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eceeb8577477fa4878457c6e60e19e73acc177d56712b98dc470cfe27ba19d58 | import datetime
import decimal
import ipaddress
import uuid
from django.db import models
from django.template import Context, Template
from django.test import SimpleTestCase
from django.utils.functional import Promise
from django.utils.translation import gettext_lazy as _
class Suit(models.IntegerChoices):
DIAMOND = 1, _("Diamond")
SPADE = 2, _("Spade")
HEART = 3, _("Heart")
CLUB = 4, _("Club")
class YearInSchool(models.TextChoices):
FRESHMAN = "FR", _("Freshman")
SOPHOMORE = "SO", _("Sophomore")
JUNIOR = "JR", _("Junior")
SENIOR = "SR", _("Senior")
GRADUATE = "GR", _("Graduate")
class Vehicle(models.IntegerChoices):
CAR = 1, "Carriage"
TRUCK = 2
JET_SKI = 3
__empty__ = _("(Unknown)")
class Gender(models.TextChoices):
MALE = "M"
FEMALE = "F"
NOT_SPECIFIED = "X"
__empty__ = "(Undeclared)"
class ChoicesTests(SimpleTestCase):
def test_integerchoices(self):
self.assertEqual(
Suit.choices, [(1, "Diamond"), (2, "Spade"), (3, "Heart"), (4, "Club")]
)
self.assertEqual(Suit.labels, ["Diamond", "Spade", "Heart", "Club"])
self.assertEqual(Suit.values, [1, 2, 3, 4])
self.assertEqual(Suit.names, ["DIAMOND", "SPADE", "HEART", "CLUB"])
self.assertEqual(repr(Suit.DIAMOND), "Suit.DIAMOND")
self.assertEqual(Suit.DIAMOND.label, "Diamond")
self.assertEqual(Suit.DIAMOND.value, 1)
self.assertEqual(Suit["DIAMOND"], Suit.DIAMOND)
self.assertEqual(Suit(1), Suit.DIAMOND)
self.assertIsInstance(Suit, type(models.Choices))
self.assertIsInstance(Suit.DIAMOND, Suit)
self.assertIsInstance(Suit.DIAMOND.label, Promise)
self.assertIsInstance(Suit.DIAMOND.value, int)
def test_integerchoices_auto_label(self):
self.assertEqual(Vehicle.CAR.label, "Carriage")
self.assertEqual(Vehicle.TRUCK.label, "Truck")
self.assertEqual(Vehicle.JET_SKI.label, "Jet Ski")
def test_integerchoices_empty_label(self):
self.assertEqual(Vehicle.choices[0], (None, "(Unknown)"))
self.assertEqual(Vehicle.labels[0], "(Unknown)")
self.assertIsNone(Vehicle.values[0])
self.assertEqual(Vehicle.names[0], "__empty__")
def test_integerchoices_functional_api(self):
Place = models.IntegerChoices("Place", "FIRST SECOND THIRD")
self.assertEqual(Place.labels, ["First", "Second", "Third"])
self.assertEqual(Place.values, [1, 2, 3])
self.assertEqual(Place.names, ["FIRST", "SECOND", "THIRD"])
def test_integerchoices_containment(self):
self.assertIn(Suit.DIAMOND, Suit)
self.assertIn(1, Suit)
self.assertNotIn(0, Suit)
def test_textchoices(self):
self.assertEqual(
YearInSchool.choices,
[
("FR", "Freshman"),
("SO", "Sophomore"),
("JR", "Junior"),
("SR", "Senior"),
("GR", "Graduate"),
],
)
self.assertEqual(
YearInSchool.labels,
["Freshman", "Sophomore", "Junior", "Senior", "Graduate"],
)
self.assertEqual(YearInSchool.values, ["FR", "SO", "JR", "SR", "GR"])
self.assertEqual(
YearInSchool.names,
["FRESHMAN", "SOPHOMORE", "JUNIOR", "SENIOR", "GRADUATE"],
)
self.assertEqual(repr(YearInSchool.FRESHMAN), "YearInSchool.FRESHMAN")
self.assertEqual(YearInSchool.FRESHMAN.label, "Freshman")
self.assertEqual(YearInSchool.FRESHMAN.value, "FR")
self.assertEqual(YearInSchool["FRESHMAN"], YearInSchool.FRESHMAN)
self.assertEqual(YearInSchool("FR"), YearInSchool.FRESHMAN)
self.assertIsInstance(YearInSchool, type(models.Choices))
self.assertIsInstance(YearInSchool.FRESHMAN, YearInSchool)
self.assertIsInstance(YearInSchool.FRESHMAN.label, Promise)
self.assertIsInstance(YearInSchool.FRESHMAN.value, str)
def test_textchoices_auto_label(self):
self.assertEqual(Gender.MALE.label, "Male")
self.assertEqual(Gender.FEMALE.label, "Female")
self.assertEqual(Gender.NOT_SPECIFIED.label, "Not Specified")
def test_textchoices_empty_label(self):
self.assertEqual(Gender.choices[0], (None, "(Undeclared)"))
self.assertEqual(Gender.labels[0], "(Undeclared)")
self.assertIsNone(Gender.values[0])
self.assertEqual(Gender.names[0], "__empty__")
def test_textchoices_functional_api(self):
Medal = models.TextChoices("Medal", "GOLD SILVER BRONZE")
self.assertEqual(Medal.labels, ["Gold", "Silver", "Bronze"])
self.assertEqual(Medal.values, ["GOLD", "SILVER", "BRONZE"])
self.assertEqual(Medal.names, ["GOLD", "SILVER", "BRONZE"])
def test_textchoices_containment(self):
self.assertIn(YearInSchool.FRESHMAN, YearInSchool)
self.assertIn("FR", YearInSchool)
self.assertNotIn("XX", YearInSchool)
def test_textchoices_blank_value(self):
class BlankStr(models.TextChoices):
EMPTY = "", "(Empty)"
ONE = "ONE", "One"
self.assertEqual(BlankStr.labels, ["(Empty)", "One"])
self.assertEqual(BlankStr.values, ["", "ONE"])
self.assertEqual(BlankStr.names, ["EMPTY", "ONE"])
def test_invalid_definition(self):
msg = "'str' object cannot be interpreted as an integer"
with self.assertRaisesMessage(TypeError, msg):
class InvalidArgumentEnum(models.IntegerChoices):
