Add files using upload-large-folder tool

5e07a1f verified 2 months ago

80.9 kB

	import datetime
	import math
	import re
	from decimal import Decimal

	from django.core.exceptions import FieldError
	from django.db import connection
	from django.db.models import (
	Avg,
	Case,
	Count,
	DateField,
	DateTimeField,
	DecimalField,
	DurationField,
	Exists,
	F,
	FloatField,
	IntegerField,
	Max,
	Min,
	OuterRef,
	Q,
	StdDev,
	Subquery,
	Sum,
	TimeField,
	Value,
	Variance,
	When,
	)
	from django.db.models.expressions import Func, RawSQL
	from django.db.models.functions import (
	Cast,
	Coalesce,
	Greatest,
	Least,
	Lower,
	Mod,
	Now,
	Pi,
	TruncDate,
	TruncHour,
	)
	from django.test import TestCase
	from django.test.testcases import skipUnlessDBFeature
	from django.test.utils import Approximate, CaptureQueriesContext
	from django.utils import timezone

	from .models import Author, Book, Publisher, Store


	class NowUTC(Now):
	template = "CURRENT_TIMESTAMP"
	output_field = DateTimeField()

	def as_sql(self, compiler, connection, **extra_context):
	if connection.features.test_now_utc_template:
	extra_context["template"] = connection.features.test_now_utc_template
	return super().as_sql(compiler, connection, **extra_context)


	class AggregateTestCase(TestCase):
	@classmethod
	def setUpTestData(cls):
	cls.a1 = Author.objects.create(name="Adrian Holovaty", age=34)
	cls.a2 = Author.objects.create(name="Jacob Kaplan-Moss", age=35)
	cls.a3 = Author.objects.create(name="Brad Dayley", age=45)
	cls.a4 = Author.objects.create(name="James Bennett", age=29)
	cls.a5 = Author.objects.create(name="Jeffrey Forcier", age=37)
	cls.a6 = Author.objects.create(name="Paul Bissex", age=29)
	cls.a7 = Author.objects.create(name="Wesley J. Chun", age=25)
	cls.a8 = Author.objects.create(name="Peter Norvig", age=57)
	cls.a9 = Author.objects.create(name="Stuart Russell", age=46)
	cls.a1.friends.add(cls.a2, cls.a4)
	cls.a2.friends.add(cls.a1, cls.a7)
	cls.a4.friends.add(cls.a1)
	cls.a5.friends.add(cls.a6, cls.a7)
	cls.a6.friends.add(cls.a5, cls.a7)
	cls.a7.friends.add(cls.a2, cls.a5, cls.a6)
	cls.a8.friends.add(cls.a9)
	cls.a9.friends.add(cls.a8)

	cls.p1 = Publisher.objects.create(
	name="Apress", num_awards=3, duration=datetime.timedelta(days=1)
	)
	cls.p2 = Publisher.objects.create(
	name="Sams", num_awards=1, duration=datetime.timedelta(days=2)
	)
	cls.p3 = Publisher.objects.create(name="Prentice Hall", num_awards=7)
	cls.p4 = Publisher.objects.create(name="Morgan Kaufmann", num_awards=9)
	cls.p5 = Publisher.objects.create(name="Jonno's House of Books", num_awards=0)

	cls.b1 = Book.objects.create(
	isbn="159059725",
	name="The Definitive Guide to Django: Web Development Done Right",
	pages=447,
	rating=4.5,
	price=Decimal("30.00"),
	contact=cls.a1,
	publisher=cls.p1,
	pubdate=datetime.date(2007, 12, 6),
	)
	cls.b2 = Book.objects.create(
	isbn="067232959",
	name="Sams Teach Yourself Django in 24 Hours",
	pages=528,
	rating=3.0,
	price=Decimal("23.09"),
	contact=cls.a3,
	publisher=cls.p2,
	pubdate=datetime.date(2008, 3, 3),
	)
	cls.b3 = Book.objects.create(
	isbn="159059996",
	name="Practical Django Projects",
	pages=300,
	rating=4.0,
	price=Decimal("29.69"),
	contact=cls.a4,
	publisher=cls.p1,
	pubdate=datetime.date(2008, 6, 23),
	)
	cls.b4 = Book.objects.create(
	isbn="013235613",
	name="Python Web Development with Django",
	pages=350,
	rating=4.0,
	price=Decimal("29.69"),
	contact=cls.a5,
	publisher=cls.p3,
	pubdate=datetime.date(2008, 11, 3),
	)
	cls.b5 = Book.objects.create(
	isbn="013790395",
	name="Artificial Intelligence: A Modern Approach",
	pages=1132,
	rating=4.0,
	price=Decimal("82.80"),
	contact=cls.a8,
	publisher=cls.p3,
	pubdate=datetime.date(1995, 1, 15),
	)
	cls.b6 = Book.objects.create(
	isbn="155860191",
	name=(
	"Paradigms of Artificial Intelligence Programming: Case Studies in "
	"Common Lisp"
	),
	pages=946,
	rating=5.0,
	price=Decimal("75.00"),
	contact=cls.a8,
	publisher=cls.p4,
	pubdate=datetime.date(1991, 10, 15),
	)
	cls.b1.authors.add(cls.a1, cls.a2)
	cls.b2.authors.add(cls.a3)
	cls.b3.authors.add(cls.a4)
	cls.b4.authors.add(cls.a5, cls.a6, cls.a7)
	cls.b5.authors.add(cls.a8, cls.a9)
	cls.b6.authors.add(cls.a8)

	s1 = Store.objects.create(
	name="Amazon.com",
	original_opening=datetime.datetime(1994, 4, 23, 9, 17, 42),
	friday_night_closing=datetime.time(23, 59, 59),
	)
	s2 = Store.objects.create(
	name="Books.com",
	original_opening=datetime.datetime(2001, 3, 15, 11, 23, 37),
	friday_night_closing=datetime.time(23, 59, 59),
	)
	s3 = Store.objects.create(
	name="Mamma and Pappa's Books",
	original_opening=datetime.datetime(1945, 4, 25, 16, 24, 14),
	friday_night_closing=datetime.time(21, 30),
	)
	s1.books.add(cls.b1, cls.b2, cls.b3, cls.b4, cls.b5, cls.b6)
	s2.books.add(cls.b1, cls.b3, cls.b5, cls.b6)
	s3.books.add(cls.b3, cls.b4, cls.b6)

	def test_empty_aggregate(self):
	self.assertEqual(Author.objects.aggregate(), {})

	def test_aggregate_in_order_by(self):
	msg = (
	"Using an aggregate in order_by() without also including it in "
	"annotate() is not allowed: Avg(F(book__rating)"
	)
	with self.assertRaisesMessage(FieldError, msg):
	Author.objects.values("age").order_by(Avg("book__rating"))

	def test_single_aggregate(self):
	vals = Author.objects.aggregate(Avg("age"))
	self.assertEqual(vals, {"age__avg": Approximate(37.4, places=1)})

	def test_multiple_aggregates(self):
	vals = Author.objects.aggregate(Sum("age"), Avg("age"))
	self.assertEqual(
	vals, {"age__sum": 337, "age__avg": Approximate(37.4, places=1)}
	)

	def test_filter_aggregate(self):
	vals = Author.objects.filter(age__gt=29).aggregate(Sum("age"))
	self.assertEqual(vals, {"age__sum": 254})

	def test_related_aggregate(self):
	vals = Author.objects.aggregate(Avg("friends__age"))
	self.assertEqual(vals, {"friends__age__avg": Approximate(34.07, places=2)})

	vals = Book.objects.filter(rating__lt=4.5).aggregate(Avg("authors__age"))
	self.assertEqual(vals, {"authors__age__avg": Approximate(38.2857, places=2)})

	vals = Author.objects.filter(name__contains="a").aggregate(Avg("book__rating"))
	self.assertEqual(vals, {"book__rating__avg": 4.0})

	vals = Book.objects.aggregate(Sum("publisher__num_awards"))
	self.assertEqual(vals, {"publisher__num_awards__sum": 30})

	vals = Publisher.objects.aggregate(Sum("book__price"))
	self.assertEqual(vals, {"book__price__sum": Decimal("270.27")})

	def test_aggregate_multi_join(self):
	vals = Store.objects.aggregate(Max("books__authors__age"))
	self.assertEqual(vals, {"books__authors__age__max": 57})

	vals = Author.objects.aggregate(Min("book__publisher__num_awards"))
	self.assertEqual(vals, {"book__publisher__num_awards__min": 1})

	def test_aggregate_alias(self):
	vals = Store.objects.filter(name="Amazon.com").aggregate(
	amazon_mean=Avg("books__rating")
	)
	self.assertEqual(vals, {"amazon_mean": Approximate(4.08, places=2)})

	def test_aggregate_transform(self):
	vals = Store.objects.aggregate(min_month=Min("original_opening__month"))
	self.assertEqual(vals, {"min_month": 3})

	def test_aggregate_join_transform(self):
	vals = Publisher.objects.aggregate(min_year=Min("book__pubdate__year"))
	self.assertEqual(vals, {"min_year": 1991})

