_than_field(self): qs = Season.objects.annotate(greater=GreaterThan(F("year"), F("gt"))) self.assertCountEqual( qs.values_list("year", "greater"), ((1942, False), (1842, False), (2042, True)), ) def test_annotate_field_greater_than_value(self): qs = Season.objects.annotate(greater=GreaterThan(F("year"), Value(1930))) self.assertCountEqual( qs.values_list("year", "greater"), ((1942, True), (1842, False), (2042, True)), ) def test_annotate_field_greater_than_literal(self): qs = Season.objects.annotate(greater=GreaterThan(F("year"), 1930)) self.assertCountEqual( qs.values_list("year", "greater"), ((1942, True), (1842, False), (2042, True)), ) def test_annotate_literal_greater_than_field(self): qs = Season.objects.annotate(greater=GreaterThan(1930, F("year"))) self.assertCountEqual( qs.values_list("year", "greater"), ((1942, False), (1842, True), (2042, False)), ) def test_annotate_less_than_float(self): qs = Season.objects.annotate(lesser=LessThan(F("year"), 1942.1)) self.assertCountEqual( qs.values_list("year", "lesser"), ((1942, True), (1842, True), (2042, False)), ) def test_annotate_greater_than_or_equal(self): qs = Season.objects.annotate(greater=GreaterThanOrEqual(F("year"), 1942)) self.assertCountEqual( qs.values_list("year", "greater"), ((1942, True), (1842, False), (2042, True)), ) def test_annotate_greater_than_or_equal_float(self): qs = Season.objects.annotate(greater=GreaterThanOrEqual(F("year"), 1942.1)) self.assertCountEqual( qs.values_list("year", "greater"), ((1942, False), (1842, False), (2042, True)), ) def test_combined_lookups(self): expression = Exact(F("year"), 1942) | GreaterThan(F("year"), 1942) qs = Season.objects.annotate(gte=expression) self.assertCountEqual( qs.values_list("year", "gte"), ((1942, True), (1842, False), (2042, True)), ) def test_lookup_in_filter(self): qs = Season.objects.filter(GreaterThan(F("year"), 1910)) self.assertCountEqual(qs, [self.s1, self.s3]) def test_filter_lookup_lhs(self): qs = Season.objects.annotate(before_20=LessThan(F("year"), 2000)).filter( before_20=LessThan(F("year"), 1900), ) self.assertCountEqual(qs, [self.s2, self.s3]) def test_filter_wrapped_lookup_lhs(self): qs = ( Season.objects.annotate( before_20=ExpressionWrapper( Q(year__lt=2000), output_field=BooleanField(), ) ) .filter(before_20=LessThan(F("year"), 1900)) .values_list("year", flat=True) ) self.assertCountEqual(qs, [1842, 2042]) def test_filter_exists_lhs(self): qs = Season.objects.annotate( before_20=Exists( Season.objects.filter(pk=OuterRef("pk"), year__lt=2000), ) ).filter(before_20=LessThan(F("year"), 1900)) self.assertCountEqual(qs, [self.s2, self.s3]) def test_filter_subquery_lhs(self): qs = Season.objects.annotate( before_20=Subquery( Season.objects.filter(pk=OuterRef("pk")).values( lesser=LessThan(F("year"), 2000), ), ) ).filter(before_20=LessThan(F("year"), 1900)) self.assertCountEqual(qs, [self.s2, self.s3]) def test_combined_lookups_in_filter(self): expression = Exact(F("year"), 1942) | GreaterThan(F("year"), 1942) qs = Season.objects.filter(expression) self.assertCountEqual(qs, [self.s1, self.s3]) def test_combined_annotated_lookups_in_filter(self): expression = Exact(F("year"), 1942) | GreaterThan(F("year"), 1942) qs = Season.objects.annotate(gte=expression).filter(gte=True) self.assertCountEqual(qs, [self.s1, self.s3]) def test_combined_annotated_lookups_in_filter_false(self): expression = Exact(F("year"), 1942) | GreaterThan(F("year"), 1942) qs = Season.objects.annotate(gte=expression).filter(gte=False) self.assertSequenceEqual(qs, [self.s2]) def test_lookup_in_order_by(self): qs = Season.objects.order_by(LessThan(F("year"), 1910), F("year")) self.assertSequenceEqual(qs, [self.s1, self.s3, self.s2]) @skipUnlessDBFeature("supports_boolean_expr_in_select_clause") def test_aggregate_combined_lookup(self): expression = Cast(GreaterThan(F("year"), 1900), models.IntegerField()) qs = Season.objects.aggregate(modern=models.Sum(expression)) self.assertEqual(qs["modern"], 2) def test_conditional_expression(self): qs = Season.objects.annotate( century=Case( When( GreaterThan(F("year"), 1900) & LessThanOrEqual(F("year"), 2000), then=Value("20th"), ), default=Value("other"), ) ).values("year", "century") self.assertCountEqual( qs, [ {"year": 1942, "century": "20th"}, {"year": 1842, "century": "other"}, {"year": 2042, "century": "other"}, ], )