# A string is not permitted as the second argument to int().
ONE = 1, "X", "Invalid"
msg = "duplicate values found in <enum 'Fruit'>: PINEAPPLE -> APPLE"
with self.assertRaisesMessage(ValueError, msg):
class Fruit(models.IntegerChoices):
APPLE = 1, "Apple"
PINEAPPLE = 1, "Pineapple"
def test_str(self):
for test in [Gender, Suit, YearInSchool, Vehicle]:
for member in test:
with self.subTest(member=member):
self.assertEqual(str(test[member.name]), str(member.value))
def test_templates(self):
template = Template("{{ Suit.DIAMOND.label }}|{{ Suit.DIAMOND.value }}")
output = template.render(Context({"Suit": Suit}))
self.assertEqual(output, "Diamond|1")
def test_property_names_conflict_with_member_names(self):
with self.assertRaises(AttributeError):
models.TextChoices("Properties", "choices labels names values")
def test_label_member(self):
# label can be used as a member.
Stationery = models.TextChoices("Stationery", "label stamp sticker")
self.assertEqual(Stationery.label.label, "Label")
self.assertEqual(Stationery.label.value, "label")
self.assertEqual(Stationery.label.name, "label")
def test_do_not_call_in_templates_member(self):
# do_not_call_in_templates is not implicitly treated as a member.
Special = models.IntegerChoices("Special", "do_not_call_in_templates")
self.assertEqual(
Special.do_not_call_in_templates.label,
"Do Not Call In Templates",
)
self.assertEqual(Special.do_not_call_in_templates.value, 1)
self.assertEqual(
Special.do_not_call_in_templates.name,
"do_not_call_in_templates",
)
class Separator(bytes, models.Choices):
FS = b"\x1c", "File Separator"
GS = b"\x1d", "Group Separator"
RS = b"\x1e", "Record Separator"
US = b"\x1f", "Unit Separator"
class Constants(float, models.Choices):
PI = 3.141592653589793, "π"
TAU = 6.283185307179586, "τ"
class Set(frozenset, models.Choices):
A = {1, 2}
B = {2, 3}
UNION = A | B
DIFFERENCE = A - B
INTERSECTION = A & B
class MoonLandings(datetime.date, models.Choices):
APOLLO_11 = 1969, 7, 20, "Apollo 11 (Eagle)"
APOLLO_12 = 1969, 11, 19, "Apollo 12 (Intrepid)"
APOLLO_14 = 1971, 2, 5, "Apollo 14 (Antares)"
APOLLO_15 = 1971, 7, 30, "Apollo 15 (Falcon)"
APOLLO_16 = 1972, 4, 21, "Apollo 16 (Orion)"
APOLLO_17 = 1972, 12, 11, "Apollo 17 (Challenger)"
class DateAndTime(datetime.datetime, models.Choices):
A = 2010, 10, 10, 10, 10, 10
B = 2011, 11, 11, 11, 11, 11
C = 2012, 12, 12, 12, 12, 12
class MealTimes(datetime.time, models.Choices):
BREAKFAST = 7, 0
LUNCH = 13, 0
DINNER = 18, 30
class Frequency(datetime.timedelta, models.Choices):
WEEK = 0, 0, 0, 0, 0, 0, 1, "Week"
DAY = 1, "Day"
HOUR = 0, 0, 0, 0, 0, 1, "Hour"
MINUTE = 0, 0, 0, 0, 1, "Hour"
SECOND = 0, 1, "Second"
class Number(decimal.Decimal, models.Choices):
E = 2.718281828459045, "e"
PI = "3.141592653589793", "π"
TAU = decimal.Decimal("6.283185307179586"), "τ"
class IPv4Address(ipaddress.IPv4Address, models.Choices):
LOCALHOST = "127.0.0.1", "Localhost"
GATEWAY = "192.168.0.1", "Gateway"
BROADCAST = "192.168.0.255", "Broadcast"
class IPv6Address(ipaddress.IPv6Address, models.Choices):
LOCALHOST = "::1", "Localhost"
UNSPECIFIED = "::", "Unspecified"
class IPv4Network(ipaddress.IPv4Network, models.Choices):
LOOPBACK = "127.0.0.0/8", "Loopback"
LINK_LOCAL = "169.254.0.0/16", "Link-Local"
PRIVATE_USE_A = "10.0.0.0/8", "Private-Use (Class A)"
class IPv6Network(ipaddress.IPv6Network, models.Choices):
LOOPBACK = "::1/128", "Loopback"
UNSPECIFIED = "::/128", "Unspecified"
UNIQUE_LOCAL = "fc00::/7", "Unique-Local"
LINK_LOCAL_UNICAST = "fe80::/10", "Link-Local Unicast"
class CustomChoicesTests(SimpleTestCase):
def test_labels_valid(self):
enums = (
Separator,
Constants,
Set,
MoonLandings,
DateAndTime,
MealTimes,
Frequency,
Number,
IPv4Address,
IPv6Address,
IPv4Network,
IPv6Network,
)
for choice_enum in enums:
with self.subTest(choice_enum.__name__):
self.assertNotIn(None, choice_enum.labels)
def test_bool_unsupported(self):
msg = "type 'bool' is not an acceptable base type"
with self.assertRaisesMessage(TypeError, msg):
class Boolean(bool, models.Choices):
pass
def test_timezone_unsupported(self):
msg = "type 'datetime.timezone' is not an acceptable base type"
with self.assertRaisesMessage(TypeError, msg):
class Timezone(datetime.timezone, models.Choices):
pass
def test_uuid_unsupported(self):
msg = "UUID objects are immutable"
with self.assertRaisesMessage(TypeError, msg):
class Identifier(uuid.UUID, models.Choices):
A = "972ce4eb-a95f-4a56-9339-68c208a76f18"
|
b6e51357c5ee43d6575d4425082ebfc716bbd01aefb74e50357d8f3bacc9724a | import datetime
from unittest import skipUnless
from django.core.exceptions import FieldError
from django.db import connection