	def test_annotate_basic(self):
	self.assertQuerySetEqual(
	Book.objects.annotate().order_by("pk"),
	[
	"The Definitive Guide to Django: Web Development Done Right",
	"Sams Teach Yourself Django in 24 Hours",
	"Practical Django Projects",
	"Python Web Development with Django",
	"Artificial Intelligence: A Modern Approach",
	"Paradigms of Artificial Intelligence Programming: Case Studies in "
	"Common Lisp",
	],
	lambda b: b.name,
	)

	books = Book.objects.annotate(mean_age=Avg("authors__age"))
	b = books.get(pk=self.b1.pk)
	self.assertEqual(
	b.name, "The Definitive Guide to Django: Web Development Done Right"
	)
	self.assertEqual(b.mean_age, 34.5)

	def test_annotate_defer(self):
	qs = (
	Book.objects.annotate(page_sum=Sum("pages"))
	.defer("name")
	.filter(pk=self.b1.pk)
	)

	rows = [
	(
	self.b1.id,
	"159059725",
	447,
	"The Definitive Guide to Django: Web Development Done Right",
	)
	]
	self.assertQuerySetEqual(
	qs.order_by("pk"), rows, lambda r: (r.id, r.isbn, r.page_sum, r.name)
	)

	def test_annotate_defer_select_related(self):
	qs = (
	Book.objects.select_related("contact")
	.annotate(page_sum=Sum("pages"))
	.defer("name")
	.filter(pk=self.b1.pk)
	)

	rows = [
	(
	self.b1.id,
	"159059725",
	447,
	"Adrian Holovaty",
	"The Definitive Guide to Django: Web Development Done Right",
	)
	]
	self.assertQuerySetEqual(
	qs.order_by("pk"),
	rows,
	lambda r: (r.id, r.isbn, r.page_sum, r.contact.name, r.name),
	)

	def test_annotate_m2m(self):
	books = (
	Book.objects.filter(rating__lt=4.5)
	.annotate(Avg("authors__age"))
	.order_by("name")
	)
	self.assertQuerySetEqual(
	books,
	[
	("Artificial Intelligence: A Modern Approach", 51.5),
	("Practical Django Projects", 29.0),
	("Python Web Development with Django", Approximate(30.3, places=1)),
	("Sams Teach Yourself Django in 24 Hours", 45.0),
	],
	lambda b: (b.name, b.authors__age__avg),
	)

	books = Book.objects.annotate(num_authors=Count("authors")).order_by("name")
	self.assertQuerySetEqual(
	books,
	[
	("Artificial Intelligence: A Modern Approach", 2),
	(
	"Paradigms of Artificial Intelligence Programming: Case Studies in "
	"Common Lisp",
	1,
	),
	("Practical Django Projects", 1),
	("Python Web Development with Django", 3),
	("Sams Teach Yourself Django in 24 Hours", 1),
	("The Definitive Guide to Django: Web Development Done Right", 2),
	],
	lambda b: (b.name, b.num_authors),
	)

	def test_backwards_m2m_annotate(self):
	authors = (
	Author.objects.filter(name__contains="a")
	.annotate(Avg("book__rating"))
	.order_by("name")
	)
	self.assertQuerySetEqual(
	authors,
	[
	("Adrian Holovaty", 4.5),
	("Brad Dayley", 3.0),
	("Jacob Kaplan-Moss", 4.5),
	("James Bennett", 4.0),
	("Paul Bissex", 4.0),
	("Stuart Russell", 4.0),
	],
	lambda a: (a.name, a.book__rating__avg),
	)

	authors = Author.objects.annotate(num_books=Count("book")).order_by("name")
	self.assertQuerySetEqual(
	authors,
	[
	("Adrian Holovaty", 1),
	("Brad Dayley", 1),
	("Jacob Kaplan-Moss", 1),
	("James Bennett", 1),
	("Jeffrey Forcier", 1),
	("Paul Bissex", 1),
	("Peter Norvig", 2),
	("Stuart Russell", 1),
	("Wesley J. Chun", 1),
	],
	lambda a: (a.name, a.num_books),
	)

	def test_reverse_fkey_annotate(self):
	books = Book.objects.annotate(Sum("publisher__num_awards")).order_by("name")
	self.assertQuerySetEqual(
	books,
	[
	("Artificial Intelligence: A Modern Approach", 7),
	(
	"Paradigms of Artificial Intelligence Programming: Case Studies in "
	"Common Lisp",
	9,
	),
	("Practical Django Projects", 3),
	("Python Web Development with Django", 7),
	("Sams Teach Yourself Django in 24 Hours", 1),
	("The Definitive Guide to Django: Web Development Done Right", 3),
	],
	lambda b: (b.name, b.publisher__num_awards__sum),
	)

	publishers = Publisher.objects.annotate(Sum("book__price")).order_by("name")
	self.assertQuerySetEqual(
	publishers,
	[
	("Apress", Decimal("59.69")),
	("Jonno's House of Books", None),
	("Morgan Kaufmann", Decimal("75.00")),
	("Prentice Hall", Decimal("112.49")),
	("Sams", Decimal("23.09")),
	],
	lambda p: (p.name, p.book__price__sum),
	)

	def test_annotate_values(self):
	books = list(
	Book.objects.filter(pk=self.b1.pk)
	.annotate(mean_age=Avg("authors__age"))
	.values()
	)
	self.assertEqual(
	books,
	[
	{
	"contact_id": self.a1.id,
	"id": self.b1.id,
	"isbn": "159059725",
	"mean_age": 34.5,
	"name": (
	"The Definitive Guide to Django: Web Development Done Right"
	),
	"pages": 447,
	"price": Approximate(Decimal("30")),
	"pubdate": datetime.date(2007, 12, 6),
	"publisher_id": self.p1.id,
	"rating": 4.5,
	}
	],
	)

	books = (
	Book.objects.filter(pk=self.b1.pk)
	.annotate(mean_age=Avg("authors__age"))
	.values("pk", "isbn", "mean_age")
	)
	self.assertEqual(
	list(books),
	[
	{
	"pk": self.b1.pk,
	"isbn": "159059725",
	"mean_age": 34.5,
	}
	],
	)

	books = (
	Book.objects.filter(pk=self.b1.pk)
	.annotate(mean_age=Avg("authors__age"))
	.values("name")
	)
	self.assertEqual(
	list(books),
	[{"name": "The Definitive Guide to Django: Web Development Done Right"}],
	)

	books = (
	Book.objects.filter(pk=self.b1.pk)
	.values()
	.annotate(mean_age=Avg("authors__age"))
	)
	self.assertEqual(
	list(books),
	[
	{
	"contact_id": self.a1.id,
	"id": self.b1.id,
	"isbn": "159059725",
	"mean_age": 34.5,
	"name": (
	"The Definitive Guide to Django: Web Development Done Right"
	),
	"pages": 447,
	"price": Approximate(Decimal("30")),
	"pubdate": datetime.date(2007, 12, 6),
	"publisher_id": self.p1.id,
	"rating": 4.5,
	}
	],
	)

	books = (
	Book.objects.values("rating")
	.annotate(n_authors=Count("authors__id"), mean_age=Avg("authors__age"))
	.order_by("rating")
	)
	self.assertEqual(
	list(books),
	[
	{
	"rating": 3.0,
	"n_authors": 1,
	"mean_age": 45.0,
	},
	{
	"rating": 4.0,
	"n_authors": 6,
	"mean_age": Approximate(37.16, places=1),
	},
	{
	"rating": 4.5,
	"n_authors": 2,
	"mean_age": 34.5,
	},
	{
	"rating": 5.0,
	"n_authors": 1,
	"mean_age": 57.0,
	},
	],
	)

	authors = Author.objects.annotate(Avg("friends__age")).order_by("name")
	self.assertQuerySetEqual(
	authors,
	[
	("Adrian Holovaty", 32.0),
	("Brad Dayley", None),
	("Jacob Kaplan-Moss", 29.5),
	("James Bennett", 34.0),
	("Jeffrey Forcier", 27.0),
	("Paul Bissex", 31.0),
	("Peter Norvig", 46.0),
	("Stuart Russell", 57.0),
	("Wesley J. Chun", Approximate(33.66, places=1)),
	],
	lambda a: (a.name, a.friends__age__avg),
	)

	def test_count(self):
	vals = Book.objects.aggregate(Count("rating"))
	self.assertEqual(vals, {"rating__count": 6})

	def test_count_star(self):
	with self.assertNumQueries(1) as ctx:
	Book.objects.aggregate(n=Count("*"))
	sql = ctx.captured_queries[0]["sql"]
	self.assertIn("SELECT COUNT(*) ", sql)

	def test_count_distinct_expression(self):
	aggs = Book.objects.aggregate(
	distinct_ratings=Count(
	Case(When(pages__gt=300, then="rating")), distinct=True
	),
	)
	self.assertEqual(aggs["distinct_ratings"], 4)

	def test_distinct_on_aggregate(self):
	for aggregate, expected_result in (
	(Avg, 4.125),
	(Count, 4),
	(Sum, 16.5),
	):
	with self.subTest(aggregate=aggregate.__name__):
	books = Book.objects.aggregate(
	ratings=aggregate("rating", distinct=True)
	)
	self.assertEqual(books["ratings"], expected_result)

	def test_non_grouped_annotation_not_in_group_by(self):
	"""
	An annotation not included in values() before an aggregate should be
	excluded from the group by clause.
	"""
	qs = (
	Book.objects.annotate(xprice=F("price"))
	.filter(rating=4.0)
	.values("rating")
	.annotate(count=Count("publisher_id", distinct=True))
	.values("count", "rating")
	.order_by("count")
	)
	self.assertEqual(list(qs), [{"rating": 4.0, "count": 2}])

	def test_grouped_annotation_in_group_by(self):
	"""
	An annotation included in values() before an aggregate should be
	included in the group by clause.
	"""
	qs = (
	Book.objects.annotate(xprice=F("price"))
	.filter(rating=4.0)
	.values("rating", "xprice")
	.annotate(count=Count("publisher_id", distinct=True))
	.values("count", "rating")
	.order_by("count")
	)
	self.assertEqual(
	list(qs),
	[
	{"rating": 4.0, "count": 1},
	{"rating": 4.0, "count": 2},
	],
	)

	def test_fkey_aggregate(self):
	explicit = list(Author.objects.annotate(Count("book__id")))
	implicit = list(Author.objects.annotate(Count("book")))
	self.assertCountEqual(explicit, implicit)

	def test_annotate_ordering(self):
	books = (
	Book.objects.values("rating")
	.annotate(oldest=Max("authors__age"))
	.order_by("oldest", "rating")
	)
	self.assertEqual(
	list(books),
	[
	{"rating": 4.5, "oldest": 35},
	{"rating": 3.0, "oldest": 45},
	{"rating": 4.0, "oldest": 57},
	{"rating": 5.0, "oldest": 57},
	],
	)

	books = (
	Book.objects.values("rating")
	.annotate(oldest=Max("authors__age"))
	.order_by("-oldest", "-rating")
	)
	self.assertEqual(
	list(books),
	[
	{"rating": 5.0, "oldest": 57},
	{"rating": 4.0, "oldest": 57},
	{"rating": 3.0, "oldest": 45},
	{"rating": 4.5, "oldest": 35},
	],
	)

	def test_aggregate_annotation(self):
	vals = Book.objects.annotate(num_authors=Count("authors__id")).aggregate(
	Avg("num_authors")
	)
	self.assertEqual(vals, {"num_authors__avg": Approximate(1.66, places=1)})

	def test_avg_duration_field(self):
	# Explicit `output_field`.
	self.assertEqual(
	Publisher.objects.aggregate(Avg("duration", output_field=DurationField())),
	{"duration__avg": datetime.timedelta(days=1, hours=12)},
	)
	# Implicit `output_field`.
	self.assertEqual(
	Publisher.objects.aggregate(Avg("duration")),
	{"duration__avg": datetime.timedelta(days=1, hours=12)},
	)

	def test_sum_duration_field(self):
	self.assertEqual(
	Publisher.objects.aggregate(Sum("duration", output_field=DurationField())),
	{"duration__sum": datetime.timedelta(days=3)},
	)

	def test_sum_distinct_aggregate(self):
	"""
	Sum on a distinct() QuerySet should aggregate only the distinct items.
	"""
	authors = Author.objects.filter(book__in=[self.b5, self.b6])
	self.assertEqual(authors.count(), 3)

	distinct_authors = authors.distinct()
	self.assertEqual(distinct_authors.count(), 2)

	# Selected author ages are 57 and 46
	age_sum = distinct_authors.aggregate(Sum("age"))
	self.assertEqual(age_sum["age__sum"], 103)

	def test_filtering(self):
	p = Publisher.objects.create(name="Expensive Publisher", num_awards=0)
	Book.objects.create(
	name="ExpensiveBook1",
	pages=1,
	isbn="111",
	rating=3.5,
	price=Decimal("1000"),
	publisher=p,
	contact_id=self.a1.id,
	pubdate=datetime.date(2008, 12, 1),
	)
	Book.objects.create(
	name="ExpensiveBook2",
	pages=1,
	isbn="222",
	rating=4.0,
	price=Decimal("1000"),
	publisher=p,
	contact_id=self.a1.id,
	pubdate=datetime.date(2008, 12, 2),
	)
	Book.objects.create(
	name="ExpensiveBook3",
	pages=1,
	isbn="333",
	rating=4.5,
	price=Decimal("35"),
	publisher=p,
	contact_id=self.a1.id,
	pubdate=datetime.date(2008, 12, 3),
	)

	publishers = (
	Publisher.objects.annotate(num_books=Count("book__id"))
	.filter(num_books__gt=1)
	.order_by("pk")
	)
	self.assertQuerySetEqual(
	publishers,
	["Apress", "Prentice Hall", "Expensive Publisher"],
	lambda p: p.name,
	)

	publishers = Publisher.objects.filter(book__price__lt=Decimal("40.0")).order_by(
	"pk"
	)
	self.assertQuerySetEqual(
	publishers,
	[
	"Apress",
	"Apress",
	"Sams",
	"Prentice Hall",
	"Expensive Publisher",
	],
	lambda p: p.name,
	)

	publishers = (
	Publisher.objects.annotate(num_books=Count("book__id"))
	.filter(num_books__gt=1, book__price__lt=Decimal("40.0"))
	.order_by("pk")
	)
	self.assertQuerySetEqual(
	publishers,
	["Apress", "Prentice Hall", "Expensive Publisher"],
	lambda p: p.name,
	)

	publishers = (
	Publisher.objects.filter(book__price__lt=Decimal("40.0"))
	.annotate(num_books=Count("book__id"))
	.filter(num_books__gt=1)
	.order_by("pk")
	)
	self.assertQuerySetEqual(publishers, ["Apress"], lambda p: p.name)

	publishers = (
	Publisher.objects.annotate(num_books=Count("book"))
	.filter(num_books__range=[1, 3])
	.order_by("pk")
	)
	self.assertQuerySetEqual(
	publishers,
	[
	"Apress",
	"Sams",
	"Prentice Hall",
	"Morgan Kaufmann",
	"Expensive Publisher",
	],
	lambda p: p.name,
	)

	publishers = (
	Publisher.objects.annotate(num_books=Count("book"))
	.filter(num_books__range=[1, 2])
	.order_by("pk")
	)
	self.assertQuerySetEqual(
	publishers,
	["Apress", "Sams", "Prentice Hall", "Morgan Kaufmann"],
	lambda p: p.name,
	)

	publishers = (
	Publisher.objects.annotate(num_books=Count("book"))
	.filter(num_books__in=[1, 3])
	.order_by("pk")
	)
	self.assertQuerySetEqual(
	publishers,
	["Sams", "Morgan Kaufmann", "Expensive Publisher"],
	lambda p: p.name,
	)

	publishers = Publisher.objects.annotate(num_books=Count("book")).filter(
	num_books__isnull=True
	)
	self.assertEqual(len(publishers), 0)

	def test_annotation(self):
	vals = Author.objects.filter(pk=self.a1.pk).aggregate(Count("friends__id"))
	self.assertEqual(vals, {"friends__id__count": 2})

	books = (
	Book.objects.annotate(num_authors=Count("authors__name"))
	.filter(num_authors__exact=2)
	.order_by("pk")
	)
	self.assertQuerySetEqual(
	books,
	[
	"The Definitive Guide to Django: Web Development Done Right",
	"Artificial Intelligence: A Modern Approach",
	],
	lambda b: b.name,
	)

	authors = (
	Author.objects.annotate(num_friends=Count("friends__id", distinct=True))
	.filter(num_friends=0)
	.order_by("pk")
	)
	self.assertQuerySetEqual(authors, ["Brad Dayley"], lambda a: a.name)

	publishers = (
	Publisher.objects.annotate(num_books=Count("book__id"))
	.filter(num_books__gt=1)
	.order_by("pk")
	)
	self.assertQuerySetEqual(
	publishers, ["Apress", "Prentice Hall"], lambda p: p.name
	)

	publishers = (
	Publisher.objects.filter(book__price__lt=Decimal("40.0"))
	.annotate(num_books=Count("book__id"))
	.filter(num_books__gt=1)
	)
	self.assertQuerySetEqual(publishers, ["Apress"], lambda p: p.name)

	books = Book.objects.annotate(num_authors=Count("authors__id")).filter(
	authors__name__contains="Norvig", num_authors__gt=1
	)
	self.assertQuerySetEqual(
	books, ["Artificial Intelligence: A Modern Approach"], lambda b: b.name
	)

	def test_more_aggregation(self):
	a = Author.objects.get(name__contains="Norvig")
	b = Book.objects.get(name__contains="Done Right")
	b.authors.add(a)
	b.save()

	vals = (
	Book.objects.annotate(num_authors=Count("authors__id"))
	.filter(authors__name__contains="Norvig", num_authors__gt=1)
	.aggregate(Avg("rating"))
	)
	self.assertEqual(vals, {"rating__avg": 4.25})

	def test_even_more_aggregate(self):
	publishers = (
	Publisher.objects.annotate(
	earliest_book=Min("book__pubdate"),
	)
	.exclude(earliest_book=None)
	.order_by("earliest_book")
	.values(
	"earliest_book",
	"num_awards",
	"id",
	"name",
	)
	)
	self.assertEqual(
	list(publishers),
	[
	{
	"earliest_book": datetime.date(1991, 10, 15),
	"num_awards": 9,
	"id": self.p4.id,
	"name": "Morgan Kaufmann",
	},
	{
	"earliest_book": datetime.date(1995, 1, 15),
	"num_awards": 7,
	"id": self.p3.id,
	"name": "Prentice Hall",
	},
	{
	"earliest_book": datetime.date(2007, 12, 6),
	"num_awards": 3,
	"id": self.p1.id,
	"name": "Apress",
	},
	{
	"earliest_book": datetime.date(2008, 3, 3),
	"num_awards": 1,
	"id": self.p2.id,
	"name": "Sams",
	},
	],
	)