from django.test import TestCase, override_settings
from .models import Article, Category, Comment
class DatesTests(TestCase):
def test_related_model_traverse(self):
a1 = Article.objects.create(
title="First one",
pub_date=datetime.date(2005, 7, 28),
)
a2 = Article.objects.create(
title="Another one",
pub_date=datetime.date(2010, 7, 28),
)
a3 = Article.objects.create(
title="Third one, in the first day",
pub_date=datetime.date(2005, 7, 28),
)
a1.comments.create(
text="Im the HULK!",
pub_date=datetime.date(2005, 7, 28),
)
a1.comments.create(
text="HULK SMASH!",
pub_date=datetime.date(2005, 7, 29),
)
a2.comments.create(
text="LMAO",
pub_date=datetime.date(2010, 7, 28),
)
a3.comments.create(
text="+1",
pub_date=datetime.date(2005, 8, 29),
)
c = Category.objects.create(name="serious-news")
c.articles.add(a1, a3)
self.assertSequenceEqual(
Comment.objects.dates("article__pub_date", "year"),
[
datetime.date(2005, 1, 1),
datetime.date(2010, 1, 1),
],
)
self.assertSequenceEqual(
Comment.objects.dates("article__pub_date", "month"),
[
datetime.date(2005, 7, 1),
datetime.date(2010, 7, 1),
],
)
self.assertSequenceEqual(
Comment.objects.dates("article__pub_date", "week"),
[
datetime.date(2005, 7, 25),
datetime.date(2010, 7, 26),
],
)
self.assertSequenceEqual(
Comment.objects.dates("article__pub_date", "day"),
[
datetime.date(2005, 7, 28),
datetime.date(2010, 7, 28),
],
)
self.assertSequenceEqual(
Article.objects.dates("comments__pub_date", "day"),
[
datetime.date(2005, 7, 28),
datetime.date(2005, 7, 29),
datetime.date(2005, 8, 29),
datetime.date(2010, 7, 28),
],
)
self.assertQuerysetEqual(
Article.objects.dates("comments__approval_date", "day"), []
)
self.assertSequenceEqual(
Category.objects.dates("articles__pub_date", "day"),
[
datetime.date(2005, 7, 28),
],
)
def test_dates_fails_when_no_arguments_are_provided(self):
with self.assertRaises(TypeError):
Article.objects.dates()
def test_dates_fails_when_given_invalid_field_argument(self):
with self.assertRaisesMessage(
FieldError,
"Cannot resolve keyword 'invalid_field' into field. Choices are: "
"categories, comments, id, pub_date, pub_datetime, title",
):
Article.objects.dates("invalid_field", "year")
def test_dates_fails_when_given_invalid_kind_argument(self):
msg = "'kind' must be one of 'year', 'month', 'week', or 'day'."
with self.assertRaisesMessage(ValueError, msg):
Article.objects.dates("pub_date", "bad_kind")
def test_dates_fails_when_given_invalid_order_argument(self):
msg = "'order' must be either 'ASC' or 'DESC'."
with self.assertRaisesMessage(ValueError, msg):
Article.objects.dates("pub_date", "year", order="bad order")
@override_settings(USE_TZ=False)
def test_dates_trunc_datetime_fields(self):
Article.objects.bulk_create(
Article(pub_date=pub_datetime.date(), pub_datetime=pub_datetime)
for pub_datetime in [
datetime.datetime(2015, 10, 21, 18, 1),
datetime.datetime(2015, 10, 21, 18, 2),
datetime.datetime(2015, 10, 22, 18, 1),
datetime.datetime(2015, 10, 22, 18, 2),
]
)
self.assertSequenceEqual(
Article.objects.dates("pub_datetime", "day", order="ASC"),
[
datetime.date(2015, 10, 21),
datetime.date(2015, 10, 22),
],
)
@skipUnless(connection.vendor == "mysql", "Test checks MySQL query syntax")
def test_dates_avoid_datetime_cast(self):
Article.objects.create(pub_date=datetime.date(2015, 10, 21))
for kind in ["day", "month", "year"]:
qs = Article.objects.dates("pub_date", kind)
if kind == "day":
self.assertIn("DATE(", str(qs.query))
else:
self.assertIn(" AS DATE)", str(qs.query))
|
a865aad51ddcb56c5990e96f98022350e93ad66d7814eb3c6a92660bc7e7b03e | from django.conf import settings
from django.contrib.sites.managers import CurrentSiteManager
from django.contrib.sites.models import Site
from django.core import checks
from django.db import models
from django.test import SimpleTestCase, TestCase
from django.test.utils import isolate_apps
from .models import CustomArticle, ExclusiveArticle, SyndicatedArticle
class SitesFrameworkTestCase(TestCase):
@classmethod
def setUpTestData(cls):
Site.objects.get_or_create(
id=settings.SITE_ID, domain="example.com", name="example.com"
)
Site.objects.create(
id=settings.SITE_ID + 1, domain="example2.com", name="example2.com"
)
def test_site_fk(self):
article = ExclusiveArticle.objects.create(
title="Breaking News!", site_id=settings.SITE_ID
)
self.assertEqual(ExclusiveArticle.on_site.get(), article)
def test_sites_m2m(self):
article = SyndicatedArticle.objects.create(title="Fresh News!")
article.sites.add(Site.objects.get(id=settings.SITE_ID))
article.sites.add(Site.objects.get(id=settings.SITE_ID + 1))
article2 = SyndicatedArticle.objects.create(title="More News!")
article2.sites.add(Site.objects.get(id=settings.SITE_ID + 1))
self.assertEqual(SyndicatedArticle.on_site.get(), article)
def test_custom_named_field(self):
article = CustomArticle.objects.create(
title="Tantalizing News!",
places_this_article_should_appear_id=settings.SITE_ID,
)
self.assertEqual(CustomArticle.on_site.get(), article)
@isolate_apps("sites_framework")
class CurrentSiteManagerChecksTests(SimpleTestCase):
def test_invalid_name(self):
class InvalidArticle(models.Model):
on_site = CurrentSiteManager("places_this_article_should_appear")
errors = InvalidArticle.check()
expected = [
checks.Error(
"CurrentSiteManager could not find a field named "
"'places_this_article_should_appear'.",
obj=InvalidArticle.on_site,
id="sites.E001",
)
]
self.assertEqual(errors, expected)
def test_invalid_field_type(self):
class ConfusedArticle(models.Model):
site = models.IntegerField()
on_site = CurrentSiteManager()
errors = ConfusedArticle.check()
expected = [
checks.Error(
"CurrentSiteManager cannot use 'ConfusedArticle.site' as it is "
"not a foreign key or a many-to-many field.",
obj=ConfusedArticle.on_site,
id="sites.E002",
)
]
self.assertEqual(errors, expected)
|
75a6aaa8f5e2f35f239cafe30f8793b90c28796bb914d74568fb0ab8fd58634c | from unittest import mock
from django.contrib.contenttypes.models import ContentType
from django.core.exceptions import ObjectDoesNotExist
from django.db import connection
from django.db.models import Prefetch, QuerySet, prefetch_related_objects
from django.db.models.query import get_prefetcher
from django.db.models.sql import Query
from django.test import TestCase, override_settings
from django.test.utils import CaptureQueriesContext, ignore_warnings
from django.utils.deprecation import RemovedInDjango50Warning
from .models import (
Article,
Author,
Author2,
AuthorAddress,
AuthorWithAge,
Bio,
Book,
Bookmark,
BookReview,
BookWithYear,
Comment,
Department,
Employee,
FavoriteAuthors,
House,
LessonEntry,
ModelIterableSubclass,
Person,
Qualification,
Reader,
Room,
TaggedItem,
Teacher,
WordEntry,
)
class TestDataMixin:
@classmethod
def setUpTestData(cls):
cls.book1 = Book.objects.create(title="Poems")
cls.book2 = Book.objects.create(title="Jane Eyre")
cls.book3 = Book.objects.create(title="Wuthering Heights")
cls.book4 = Book.objects.create(title="Sense and Sensibility")
cls.author1 = Author.objects.create(name="Charlotte", first_book=cls.book1)
cls.author2 = Author.objects.create(name="Anne", first_book=cls.book1)
cls.author3 = Author.objects.create(name="Emily", first_book=cls.book1)
cls.author4 = Author.objects.create(name="Jane", first_book=cls.book4)
cls.book1.authors.add(cls.author1, cls.author2, cls.author3)
cls.book2.authors.add(cls.author1)
cls.book3.authors.add(cls.author3)
cls.book4.authors.add(cls.author4)
cls.reader1 = Reader.objects.create(name="Amy")
cls.reader2 = Reader.objects.create(name="Belinda")
cls.reader1.books_read.add(cls.book1, cls.book4)
cls.reader2.books_read.add(cls.book2, cls.book4)
class PrefetchRelatedTests(TestDataMixin, TestCase):
def assertWhereContains(self, sql, needle):
where_idx = sql.index("WHERE")
self.assertEqual(
sql.count(str(needle), where_idx),
1,
msg="WHERE clause doesn't contain %s, actual SQL: %s"
% (needle, sql[where_idx:]),
)
def test_m2m_forward(self):
with self.assertNumQueries(2):
lists = [
list(b.authors.all()) for b in Book.objects.prefetch_related("authors")
]
normal_lists = [list(b.authors.all()) for b in Book.objects.all()]
self.assertEqual(lists, normal_lists)
def test_m2m_reverse(self):
with self.assertNumQueries(2):
lists = [
list(a.books.all()) for a in Author.objects.prefetch_related("books")
]
normal_lists = [list(a.books.all()) for a in Author.objects.all()]
self.assertEqual(lists, normal_lists)
def test_foreignkey_forward(self):
with self.assertNumQueries(2):
books = [
a.first_book for a in Author.objects.prefetch_related("first_book")
]
normal_books = [a.first_book for a in Author.objects.all()]
self.assertEqual(books, normal_books)
def test_foreignkey_reverse(self):
with self.assertNumQueries(2):
[
list(b.first_time_authors.all())
for b in Book.objects.prefetch_related("first_time_authors")
]
self.assertSequenceEqual(self.book2.authors.all(), [self.author1])
def test_onetoone_reverse_no_match(self):
# Regression for #17439
with self.assertNumQueries(2):
book = Book.objects.prefetch_related("bookwithyear").all()[0]
with self.assertNumQueries(0):
with self.assertRaises(BookWithYear.DoesNotExist):
book.bookwithyear
def test_onetoone_reverse_with_to_field_pk(self):
"""
A model (Bio) with a OneToOneField primary key (author) that references
a non-pk field (name) on the related model (Author) is prefetchable.
"""
Bio.objects.bulk_create(
[
Bio(author=self.author1),
Bio(author=self.author2),
Bio(author=self.author3),
]
)
authors = Author.objects.filter(
name__in=[self.author1, self.author2, self.author3],
).prefetch_related("bio")
with self.assertNumQueries(2):
for author in authors:
self.assertEqual(author.name, author.bio.author.name)
def test_survives_clone(self):
with self.assertNumQueries(2):
[
list(b.first_time_authors.all())
for b in Book.objects.prefetch_related("first_time_authors").exclude(
id=1000
)
]
def test_len(self):
with self.assertNumQueries(2):
qs = Book.objects.prefetch_related("first_time_authors")
len(qs)
[list(b.first_time_authors.all()) for b in qs]
def test_bool(self):
with self.assertNumQueries(2):
qs = Book.objects.prefetch_related("first_time_authors")
bool(qs)
[list(b.first_time_authors.all()) for b in qs]
def test_count(self):
with self.assertNumQueries(2):
qs = Book.objects.prefetch_related("first_time_authors")
[b.first_time_authors.count() for b in qs]
def test_exists(self):
with self.assertNumQueries(2):
qs = Book.objects.prefetch_related("first_time_authors")
[b.first_time_authors.exists() for b in qs]
def test_in_and_prefetch_related(self):
"""
Regression test for #20242 - QuerySet "in" didn't work the first time
when using prefetch_related. This was fixed by the removal of chunked
reads from QuerySet iteration in
70679243d1786e03557c28929f9762a119e3ac14.