	vals = Store.objects.aggregate(
	Max("friday_night_closing"), Min("original_opening")
	)
	self.assertEqual(
	vals,
	{
	"friday_night_closing__max": datetime.time(23, 59, 59),
	"original_opening__min": datetime.datetime(1945, 4, 25, 16, 24, 14),
	},
	)

	def test_annotate_values_list(self):
	books = (
	Book.objects.filter(pk=self.b1.pk)
	.annotate(mean_age=Avg("authors__age"))
	.values_list("pk", "isbn", "mean_age")
	)
	self.assertEqual(list(books), [(self.b1.id, "159059725", 34.5)])

	books = (
	Book.objects.filter(pk=self.b1.pk)
	.annotate(mean_age=Avg("authors__age"))
	.values_list("isbn")
	)
	self.assertEqual(list(books), [("159059725",)])

	books = (
	Book.objects.filter(pk=self.b1.pk)
	.annotate(mean_age=Avg("authors__age"))
	.values_list("mean_age")
	)
	self.assertEqual(list(books), [(34.5,)])

	books = (
	Book.objects.filter(pk=self.b1.pk)
	.annotate(mean_age=Avg("authors__age"))
	.values_list("mean_age", flat=True)
	)
	self.assertEqual(list(books), [34.5])

	books = (
	Book.objects.values_list("price")
	.annotate(count=Count("price"))
	.order_by("-count", "price")
	)
	self.assertEqual(
	list(books),
	[
	(Decimal("29.69"), 2),
	(Decimal("23.09"), 1),
	(Decimal("30"), 1),
	(Decimal("75"), 1),
	(Decimal("82.8"), 1),
	],
	)

	def test_dates_with_aggregation(self):
	"""
	.dates() returns a distinct set of dates when applied to a
	QuerySet with aggregation.

	Refs #18056. Previously, .dates() would return distinct (date_kind,
	aggregation) sets, in this case (year, num_authors), so 2008 would be
	returned twice because there are books from 2008 with a different
	number of authors.
	"""
	dates = Book.objects.annotate(num_authors=Count("authors")).dates(
	"pubdate", "year"
	)
	self.assertSequenceEqual(
	dates,
	[
	datetime.date(1991, 1, 1),
	datetime.date(1995, 1, 1),
	datetime.date(2007, 1, 1),
	datetime.date(2008, 1, 1),
	],
	)

	def test_values_aggregation(self):
	# Refs #20782
	max_rating = Book.objects.values("rating").aggregate(max_rating=Max("rating"))
	self.assertEqual(max_rating["max_rating"], 5)
	max_books_per_rating = (
	Book.objects.values("rating")
	.annotate(books_per_rating=Count("id"))
	.aggregate(Max("books_per_rating"))
	)
	self.assertEqual(max_books_per_rating, {"books_per_rating__max": 3})

	def test_ticket17424(self):
	"""
	Doing exclude() on a foreign model after annotate() doesn't crash.
	"""
	all_books = list(Book.objects.values_list("pk", flat=True).order_by("pk"))
	annotated_books = Book.objects.order_by("pk").annotate(one=Count("id"))

	# The value doesn't matter, we just need any negative
	# constraint on a related model that's a noop.
	excluded_books = annotated_books.exclude(publisher__name="__UNLIKELY_VALUE__")

	# Try to generate query tree
	str(excluded_books.query)

	self.assertQuerySetEqual(excluded_books, all_books, lambda x: x.pk)

	# Check internal state
	self.assertIsNone(annotated_books.query.alias_map["aggregation_book"].join_type)
	self.assertIsNone(excluded_books.query.alias_map["aggregation_book"].join_type)

	def test_ticket12886(self):
	"""
	Aggregation over sliced queryset works correctly.
	"""
	qs = Book.objects.order_by("-rating")[0:3]
	vals = qs.aggregate(average_top3_rating=Avg("rating"))["average_top3_rating"]
	self.assertAlmostEqual(vals, 4.5, places=2)

	def test_ticket11881(self):
	"""
	Subqueries do not needlessly contain ORDER BY, SELECT FOR UPDATE or
	select_related() stuff.
	"""
	qs = (
	Book.objects.select_for_update()
	.order_by("pk")
	.select_related("publisher")
	.annotate(max_pk=Max("pk"))
	)
	with CaptureQueriesContext(connection) as captured_queries:
	qs.aggregate(avg_pk=Avg("max_pk"))
	self.assertEqual(len(captured_queries), 1)
	qstr = captured_queries[0]["sql"].lower()
	self.assertNotIn("for update", qstr)
	forced_ordering = connection.ops.force_no_ordering()
	if forced_ordering:
	# If the backend needs to force an ordering we make sure it's
	# the only "ORDER BY" clause present in the query.
	self.assertEqual(
	re.findall(r"order by (\w+)", qstr),
	[", ".join(f[1][0] for f in forced_ordering).lower()],
	)
	else:
	self.assertNotIn("order by", qstr)
	self.assertEqual(qstr.count(" join "), 0)

	def test_decimal_max_digits_has_no_effect(self):
	Book.objects.all().delete()
	a1 = Author.objects.first()
	p1 = Publisher.objects.first()
	thedate = timezone.now()
	for i in range(10):
	Book.objects.create(
	isbn="abcde{}".format(i),
	name="none",
	pages=10,
	rating=4.0,
	price=9999.98,
	contact=a1,
	publisher=p1,
	pubdate=thedate,
	)

	book = Book.objects.aggregate(price_sum=Sum("price"))
	self.assertEqual(book["price_sum"], Decimal("99999.80"))

	def test_nonaggregate_aggregation_throws(self):
	with self.assertRaisesMessage(TypeError, "fail is not an aggregate expression"):
	Book.objects.aggregate(fail=F("price"))

	def test_nonfield_annotation(self):
	book = Book.objects.annotate(val=Max(Value(2))).first()
	self.assertEqual(book.val, 2)
	book = Book.objects.annotate(
	val=Max(Value(2), output_field=IntegerField())
	).first()
	self.assertEqual(book.val, 2)
	book = Book.objects.annotate(val=Max(2, output_field=IntegerField())).first()
	self.assertEqual(book.val, 2)

	def test_annotation_expressions(self):
	authors = Author.objects.annotate(
	combined_ages=Sum(F("age") + F("friends__age"))
	).order_by("name")
	authors2 = Author.objects.annotate(
	combined_ages=Sum("age") + Sum("friends__age")
	).order_by("name")
	for qs in (authors, authors2):
	self.assertQuerySetEqual(
	qs,
	[
	("Adrian Holovaty", 132),
	("Brad Dayley", None),
	("Jacob Kaplan-Moss", 129),
	("James Bennett", 63),
	("Jeffrey Forcier", 128),
	("Paul Bissex", 120),
	("Peter Norvig", 103),
	("Stuart Russell", 103),
	("Wesley J. Chun", 176),
	],
	lambda a: (a.name, a.combined_ages),
	)

	def test_aggregation_expressions(self):
	a1 = Author.objects.aggregate(av_age=Sum("age") / Count("*"))
	a2 = Author.objects.aggregate(av_age=Sum("age") / Count("age"))
	a3 = Author.objects.aggregate(av_age=Avg("age"))
	self.assertEqual(a1, {"av_age": 37})
	self.assertEqual(a2, {"av_age": 37})
	self.assertEqual(a3, {"av_age": Approximate(37.4, places=1)})

	def test_avg_decimal_field(self):
	v = Book.objects.filter(rating=4).aggregate(avg_price=(Avg("price")))[
	"avg_price"
	]
	self.assertIsInstance(v, Decimal)
	self.assertEqual(v, Approximate(Decimal("47.39"), places=2))

	def test_order_of_precedence(self):
	p1 = Book.objects.filter(rating=4).aggregate(avg_price=(Avg("price") + 2) * 3)
	self.assertEqual(p1, {"avg_price": Approximate(Decimal("148.18"), places=2)})

	p2 = Book.objects.filter(rating=4).aggregate(avg_price=Avg("price") + 2 * 3)
	self.assertEqual(p2, {"avg_price": Approximate(Decimal("53.39"), places=2)})

	def test_combine_different_types(self):
	msg = (
	"Cannot infer type of '+' expression involving these types: FloatField, "
	"DecimalField. You must set output_field."
	)
	qs = Book.objects.annotate(sums=Sum("rating") + Sum("pages") + Sum("price"))
	with self.assertRaisesMessage(FieldError, msg):
	qs.first()
	with self.assertRaisesMessage(FieldError, msg):
	qs.first()

	b1 = Book.objects.annotate(
	sums=Sum(F("rating") + F("pages") + F("price"), output_field=IntegerField())
	).get(pk=self.b4.pk)
	self.assertEqual(b1.sums, 383)

	b2 = Book.objects.annotate(
	sums=Sum(F("rating") + F("pages") + F("price"), output_field=FloatField())
	).get(pk=self.b4.pk)
	self.assertEqual(b2.sums, 383.69)