"""
qs = Book.objects.prefetch_related("first_time_authors")
self.assertIn(qs[0], qs)
def test_clear(self):
with self.assertNumQueries(5):
with_prefetch = Author.objects.prefetch_related("books")
without_prefetch = with_prefetch.prefetch_related(None)
[list(a.books.all()) for a in without_prefetch]
def test_m2m_then_m2m(self):
"""A m2m can be followed through another m2m."""
with self.assertNumQueries(3):
qs = Author.objects.prefetch_related("books__read_by")
lists = [
[[str(r) for r in b.read_by.all()] for b in a.books.all()] for a in qs
]
self.assertEqual(
lists,
[
[["Amy"], ["Belinda"]], # Charlotte - Poems, Jane Eyre
[["Amy"]], # Anne - Poems
[["Amy"], []], # Emily - Poems, Wuthering Heights
[["Amy", "Belinda"]], # Jane - Sense and Sense
],
)
def test_overriding_prefetch(self):
with self.assertNumQueries(3):
qs = Author.objects.prefetch_related("books", "books__read_by")
lists = [
[[str(r) for r in b.read_by.all()] for b in a.books.all()] for a in qs
]
self.assertEqual(
lists,
[
[["Amy"], ["Belinda"]], # Charlotte - Poems, Jane Eyre
[["Amy"]], # Anne - Poems
[["Amy"], []], # Emily - Poems, Wuthering Heights
[["Amy", "Belinda"]], # Jane - Sense and Sense
],
)
with self.assertNumQueries(3):
qs = Author.objects.prefetch_related("books__read_by", "books")
lists = [
[[str(r) for r in b.read_by.all()] for b in a.books.all()] for a in qs
]
self.assertEqual(
lists,
[
[["Amy"], ["Belinda"]], # Charlotte - Poems, Jane Eyre
[["Amy"]], # Anne - Poems
[["Amy"], []], # Emily - Poems, Wuthering Heights
[["Amy", "Belinda"]], # Jane - Sense and Sense
],
)
def test_get(self):
"""
Objects retrieved with .get() get the prefetch behavior.
"""
# Need a double
with self.assertNumQueries(3):
author = Author.objects.prefetch_related("books__read_by").get(
name="Charlotte"
)
lists = [[str(r) for r in b.read_by.all()] for b in author.books.all()]
self.assertEqual(lists, [["Amy"], ["Belinda"]]) # Poems, Jane Eyre
def test_foreign_key_then_m2m(self):
"""
A m2m relation can be followed after a relation like ForeignKey that
doesn't have many objects.
"""
with self.assertNumQueries(2):
qs = Author.objects.select_related("first_book").prefetch_related(
"first_book__read_by"
)
lists = [[str(r) for r in a.first_book.read_by.all()] for a in qs]
self.assertEqual(lists, [["Amy"], ["Amy"], ["Amy"], ["Amy", "Belinda"]])
def test_reverse_one_to_one_then_m2m(self):
"""
A m2m relation can be followed after going through the select_related
reverse of an o2o.
"""
qs = Author.objects.prefetch_related("bio__books").select_related("bio")
with self.assertNumQueries(1):
list(qs.all())
Bio.objects.create(author=self.author1)
with self.assertNumQueries(2):
list(qs.all())
def test_attribute_error(self):
qs = Reader.objects.prefetch_related("books_read__xyz")
msg = (
"Cannot find 'xyz' on Book object, 'books_read__xyz' "
"is an invalid parameter to prefetch_related()"
)
with self.assertRaisesMessage(AttributeError, msg) as cm:
list(qs)
self.assertIn("prefetch_related", str(cm.exception))
def test_invalid_final_lookup(self):
qs = Book.objects.prefetch_related("authors__name")
msg = (
"'authors__name' does not resolve to an item that supports "
"prefetching - this is an invalid parameter to prefetch_related()."
)
with self.assertRaisesMessage(ValueError, msg) as cm:
list(qs)
self.assertIn("prefetch_related", str(cm.exception))
self.assertIn("name", str(cm.exception))
def test_prefetch_eq(self):
prefetch_1 = Prefetch("authors", queryset=Author.objects.all())
prefetch_2 = Prefetch("books", queryset=Book.objects.all())
self.assertEqual(prefetch_1, prefetch_1)
self.assertEqual(prefetch_1, mock.ANY)
self.assertNotEqual(prefetch_1, prefetch_2)
def test_forward_m2m_to_attr_conflict(self):
msg = "to_attr=authors conflicts with a field on the Book model."
authors = Author.objects.all()
with self.assertRaisesMessage(ValueError, msg):
list(
Book.objects.prefetch_related(
Prefetch("authors", queryset=authors, to_attr="authors"),
)
)
# Without the ValueError, an author was deleted due to the implicit
# save of the relation assignment.
self.assertEqual(self.book1.authors.count(), 3)
def test_reverse_m2m_to_attr_conflict(self):
msg = "to_attr=books conflicts with a field on the Author model."
poems = Book.objects.filter(title="Poems")
with self.assertRaisesMessage(ValueError, msg):
list(
Author.objects.prefetch_related(
Prefetch("books", queryset=poems, to_attr="books"),
)
)
# Without the ValueError, a book was deleted due to the implicit
# save of reverse relation assignment.
self.assertEqual(self.author1.books.count(), 2)
def test_m2m_then_reverse_fk_object_ids(self):
with CaptureQueriesContext(connection) as queries:
list(Book.objects.prefetch_related("authors__addresses"))
sql = queries[-1]["sql"]
self.assertWhereContains(sql, self.author1.name)
def test_m2m_then_m2m_object_ids(self):
with CaptureQueriesContext(connection) as queries:
list(Book.objects.prefetch_related("authors__favorite_authors"))
sql = queries[-1]["sql"]
self.assertWhereContains(sql, self.author1.name)
def test_m2m_then_reverse_one_to_one_object_ids(self):
with CaptureQueriesContext(connection) as queries:
list(Book.objects.prefetch_related("authors__authorwithage"))
sql = queries[-1]["sql"]
self.assertWhereContains(sql, self.author1.id)
def test_filter_deferred(self):
"""
Related filtering of prefetched querysets is deferred on m2m and
reverse m2o relations until necessary.
"""
add_q = Query.add_q
for relation in ["authors", "first_time_authors"]:
with self.subTest(relation=relation):
with mock.patch.object(
Query,
"add_q",
autospec=True,
side_effect=lambda self, q: add_q(self, q),
) as add_q_mock:
list(Book.objects.prefetch_related(relation))
self.assertEqual(add_q_mock.call_count, 1)
def test_named_values_list(self):
qs = Author.objects.prefetch_related("books")
self.assertCountEqual(
[value.name for value in qs.values_list("name", named=True)],
["Anne", "Charlotte", "Emily", "Jane"],
)
def test_m2m_prefetching_iterator_with_chunks(self):
with self.assertNumQueries(3):
authors = [
b.authors.first()
for b in Book.objects.prefetch_related("authors").iterator(chunk_size=2)
]
self.assertEqual(
authors,
[self.author1, self.author1, self.author3, self.author4],
)
@ignore_warnings(category=RemovedInDjango50Warning)
def test_m2m_prefetching_iterator_without_chunks(self):
# prefetch_related() is ignored.
with self.assertNumQueries(5):
authors = [
b.authors.first()
for b in Book.objects.prefetch_related("authors").iterator()
]
self.assertEqual(
authors,
[self.author1, self.author1, self.author3, self.author4],
)
def test_m2m_prefetching_iterator_without_chunks_warning(self):
msg = (
"Using QuerySet.iterator() after prefetch_related() without "
"specifying chunk_size is deprecated."
)
with self.assertWarnsMessage(RemovedInDjango50Warning, msg):
Book.objects.prefetch_related("authors").iterator()
class RawQuerySetTests(TestDataMixin, TestCase):
def test_basic(self):
with self.assertNumQueries(2):
books = Book.objects.raw(
"SELECT * FROM prefetch_related_book WHERE id = %s", (self.book1.id,)
).prefetch_related("authors")
book1 = list(books)[0]
with self.assertNumQueries(0):
self.assertCountEqual(
book1.authors.all(), [self.author1, self.author2, self.author3]
)
def test_prefetch_before_raw(self):
with self.assertNumQueries(2):
books = Book.objects.prefetch_related("authors").raw(
"SELECT * FROM prefetch_related_book WHERE id = %s", (self.book1.id,)
)
book1 = list(books)[0]
with self.assertNumQueries(0):
self.assertCountEqual(
book1.authors.all(), [self.author1, self.author2, self.author3]
)
def test_clear(self):
with self.assertNumQueries(5):
with_prefetch = Author.objects.raw(
"SELECT * FROM prefetch_related_author"
).prefetch_related("books")
without_prefetch = with_prefetch.prefetch_related(None)
[list(a.books.all()) for a in without_prefetch]
class CustomPrefetchTests(TestCase):
@classmethod
def traverse_qs(cls, obj_iter, path):
"""
Helper method that returns a list containing a list of the objects in the
obj_iter. Then for each object in the obj_iter, the path will be
recursively travelled and the found objects are added to the return value.
"""
ret_val = []
if hasattr(obj_iter, "all"):
obj_iter = obj_iter.all()
try:
iter(obj_iter)
except TypeError:
obj_iter = [obj_iter]
for obj in obj_iter:
rel_objs = []
for part in path:
if not part:
continue
try:
related = getattr(obj, part[0])
except ObjectDoesNotExist:
continue
if related is not None:
rel_objs.extend(cls.traverse_qs(related, [part[1:]]))
ret_val.append((obj, rel_objs))
return ret_val
@classmethod
def setUpTestData(cls):
cls.person1 = Person.objects.create(name="Joe")
cls.person2 = Person.objects.create(name="Mary")
# Set main_room for each house before creating the next one for
# databases where supports_nullable_unique_constraints is False.
cls.house1 = House.objects.create(
name="House 1", address="123 Main St", owner=cls.person1
)
cls.room1_1 = Room.objects.create(name="Dining room", house=cls.house1)
cls.room1_2 = Room.objects.create(name="Lounge", house=cls.house1)
cls.room1_3 = Room.objects.create(name="Kitchen", house=cls.house1)
cls.house1.main_room = cls.room1_1
cls.house1.save()
cls.person1.houses.add(cls.house1)
cls.house2 = House.objects.create(
name="House 2", address="45 Side St", owner=cls.person1
)
cls.room2_1 = Room.objects.create(name="Dining room", house=cls.house2)
cls.room2_2 = Room.objects.create(name="Lounge", house=cls.house2)
cls.room2_3 = Room.objects.create(name="Kitchen", house=cls.house2)
cls.house2.main_room = cls.room2_1
cls.house2.save()
cls.person1.houses.add(cls.house2)
cls.house3 = House.objects.create(
name="House 3", address="6 Downing St", owner=cls.person2
)
cls.room3_1 = Room.objects.create(name="Dining room", house=cls.house3)
cls.room3_2 = Room.objects.create(name="Lounge", house=cls.house3)
cls.room3_3 = Room.objects.create(name="Kitchen", house=cls.house3)
cls.house3.main_room = cls.room3_1
cls.house3.save()
cls.person2.houses.add(cls.house3)
cls.house4 = House.objects.create(
name="house 4", address="7 Regents St", owner=cls.person2
)
cls.room4_1 = Room.objects.create(name="Dining room", house=cls.house4)
cls.room4_2 = Room.objects.create(name="Lounge", house=cls.house4)
cls.room4_3 = Room.objects.create(name="Kitchen", house=cls.house4)
cls.house4.main_room = cls.room4_1
cls.house4.save()
cls.person2.houses.add(cls.house4)
def test_traverse_qs(self):
qs = Person.objects.prefetch_related("houses")
related_objs_normal = ([list(p.houses.all()) for p in qs],)
related_objs_from_traverse = [
[inner[0] for inner in o[1]] for o in self.traverse_qs(qs, [["houses"]])
]
self.assertEqual(related_objs_normal, (related_objs_from_traverse,))
def test_ambiguous(self):
# Ambiguous: Lookup was already seen with a different queryset.
msg = (
"'houses' lookup was already seen with a different queryset. You "
"may need to adjust the ordering of your lookups."