	b3 = Book.objects.annotate(
	sums=Sum(F("rating") + F("pages") + F("price"), output_field=DecimalField())
	).get(pk=self.b4.pk)
	self.assertEqual(b3.sums, Approximate(Decimal("383.69"), places=2))

	def test_complex_aggregations_require_kwarg(self):
	with self.assertRaisesMessage(
	TypeError, "Complex annotations require an alias"
	):
	Author.objects.annotate(Sum(F("age") + F("friends__age")))
	with self.assertRaisesMessage(TypeError, "Complex aggregates require an alias"):
	Author.objects.aggregate(Sum("age") / Count("age"))
	with self.assertRaisesMessage(TypeError, "Complex aggregates require an alias"):
	Author.objects.aggregate(Sum(1))

	def test_aggregate_over_complex_annotation(self):
	qs = Author.objects.annotate(combined_ages=Sum(F("age") + F("friends__age")))

	age = qs.aggregate(max_combined_age=Max("combined_ages"))
	self.assertEqual(age["max_combined_age"], 176)

	age = qs.aggregate(max_combined_age_doubled=Max("combined_ages") * 2)
	self.assertEqual(age["max_combined_age_doubled"], 176 * 2)

	age = qs.aggregate(
	max_combined_age_doubled=Max("combined_ages") + Max("combined_ages")
	)
	self.assertEqual(age["max_combined_age_doubled"], 176 * 2)

	age = qs.aggregate(
	max_combined_age_doubled=Max("combined_ages") + Max("combined_ages"),
	sum_combined_age=Sum("combined_ages"),
	)
	self.assertEqual(age["max_combined_age_doubled"], 176 * 2)
	self.assertEqual(age["sum_combined_age"], 954)

	age = qs.aggregate(
	max_combined_age_doubled=Max("combined_ages") + Max("combined_ages"),
	sum_combined_age_doubled=Sum("combined_ages") + Sum("combined_ages"),
	)
	self.assertEqual(age["max_combined_age_doubled"], 176 * 2)
	self.assertEqual(age["sum_combined_age_doubled"], 954 * 2)

	def test_values_annotation_with_expression(self):
	# ensure the F() is promoted to the group by clause
	qs = Author.objects.values("name").annotate(another_age=Sum("age") + F("age"))
	a = qs.get(name="Adrian Holovaty")
	self.assertEqual(a["another_age"], 68)

	qs = qs.annotate(friend_count=Count("friends"))
	a = qs.get(name="Adrian Holovaty")
	self.assertEqual(a["friend_count"], 2)

	qs = (
	qs.annotate(combined_age=Sum("age") + F("friends__age"))
	.filter(name="Adrian Holovaty")
	.order_by("-combined_age")
	)
	self.assertEqual(
	list(qs),
	[
	{
	"name": "Adrian Holovaty",
	"another_age": 68,
	"friend_count": 1,
	"combined_age": 69,
	},
	{
	"name": "Adrian Holovaty",
	"another_age": 68,
	"friend_count": 1,
	"combined_age": 63,
	},
	],
	)

	vals = qs.values("name", "combined_age")
	self.assertEqual(
	list(vals),
	[
	{"name": "Adrian Holovaty", "combined_age": 69},
	{"name": "Adrian Holovaty", "combined_age": 63},
	],
	)

	def test_annotate_values_aggregate(self):
	alias_age = (
	Author.objects.annotate(age_alias=F("age"))
	.values(
	"age_alias",
	)
	.aggregate(sum_age=Sum("age_alias"))
	)

	age = Author.objects.values("age").aggregate(sum_age=Sum("age"))

	self.assertEqual(alias_age["sum_age"], age["sum_age"])

	def test_annotate_over_annotate(self):
	author = (
	Author.objects.annotate(age_alias=F("age"))
	.annotate(sum_age=Sum("age_alias"))
	.get(name="Adrian Holovaty")
	)

	other_author = Author.objects.annotate(sum_age=Sum("age")).get(
	name="Adrian Holovaty"
	)

	self.assertEqual(author.sum_age, other_author.sum_age)

	def test_aggregate_over_aggregate(self):
	msg = "Cannot compute Avg('age_agg'): 'age_agg' is an aggregate"
	with self.assertRaisesMessage(FieldError, msg):
	Author.objects.aggregate(
	age_agg=Sum(F("age")),
	avg_age=Avg(F("age_agg")),
	)

	def test_annotated_aggregate_over_annotated_aggregate(self):
	with self.assertRaisesMessage(
	FieldError, "Cannot compute Sum('id__max'): 'id__max' is an aggregate"
	):
	Book.objects.annotate(Max("id")).annotate(Sum("id__max"))

	class MyMax(Max):
	def as_sql(self, compiler, connection):
	self.set_source_expressions(self.get_source_expressions()[0:1])
	return super().as_sql(compiler, connection)

	with self.assertRaisesMessage(
	FieldError, "Cannot compute Max('id__max'): 'id__max' is an aggregate"
	):
	Book.objects.annotate(Max("id")).annotate(my_max=MyMax("id__max", "price"))

	def test_multi_arg_aggregate(self):
	class MyMax(Max):
	output_field = DecimalField()

	def as_sql(self, compiler, connection):
	copy = self.copy()
	copy.set_source_expressions(copy.get_source_expressions()[0:1])
	return super(MyMax, copy).as_sql(compiler, connection)

	with self.assertRaisesMessage(TypeError, "Complex aggregates require an alias"):
	Book.objects.aggregate(MyMax("pages", "price"))

	with self.assertRaisesMessage(
	TypeError, "Complex annotations require an alias"
	):
	Book.objects.annotate(MyMax("pages", "price"))

	Book.objects.aggregate(max_field=MyMax("pages", "price"))

	def test_add_implementation(self):
	class MySum(Sum):
	pass

	# test completely changing how the output is rendered
	def lower_case_function_override(self, compiler, connection):
	sql, params = compiler.compile(self.source_expressions[0])
	substitutions = {
	"function": self.function.lower(),
	"expressions": sql,
	"distinct": "",
	}
	substitutions.update(self.extra)
	return self.template % substitutions, params

	setattr(MySum, "as_" + connection.vendor, lower_case_function_override)

	qs = Book.objects.annotate(
	sums=MySum(
	F("rating") + F("pages") + F("price"), output_field=IntegerField()
	)
	)
	self.assertEqual(str(qs.query).count("sum("), 1)
	b1 = qs.get(pk=self.b4.pk)
	self.assertEqual(b1.sums, 383)

	# test changing the dict and delegating
	def lower_case_function_super(self, compiler, connection):
	self.extra["function"] = self.function.lower()
	return super(MySum, self).as_sql(compiler, connection)

	setattr(MySum, "as_" + connection.vendor, lower_case_function_super)

	qs = Book.objects.annotate(
	sums=MySum(
	F("rating") + F("pages") + F("price"), output_field=IntegerField()
	)
	)
	self.assertEqual(str(qs.query).count("sum("), 1)
	b1 = qs.get(pk=self.b4.pk)
	self.assertEqual(b1.sums, 383)

	# test overriding all parts of the template
	def be_evil(self, compiler, connection):
	substitutions = {"function": "MAX", "expressions": "2", "distinct": ""}
	substitutions.update(self.extra)
	return self.template % substitutions, ()

	setattr(MySum, "as_" + connection.vendor, be_evil)

	qs = Book.objects.annotate(
	sums=MySum(
	F("rating") + F("pages") + F("price"), output_field=IntegerField()
	)
	)
	self.assertEqual(str(qs.query).count("MAX("), 1)
	b1 = qs.get(pk=self.b4.pk)
	self.assertEqual(b1.sums, 2)

	def test_complex_values_aggregation(self):
	max_rating = Book.objects.values("rating").aggregate(
	double_max_rating=Max("rating") + Max("rating")
	)
	self.assertEqual(max_rating["double_max_rating"], 5 * 2)

	max_books_per_rating = (
	Book.objects.values("rating")
	.annotate(books_per_rating=Count("id") + 5)
	.aggregate(Max("books_per_rating"))
	)
	self.assertEqual(max_books_per_rating, {"books_per_rating__max": 3 + 5})

	def test_expression_on_aggregation(self):
	qs = (
	Publisher.objects.annotate(
	price_or_median=Greatest(
	Avg("book__rating", output_field=DecimalField()), Avg("book__price")
	)
	)
	.filter(price_or_median__gte=F("num_awards"))
	.order_by("num_awards")
	)
	self.assertQuerySetEqual(qs, [1, 3, 7, 9], lambda v: v.num_awards)

	qs2 = (
	Publisher.objects.annotate(
	rating_or_num_awards=Greatest(
	Avg("book__rating"), F("num_awards"), output_field=FloatField()
	)
	)
	.filter(rating_or_num_awards__gt=F("num_awards"))
	.order_by("num_awards")
	)
	self.assertQuerySetEqual(qs2, [1, 3], lambda v: v.num_awards)

	def test_arguments_must_be_expressions(self):
	msg = "QuerySet.aggregate() received non-expression(s): %s."
	with self.assertRaisesMessage(TypeError, msg % FloatField()):
	Book.objects.aggregate(FloatField())
	with self.assertRaisesMessage(TypeError, msg % True):
	Book.objects.aggregate(is_book=True)
	with self.assertRaisesMessage(
	TypeError, msg % ", ".join([str(FloatField()), "True"])
	):
	Book.objects.aggregate(FloatField(), Avg("price"), is_book=True)