)
# lookup.queryset shouldn't be evaluated.
with self.assertNumQueries(3):
with self.assertRaisesMessage(ValueError, msg):
self.traverse_qs(
Person.objects.prefetch_related(
"houses__rooms",
Prefetch("houses", queryset=House.objects.all()),
),
[["houses", "rooms"]],
)
# Ambiguous: Lookup houses_lst doesn't yet exist when performing
# houses_lst__rooms.
msg = (
"Cannot find 'houses_lst' on Person object, 'houses_lst__rooms' is "
"an invalid parameter to prefetch_related()"
)
with self.assertRaisesMessage(AttributeError, msg):
self.traverse_qs(
Person.objects.prefetch_related(
"houses_lst__rooms",
Prefetch(
"houses", queryset=House.objects.all(), to_attr="houses_lst"
),
),
[["houses", "rooms"]],
)
# Not ambiguous.
self.traverse_qs(
Person.objects.prefetch_related("houses__rooms", "houses"),
[["houses", "rooms"]],
)
self.traverse_qs(
Person.objects.prefetch_related(
"houses__rooms",
Prefetch("houses", queryset=House.objects.all(), to_attr="houses_lst"),
),
[["houses", "rooms"]],
)
def test_m2m(self):
# Control lookups.
with self.assertNumQueries(2):
lst1 = self.traverse_qs(
Person.objects.prefetch_related("houses"), [["houses"]]
)
# Test lookups.
with self.assertNumQueries(2):
lst2 = self.traverse_qs(
Person.objects.prefetch_related(Prefetch("houses")), [["houses"]]
)
self.assertEqual(lst1, lst2)
with self.assertNumQueries(2):
lst2 = self.traverse_qs(
Person.objects.prefetch_related(
Prefetch("houses", to_attr="houses_lst")
),
[["houses_lst"]],
)
self.assertEqual(lst1, lst2)
def test_reverse_m2m(self):
# Control lookups.
with self.assertNumQueries(2):
lst1 = self.traverse_qs(
House.objects.prefetch_related("occupants"), [["occupants"]]
)
# Test lookups.
with self.assertNumQueries(2):
lst2 = self.traverse_qs(
House.objects.prefetch_related(Prefetch("occupants")), [["occupants"]]
)
self.assertEqual(lst1, lst2)
with self.assertNumQueries(2):
lst2 = self.traverse_qs(
House.objects.prefetch_related(
Prefetch("occupants", to_attr="occupants_lst")
),
[["occupants_lst"]],
)
self.assertEqual(lst1, lst2)
def test_m2m_through_fk(self):
# Control lookups.
with self.assertNumQueries(3):
lst1 = self.traverse_qs(
Room.objects.prefetch_related("house__occupants"),
[["house", "occupants"]],
)
# Test lookups.
with self.assertNumQueries(3):
lst2 = self.traverse_qs(
Room.objects.prefetch_related(Prefetch("house__occupants")),
[["house", "occupants"]],
)
self.assertEqual(lst1, lst2)
with self.assertNumQueries(3):
lst2 = self.traverse_qs(
Room.objects.prefetch_related(
Prefetch("house__occupants", to_attr="occupants_lst")
),
[["house", "occupants_lst"]],
)
self.assertEqual(lst1, lst2)
def test_m2m_through_gfk(self):
TaggedItem.objects.create(tag="houses", content_object=self.house1)
TaggedItem.objects.create(tag="houses", content_object=self.house2)
# Control lookups.
with self.assertNumQueries(3):
lst1 = self.traverse_qs(
TaggedItem.objects.filter(tag="houses").prefetch_related(
"content_object__rooms"
),
[["content_object", "rooms"]],
)
# Test lookups.
with self.assertNumQueries(3):
lst2 = self.traverse_qs(
TaggedItem.objects.prefetch_related(
Prefetch("content_object"),
Prefetch("content_object__rooms", to_attr="rooms_lst"),
),
[["content_object", "rooms_lst"]],
)
self.assertEqual(lst1, lst2)
def test_o2m_through_m2m(self):
# Control lookups.
with self.assertNumQueries(3):
lst1 = self.traverse_qs(
Person.objects.prefetch_related("houses", "houses__rooms"),
[["houses", "rooms"]],
)
# Test lookups.
with self.assertNumQueries(3):
lst2 = self.traverse_qs(
Person.objects.prefetch_related(Prefetch("houses"), "houses__rooms"),
[["houses", "rooms"]],
)
self.assertEqual(lst1, lst2)
with self.assertNumQueries(3):
lst2 = self.traverse_qs(
Person.objects.prefetch_related(
Prefetch("houses"), Prefetch("houses__rooms")
),
[["houses", "rooms"]],
)
self.assertEqual(lst1, lst2)
with self.assertNumQueries(3):
lst2 = self.traverse_qs(
Person.objects.prefetch_related(
Prefetch("houses", to_attr="houses_lst"), "houses_lst__rooms"
),
[["houses_lst", "rooms"]],
)
self.assertEqual(lst1, lst2)
with self.assertNumQueries(3):
lst2 = self.traverse_qs(
Person.objects.prefetch_related(
Prefetch("houses", to_attr="houses_lst"),
Prefetch("houses_lst__rooms", to_attr="rooms_lst"),
),
[["houses_lst", "rooms_lst"]],
)
self.assertEqual(lst1, lst2)
def test_generic_rel(self):
bookmark = Bookmark.objects.create(url="http://www.djangoproject.com/")
TaggedItem.objects.create(content_object=bookmark, tag="django")
TaggedItem.objects.create(
content_object=bookmark, favorite=bookmark, tag="python"
)