	def test_aggregation_subquery_annotation(self):
	"""Subquery annotations are excluded from the GROUP BY if they are
	not explicitly grouped against."""
	latest_book_pubdate_qs = (
	Book.objects.filter(publisher=OuterRef("pk"))
	.order_by("-pubdate")
	.values("pubdate")[:1]
	)
	publisher_qs = Publisher.objects.annotate(
	latest_book_pubdate=Subquery(latest_book_pubdate_qs),
	).annotate(count=Count("book"))
	with self.assertNumQueries(1) as ctx:
	list(publisher_qs)
	self.assertEqual(ctx[0]["sql"].count("SELECT"), 2)
	# The GROUP BY should not be by alias either.
	self.assertEqual(ctx[0]["sql"].lower().count("latest_book_pubdate"), 1)

	def test_aggregation_subquery_annotation_exists(self):
	latest_book_pubdate_qs = (
	Book.objects.filter(publisher=OuterRef("pk"))
	.order_by("-pubdate")
	.values("pubdate")[:1]
	)
	publisher_qs = Publisher.objects.annotate(
	latest_book_pubdate=Subquery(latest_book_pubdate_qs),
	count=Count("book"),
	)
	self.assertTrue(publisher_qs.exists())

	def test_aggregation_filter_exists(self):
	publishers_having_more_than_one_book_qs = (
	Book.objects.values("publisher")
	.annotate(cnt=Count("isbn"))
	.filter(cnt__gt=1)
	)
	query = publishers_having_more_than_one_book_qs.query.exists()
	_, _, group_by = query.get_compiler(connection=connection).pre_sql_setup()
	self.assertEqual(len(group_by), 1)

	def test_aggregation_exists_annotation(self):
	published_books = Book.objects.filter(publisher=OuterRef("pk"))
	publisher_qs = Publisher.objects.annotate(
	published_book=Exists(published_books),
	count=Count("book"),
	).values_list("name", flat=True)
	self.assertCountEqual(
	list(publisher_qs),
	[
	"Apress",
	"Morgan Kaufmann",
	"Jonno's House of Books",
	"Prentice Hall",
	"Sams",
	],
	)

	def test_aggregation_subquery_annotation_values(self):
	"""
	Subquery annotations and external aliases are excluded from the GROUP
	BY if they are not selected.
	"""
	books_qs = (
	Book.objects.annotate(
	first_author_the_same_age=Subquery(
	Author.objects.filter(
	age=OuterRef("contact__friends__age"),
	)
	.order_by("age")
	.values("id")[:1],
	)
	)
	.filter(
	publisher=self.p1,
	first_author_the_same_age__isnull=False,
	)
	.annotate(
	min_age=Min("contact__friends__age"),
	)
	.values("name", "min_age")
	.order_by("name")
	)
	self.assertEqual(
	list(books_qs),
	[
	{"name": "Practical Django Projects", "min_age": 34},
	{
	"name": (
	"The Definitive Guide to Django: Web Development Done Right"
	),
	"min_age": 29,
	},
	],
	)

	@skipUnlessDBFeature("supports_subqueries_in_group_by")
	def test_aggregation_subquery_annotation_values_collision(self):
	books_rating_qs = Book.objects.filter(
	pk=OuterRef("book"),
	).values("rating")
	publisher_qs = (
	Publisher.objects.filter(
	book__contact__age__gt=20,
	)
	.annotate(
	rating=Subquery(books_rating_qs),
	)
	.values("rating")
	.annotate(total_count=Count("*"))
	.order_by("rating")
	)
	self.assertEqual(
	list(publisher_qs),
	[
	{"rating": 3.0, "total_count": 1},
	{"rating": 4.0, "total_count": 3},
	{"rating": 4.5, "total_count": 1},
	{"rating": 5.0, "total_count": 1},
	],
	)

	@skipUnlessDBFeature("supports_subqueries_in_group_by")
	def test_aggregation_subquery_annotation_multivalued(self):
	"""
	Subquery annotations must be included in the GROUP BY if they use
	potentially multivalued relations (contain the LOOKUP_SEP).
	"""
	subquery_qs = Author.objects.filter(
	pk=OuterRef("pk"),
	book__name=OuterRef("book__name"),
	).values("pk")
	author_qs = Author.objects.annotate(
	subquery_id=Subquery(subquery_qs),
	).annotate(count=Count("book"))
	self.assertEqual(author_qs.count(), Author.objects.count())

	def test_aggregation_order_by_not_selected_annotation_values(self):
	result_asc = [
	self.b4.pk,
	self.b3.pk,
	self.b1.pk,
	self.b2.pk,
	self.b5.pk,
	self.b6.pk,
	]
	result_desc = result_asc[::-1]
	tests = [
	("min_related_age", result_asc),
	("-min_related_age", result_desc),
	(F("min_related_age"), result_asc),
	(F("min_related_age").asc(), result_asc),
	(F("min_related_age").desc(), result_desc),
	]
	for ordering, expected_result in tests:
	with self.subTest(ordering=ordering):
	books_qs = (
	Book.objects.annotate(
	min_age=Min("authors__age"),
	)
	.annotate(
	min_related_age=Coalesce("min_age", "contact__age"),
	)
	.order_by(ordering)
	.values_list("pk", flat=True)
	)
	self.assertEqual(list(books_qs), expected_result)

	@skipUnlessDBFeature("supports_subqueries_in_group_by")
	def test_group_by_subquery_annotation(self):
	"""
	Subquery annotations are included in the GROUP BY if they are
	grouped against.
	"""
	long_books_count_qs = (
	Book.objects.filter(
	publisher=OuterRef("pk"),
	pages__gt=400,
	)
	.values("publisher")
	.annotate(count=Count("pk"))
	.values("count")
	)
	groups = [
	Subquery(long_books_count_qs),
	long_books_count_qs,
	long_books_count_qs.query,
	]
	for group in groups:
	with self.subTest(group=group.__class__.__name__):
	long_books_count_breakdown = Publisher.objects.values_list(
	group,
	).annotate(total=Count("*"))
	self.assertEqual(dict(long_books_count_breakdown), {None: 1, 1: 4})

	@skipUnlessDBFeature("supports_subqueries_in_group_by")
	def test_group_by_exists_annotation(self):
	"""
	Exists annotations are included in the GROUP BY if they are
	grouped against.
	"""
	long_books_qs = Book.objects.filter(
	publisher=OuterRef("pk"),
	pages__gt=800,
	)
	has_long_books_breakdown = Publisher.objects.values_list(
	Exists(long_books_qs),
	).annotate(total=Count("*"))
	self.assertEqual(dict(has_long_books_breakdown), {True: 2, False: 3})

	def test_group_by_nested_expression_with_params(self):
	books_qs = (
	Book.objects.annotate(greatest_pages=Greatest("pages", Value(600)))
	.values(
	"greatest_pages",
	)
	.annotate(
	min_pages=Min("pages"),
	least=Least("min_pages", "greatest_pages"),
	)
	.values_list("least", flat=True)
	)
	self.assertCountEqual(books_qs, [300, 946, 1132])

	@skipUnlessDBFeature("supports_subqueries_in_group_by")
	def test_aggregation_subquery_annotation_related_field(self):
	publisher = Publisher.objects.create(name=self.a9.name, num_awards=2)
	book = Book.objects.create(
	isbn="159059999",
	name="Test book.",
	pages=819,
	rating=2.5,
	price=Decimal("14.44"),
	contact=self.a9,
	publisher=publisher,
	pubdate=datetime.date(2019, 12, 6),
	)
	book.authors.add(self.a5, self.a6, self.a7)
	books_qs = (
	Book.objects.annotate(
	contact_publisher=Subquery(
	Publisher.objects.filter(
	pk=OuterRef("publisher"),
	name=OuterRef("contact__name"),
	).values("name")[:1],
	)
	)
	.filter(
	contact_publisher__isnull=False,
	)
	.annotate(count=Count("authors"))
	)
	with self.assertNumQueries(1) as ctx:
	self.assertSequenceEqual(books_qs, [book])
	if connection.features.allows_group_by_select_index:
	self.assertEqual(ctx[0]["sql"].count("SELECT"), 3)

	@skipUnlessDBFeature("supports_subqueries_in_group_by")
	def test_aggregation_nested_subquery_outerref(self):
	publisher_with_same_name = Publisher.objects.filter(
	id__in=Subquery(
	Publisher.objects.filter(
	name=OuterRef(OuterRef("publisher__name")),
	).values("id"),
	),
	).values(publisher_count=Count("id"))[:1]
	books_breakdown = Book.objects.annotate(
	publisher_count=Subquery(publisher_with_same_name),
	authors_count=Count("authors"),
	).values_list("publisher_count", flat=True)
	self.assertSequenceEqual(books_breakdown, [1] * 6)

	def test_aggregation_exists_multivalued_outeref(self):
	self.assertCountEqual(
	Publisher.objects.annotate(
	books_exists=Exists(
	Book.objects.filter(publisher=OuterRef("book__publisher"))
	),
	books_count=Count("book"),
	),
	Publisher.objects.all(),
	)

	def test_filter_in_subquery_or_aggregation(self):
	"""
	Filtering against an aggregate requires the usage of the HAVING clause.

	If such a filter is unionized to a non-aggregate one the latter will
	also need to be moved to the HAVING clause and have its grouping
	columns used in the GROUP BY.

	When this is done with a subquery the specialized logic in charge of
	using outer reference columns to group should be used instead of the
	subquery itself as the latter might return multiple rows.
	"""
	authors = Author.objects.annotate(
	Count("book"),
	).filter(Q(book__count__gt=0) \| Q(pk__in=Book.objects.values("authors")))
	self.assertCountEqual(authors, Author.objects.all())

	def test_aggregation_random_ordering(self):
	"""Random() is not included in the GROUP BY when used for ordering."""
	authors = Author.objects.annotate(contact_count=Count("book")).order_by("?")
	self.assertQuerySetEqual(
	authors,
	[
	("Adrian Holovaty", 1),
	("Jacob Kaplan-Moss", 1),
	("Brad Dayley", 1),
	("James Bennett", 1),
	("Jeffrey Forcier", 1),
	("Paul Bissex", 1),
	("Wesley J. Chun", 1),
	("Stuart Russell", 1),
	("Peter Norvig", 2),
	],
	lambda a: (a.name, a.contact_count),
	ordered=False,
	)

	def test_empty_result_optimization(self):
	with self.assertNumQueries(0):
	self.assertEqual(
	Publisher.objects.none().aggregate(
	sum_awards=Sum("num_awards"),
	books_count=Count("book"),
	),
	{
	"sum_awards": None,
	"books_count": 0,
	},
	)
	# Expression without empty_result_set_value forces queries to be
	# executed even if they would return an empty result set.
	raw_books_count = Func("book", function="COUNT")
	raw_books_count.contains_aggregate = True
	with self.assertNumQueries(1):
	self.assertEqual(
	Publisher.objects.none().aggregate(
	sum_awards=Sum("num_awards"),
	books_count=raw_books_count,
	),
	{
	"sum_awards": None,
	"books_count": 0,
	},
	)

	def test_coalesced_empty_result_set(self):
	with self.assertNumQueries(0):
	self.assertEqual(
	Publisher.objects.none().aggregate(
	sum_awards=Coalesce(Sum("num_awards"), 0),
	)["sum_awards"],
	0,
	)
	# Multiple expressions.
	with self.assertNumQueries(0):
	self.assertEqual(
	Publisher.objects.none().aggregate(
	sum_awards=Coalesce(Sum("num_awards"), None, 0),
	)["sum_awards"],
	0,
	)
	# Nested coalesce.
	with self.assertNumQueries(0):
	self.assertEqual(
	Publisher.objects.none().aggregate(
	sum_awards=Coalesce(Coalesce(Sum("num_awards"), None), 0),
	)["sum_awards"],
	0,
	)
	# Expression coalesce.
	with self.assertNumQueries(1):
	self.assertIsInstance(
	Store.objects.none().aggregate(
	latest_opening=Coalesce(
	Max("original_opening"),
	RawSQL("CURRENT_TIMESTAMP", []),
	),
	)["latest_opening"],
	datetime.datetime,
	)

	def test_aggregation_default_unsupported_by_count(self):
	msg = "Count does not allow default."
	with self.assertRaisesMessage(TypeError, msg):
	Count("age", default=0)

	def test_aggregation_default_unset(self):
	for Aggregate in [Avg, Max, Min, StdDev, Sum, Variance]:
	with self.subTest(Aggregate):
	result = Author.objects.filter(age__gt=100).aggregate(
	value=Aggregate("age"),
	)
	self.assertIsNone(result["value"])

	def test_aggregation_default_zero(self):
	for Aggregate in [Avg, Max, Min, StdDev, Sum, Variance]:
	with self.subTest(Aggregate):
	result = Author.objects.filter(age__gt=100).aggregate(
	value=Aggregate("age", default=0),
	)
	self.assertEqual(result["value"], 0)

	def test_aggregation_default_integer(self):
	for Aggregate in [Avg, Max, Min, StdDev, Sum, Variance]:
	with self.subTest(Aggregate):
	result = Author.objects.filter(age__gt=100).aggregate(
	value=Aggregate("age", default=21),
	)
	self.assertEqual(result["value"], 21)

	def test_aggregation_default_expression(self):
	for Aggregate in [Avg, Max, Min, StdDev, Sum, Variance]:
	with self.subTest(Aggregate):
	result = Author.objects.filter(age__gt=100).aggregate(
	value=Aggregate("age", default=Value(5) * Value(7)),
	)
	self.assertEqual(result["value"], 35)

	def test_aggregation_default_group_by(self):
	qs = (
	Publisher.objects.values("name")
	.annotate(
	books=Count("book"),
	pages=Sum("book__pages", default=0),
	)
	.filter(books=0)
	)
	self.assertSequenceEqual(
	qs,
	[{"name": "Jonno's House of Books", "books": 0, "pages": 0}],
	)

	def test_aggregation_default_compound_expression(self):
	# Scale rating to a percentage; default to 50% if no books published.
	formula = Avg("book__rating", default=2.5) * 20.0
	queryset = Publisher.objects.annotate(rating=formula).order_by("name")
	self.assertSequenceEqual(
	queryset.values("name", "rating"),
	[
	{"name": "Apress", "rating": 85.0},
	{"name": "Jonno's House of Books", "rating": 50.0},
	{"name": "Morgan Kaufmann", "rating": 100.0},
	{"name": "Prentice Hall", "rating": 80.0},
	{"name": "Sams", "rating": 60.0},
	],
	)

	def test_aggregation_default_using_time_from_python(self):
	expr = Min(
	"store__friday_night_closing",
	filter=~Q(store__name="Amazon.com"),
	default=datetime.time(17),
	)
	if connection.vendor == "mysql":
	# Workaround for #30224 for MySQL & MariaDB.
	expr.default = Cast(expr.default, TimeField())
	queryset = Book.objects.annotate(oldest_store_opening=expr).order_by("isbn")
	self.assertSequenceEqual(
	queryset.values("isbn", "oldest_store_opening"),
	[
	{"isbn": "013235613", "oldest_store_opening": datetime.time(21, 30)},
	{
	"isbn": "013790395",
	"oldest_store_opening": datetime.time(23, 59, 59),
	},
	{"isbn": "067232959", "oldest_store_opening": datetime.time(17)},
	{"isbn": "155860191", "oldest_store_opening": datetime.time(21, 30)},
	{
	"isbn": "159059725",
	"oldest_store_opening": datetime.time(23, 59, 59),
	},
	{"isbn": "159059996", "oldest_store_opening": datetime.time(21, 30)},
	],
	)

	def test_aggregation_default_using_time_from_database(self):
	now = timezone.now().astimezone(datetime.timezone.utc)
	expr = Min(
	"store__friday_night_closing",
	filter=~Q(store__name="Amazon.com"),
	default=TruncHour(NowUTC(), output_field=TimeField()),
	)
	queryset = Book.objects.annotate(oldest_store_opening=expr).order_by("isbn")
	self.assertSequenceEqual(
	queryset.values("isbn", "oldest_store_opening"),
	[
	{"isbn": "013235613", "oldest_store_opening": datetime.time(21, 30)},
	{
	"isbn": "013790395",
	"oldest_store_opening": datetime.time(23, 59, 59),
	},
	{"isbn": "067232959", "oldest_store_opening": datetime.time(now.hour)},
	{"isbn": "155860191", "oldest_store_opening": datetime.time(21, 30)},
	{
	"isbn": "159059725",
	"oldest_store_opening": datetime.time(23, 59, 59),
	},
	{"isbn": "159059996", "oldest_store_opening": datetime.time(21, 30)},
	],
	)

	def test_aggregation_default_using_date_from_python(self):
	expr = Min("book__pubdate", default=datetime.date(1970, 1, 1))
	if connection.vendor == "mysql":
	# Workaround for #30224 for MySQL & MariaDB.
	expr.default = Cast(expr.default, DateField())
	queryset = Publisher.objects.annotate(earliest_pubdate=expr).order_by("name")
	self.assertSequenceEqual(
	queryset.values("name", "earliest_pubdate"),
	[
	{"name": "Apress", "earliest_pubdate": datetime.date(2007, 12, 6)},
	{
	"name": "Jonno's House of Books",
	"earliest_pubdate": datetime.date(1970, 1, 1),
	},
	{
	"name": "Morgan Kaufmann",
	"earliest_pubdate": datetime.date(1991, 10, 15),
	},
	{
	"name": "Prentice Hall",
	"earliest_pubdate": datetime.date(1995, 1, 15),
	},
	{"name": "Sams", "earliest_pubdate": datetime.date(2008, 3, 3)},
	],
	)

	def test_aggregation_default_using_date_from_database(self):
	now = timezone.now().astimezone(datetime.timezone.utc)
	expr = Min("book__pubdate", default=TruncDate(NowUTC()))
	queryset = Publisher.objects.annotate(earliest_pubdate=expr).order_by("name")
	self.assertSequenceEqual(
	queryset.values("name", "earliest_pubdate"),
	[
	{"name": "Apress", "earliest_pubdate": datetime.date(2007, 12, 6)},
	{"name": "Jonno's House of Books", "earliest_pubdate": now.date()},
	{
	"name": "Morgan Kaufmann",
	"earliest_pubdate": datetime.date(1991, 10, 15),
	},
	{
	"name": "Prentice Hall",
	"earliest_pubdate": datetime.date(1995, 1, 15),
	},
	{"name": "Sams", "earliest_pubdate": datetime.date(2008, 3, 3)},
	],
	)

	def test_aggregation_default_using_datetime_from_python(self):
	expr = Min(
	"store__original_opening",
	filter=~Q(store__name="Amazon.com"),
	default=datetime.datetime(1970, 1, 1),
	)
	if connection.vendor == "mysql":
	# Workaround for #30224 for MySQL & MariaDB.
	expr.default = Cast(expr.default, DateTimeField())
	queryset = Book.objects.annotate(oldest_store_opening=expr).order_by("isbn")
	self.assertSequenceEqual(
	queryset.values("isbn", "oldest_store_opening"),
	[
	{
	"isbn": "013235613",
	"oldest_store_opening": datetime.datetime(1945, 4, 25, 16, 24, 14),
	},
	{
	"isbn": "013790395",
	"oldest_store_opening": datetime.datetime(2001, 3, 15, 11, 23, 37),
	},
	{
	"isbn": "067232959",
	"oldest_store_opening": datetime.datetime(1970, 1, 1),
	},
	{
	"isbn": "155860191",
	"oldest_store_opening": datetime.datetime(1945, 4, 25, 16, 24, 14),
	},
	{
	"isbn": "159059725",
	"oldest_store_opening": datetime.datetime(2001, 3, 15, 11, 23, 37),
	},
	{
	"isbn": "159059996",
	"oldest_store_opening": datetime.datetime(1945, 4, 25, 16, 24, 14),
	},
	],
	)

	def test_aggregation_default_using_datetime_from_database(self):
	now = timezone.now().astimezone(datetime.timezone.utc)
	expr = Min(
	"store__original_opening",
	filter=~Q(store__name="Amazon.com"),
	default=TruncHour(NowUTC(), output_field=DateTimeField()),
	)
	queryset = Book.objects.annotate(oldest_store_opening=expr).order_by("isbn")
	self.assertSequenceEqual(
	queryset.values("isbn", "oldest_store_opening"),
	[
	{
	"isbn": "013235613",
	"oldest_store_opening": datetime.datetime(1945, 4, 25, 16, 24, 14),
	},
	{
	"isbn": "013790395",
	"oldest_store_opening": datetime.datetime(2001, 3, 15, 11, 23, 37),
	},
	{
	"isbn": "067232959",
	"oldest_store_opening": now.replace(
	minute=0, second=0, microsecond=0, tzinfo=None
	),
	},
	{
	"isbn": "155860191",
	"oldest_store_opening": datetime.datetime(1945, 4, 25, 16, 24, 14),
	},
	{
	"isbn": "159059725",
	"oldest_store_opening": datetime.datetime(2001, 3, 15, 11, 23, 37),
	},
	{
	"isbn": "159059996",
	"oldest_store_opening": datetime.datetime(1945, 4, 25, 16, 24, 14),
	},
	],
	)

	def test_aggregation_default_using_duration_from_python(self):
	result = Publisher.objects.filter(num_awards__gt=3).aggregate(
	value=Sum("duration", default=datetime.timedelta(0)),
	)
	self.assertEqual(result["value"], datetime.timedelta(0))

	def test_aggregation_default_using_duration_from_database(self):
	result = Publisher.objects.filter(num_awards__gt=3).aggregate(
	value=Sum("duration", default=Now() - Now()),
	)
	self.assertEqual(result["value"], datetime.timedelta(0))

	def test_aggregation_default_using_decimal_from_python(self):
	result = Book.objects.filter(rating__lt=3.0).aggregate(
	value=Sum("price", default=Decimal("0.00")),
	)
	self.assertEqual(result["value"], Decimal("0.00"))

	def test_aggregation_default_using_decimal_from_database(self):
	result = Book.objects.filter(rating__lt=3.0).aggregate(
	value=Sum("price", default=Pi()),
	)
	self.assertAlmostEqual(result["value"], Decimal.from_float(math.pi), places=6)

	def test_aggregation_default_passed_another_aggregate(self):
	result = Book.objects.aggregate(
	value=Sum("price", filter=Q(rating__lt=3.0), default=Avg("pages") / 10.0),
	)
	self.assertAlmostEqual(result["value"], Decimal("61.72"), places=2)

	def test_aggregation_default_after_annotation(self):
	result = Publisher.objects.annotate(
	double_num_awards=F("num_awards") * 2,
	).aggregate(value=Sum("double_num_awards", default=0))
	self.assertEqual(result["value"], 40)

	def test_aggregation_default_not_in_aggregate(self):
	result = Publisher.objects.annotate(
	avg_rating=Avg("book__rating", default=2.5),
	).aggregate(Sum("num_awards"))
	self.assertEqual(result["num_awards__sum"], 20)

	def test_exists_none_with_aggregate(self):
	qs = Book.objects.annotate(
	count=Count("id"),
	exists=Exists(Author.objects.none()),
	)
	self.assertEqual(len(qs), 6)

	def test_alias_sql_injection(self):
	crafted_alias = """injected_name" from "aggregation_author"; --"""
	msg = (
	"Column aliases cannot contain whitespace characters, quotation marks, "
	"semicolons, or SQL comments."
	)
	with self.assertRaisesMessage(ValueError, msg):
	Author.objects.aggregate(**{crafted_alias: Avg("age")})

	def test_exists_extra_where_with_aggregate(self):
	qs = Book.objects.annotate(
	count=Count("id"),
	exists=Exists(Author.objects.extra(where=["1=0"])),
	)
	self.assertEqual(len(qs), 6)

	def test_multiple_aggregate_references(self):
	aggregates = Author.objects.aggregate(
	total_books=Count("book"),
	coalesced_total_books=Coalesce("total_books", 0),
	)
	self.assertEqual(
	aggregates,
	{
	"total_books": 10,
	"coalesced_total_books": 10,
	},
	)


	class AggregateAnnotationPruningTests(TestCase):
	@classmethod
	def setUpTestData(cls):
	cls.a1 = Author.objects.create(age=1)
	cls.a2 = Author.objects.create(age=2)
	cls.p1 = Publisher.objects.create(num_awards=1)
	cls.p2 = Publisher.objects.create(num_awards=0)
	cls.b1 = Book.objects.create(
	name="b1",
	publisher=cls.p1,
	pages=100,
	rating=4.5,
	price=10,
	contact=cls.a1,
	pubdate=datetime.date.today(),
	)
	cls.b1.authors.add(cls.a1)
	cls.b2 = Book.objects.create(
	name="b2",
	publisher=cls.p2,
	pages=1000,
	rating=3.2,
	price=50,
	contact=cls.a2,
	pubdate=datetime.date.today(),
	)
	cls.b2.authors.add(cls.a1, cls.a2)

	def test_unused_aliased_aggregate_pruned(self):
	with CaptureQueriesContext(connection) as ctx:
	cnt = Book.objects.alias(
	authors_count=Count("authors"),
	).count()
	self.assertEqual(cnt, 2)
	sql = ctx.captured_queries[0]["sql"].lower()
	self.assertEqual(sql.count("select"), 2, "Subquery wrapping required")
	self.assertNotIn("authors_count", sql)

	def test_non_aggregate_annotation_pruned(self):
	with CaptureQueriesContext(connection) as ctx:
	Book.objects.annotate(
	name_lower=Lower("name"),
	).count()
	sql = ctx.captured_queries[0]["sql"].lower()
	self.assertEqual(sql.count("select"), 1, "No subquery wrapping required")
	self.assertNotIn("name_lower", sql)

	def test_unreferenced_aggregate_annotation_pruned(self):
	with CaptureQueriesContext(connection) as ctx:
	cnt = Book.objects.annotate(
	authors_count=Count("authors"),
	).count()
	self.assertEqual(cnt, 2)
	sql = ctx.captured_queries[0]["sql"].lower()
	self.assertEqual(sql.count("select"), 2, "Subquery wrapping required")
	self.assertNotIn("authors_count", sql)

	def test_referenced_aggregate_annotation_kept(self):
	with CaptureQueriesContext(connection) as ctx:
	Book.objects.annotate(
	authors_count=Count("authors"),
	).aggregate(Avg("authors_count"))
	sql = ctx.captured_queries[0]["sql"].lower()
	self.assertEqual(sql.count("select"), 2, "Subquery wrapping required")
	self.assertEqual(sql.count("authors_count"), 2)

	def test_referenced_group_by_annotation_kept(self):
	queryset = Book.objects.values(pages_mod=Mod("pages", 10)).annotate(
	mod_count=Count("*")
	)
	self.assertEqual(queryset.count(), 1)

	def test_referenced_subquery_requires_wrapping(self):
	total_books_qs = (
	Author.book_set.through.objects.values("author")
	.filter(author=OuterRef("pk"))
	.annotate(total=Count("book"))
	)
	with self.assertNumQueries(1) as ctx:
	aggregate = (
	Author.objects.annotate(
	total_books=Subquery(total_books_qs.values("total"))
	)
	.values("pk", "total_books")
	.aggregate(
	sum_total_books=Sum("total_books"),
	)
	)
	sql = ctx.captured_queries[0]["sql"].lower()
	self.assertEqual(sql.count("select"), 3, "Subquery wrapping required")
	self.assertEqual(aggregate, {"sum_total_books": 3})