# Control lookups.
with self.assertNumQueries(4):
lst1 = self.traverse_qs(
Bookmark.objects.prefetch_related(
"tags", "tags__content_object", "favorite_tags"
),
[["tags", "content_object"], ["favorite_tags"]],
)
# Test lookups.
with self.assertNumQueries(4):
lst2 = self.traverse_qs(
Bookmark.objects.prefetch_related(
Prefetch("tags", to_attr="tags_lst"),
Prefetch("tags_lst__content_object"),
Prefetch("favorite_tags"),
),
[["tags_lst", "content_object"], ["favorite_tags"]],
)
self.assertEqual(lst1, lst2)
def test_traverse_single_item_property(self):
# Control lookups.
with self.assertNumQueries(5):
lst1 = self.traverse_qs(
Person.objects.prefetch_related(
"houses__rooms",
"primary_house__occupants__houses",
),
[["primary_house", "occupants", "houses"]],
)
# Test lookups.
with self.assertNumQueries(5):
lst2 = self.traverse_qs(
Person.objects.prefetch_related(
"houses__rooms",
Prefetch("primary_house__occupants", to_attr="occupants_lst"),
"primary_house__occupants_lst__houses",
),
[["primary_house", "occupants_lst", "houses"]],
)
self.assertEqual(lst1, lst2)
def test_traverse_multiple_items_property(self):
# Control lookups.
with self.assertNumQueries(4):
lst1 = self.traverse_qs(
Person.objects.prefetch_related(
"houses",
"all_houses__occupants__houses",
),
[["all_houses", "occupants", "houses"]],
)
# Test lookups.
with self.assertNumQueries(4):
lst2 = self.traverse_qs(
Person.objects.prefetch_related(
"houses",
Prefetch("all_houses__occupants", to_attr="occupants_lst"),
"all_houses__occupants_lst__houses",
),
[["all_houses", "occupants_lst", "houses"]],
)
self.assertEqual(lst1, lst2)
def test_custom_qs(self):
# Test basic.
with self.assertNumQueries(2):
lst1 = list(Person.objects.prefetch_related("houses"))
with self.assertNumQueries(2):
lst2 = list(
Person.objects.prefetch_related(
Prefetch(
"houses", queryset=House.objects.all(), to_attr="houses_lst"
)
)
)
self.assertEqual(
self.traverse_qs(lst1, [["houses"]]),
self.traverse_qs(lst2, [["houses_lst"]]),
)
# Test queryset filtering.
with self.assertNumQueries(2):
lst2 = list(
Person.objects.prefetch_related(
Prefetch(
"houses",
queryset=House.objects.filter(
pk__in=[self.house1.pk, self.house3.pk]
),
to_attr="houses_lst",
)
)
)
self.assertEqual(len(lst2[0].houses_lst), 1)
self.assertEqual(lst2[0].houses_lst[0], self.house1)
self.assertEqual(len(lst2[1].houses_lst), 1)
self.assertEqual(lst2[1].houses_lst[0], self.house3)
# Test flattened.
with self.assertNumQueries(3):
lst1 = list(Person.objects.prefetch_related("houses__rooms"))
with self.assertNumQueries(3):
lst2 = list(
Person.objects.prefetch_related(
Prefetch(
"houses__rooms",
queryset=Room.objects.all(),
to_attr="rooms_lst",
)
)
)
self.assertEqual(
self.traverse_qs(lst1, [["houses", "rooms"]]),
self.traverse_qs(lst2, [["houses", "rooms_lst"]]),
)
# Test inner select_related.
with self.assertNumQueries(3):
lst1 = list(Person.objects.prefetch_related("houses__owner"))
with self.assertNumQueries(2):
lst2 = list(
Person.objects.prefetch_related(
Prefetch("houses", queryset=House.objects.select_related("owner"))
)
)
self.assertEqual(
self.traverse_qs(lst1, [["houses", "owner"]]),
self.traverse_qs(lst2, [["houses", "owner"]]),
)
# Test inner prefetch.
inner_rooms_qs = Room.objects.filter(pk__in=[self.room1_1.pk, self.room1_2.pk])
houses_qs_prf = House.objects.prefetch_related(
Prefetch("rooms", queryset=inner_rooms_qs, to_attr="rooms_lst")
)
with self.assertNumQueries(4):
lst2 = list(
Person.objects.prefetch_related(
Prefetch(
"houses",
queryset=houses_qs_prf.filter(pk=self.house1.pk),
to_attr="houses_lst",
),
Prefetch("houses_lst__rooms_lst__main_room_of"),
)
)
self.assertEqual(len(lst2[0].houses_lst[0].rooms_lst), 2)
self.assertEqual(lst2[0].houses_lst[0].rooms_lst[0], self.room1_1)
self.assertEqual(lst2[0].houses_lst[0].rooms_lst[1], self.room1_2)
self.assertEqual(lst2[0].houses_lst[0].rooms_lst[0].main_room_of, self.house1)
self.assertEqual(len(lst2[1].houses_lst), 0)
# Test ForwardManyToOneDescriptor.
houses = House.objects.select_related("owner")
with self.assertNumQueries(6):
rooms = Room.objects.prefetch_related("house")
lst1 = self.traverse_qs(rooms, [["house", "owner"]])
with self.assertNumQueries(2):
rooms = Room.objects.prefetch_related(Prefetch("house", queryset=houses))
lst2 = self.traverse_qs(rooms, [["house", "owner"]])
self.assertEqual(lst1, lst2)
with self.assertNumQueries(2):
houses = House.objects.select_related("owner")
rooms = Room.objects.prefetch_related(
Prefetch("house", queryset=houses, to_attr="house_attr")
)
lst2 = self.traverse_qs(rooms, [["house_attr", "owner"]])
self.assertEqual(lst1, lst2)
room = Room.objects.prefetch_related(
Prefetch("house", queryset=houses.filter(address="DoesNotExist"))
).first()
with self.assertRaises(ObjectDoesNotExist):
getattr(room, "house")
room = Room.objects.prefetch_related(
Prefetch(
"house",
queryset=houses.filter(address="DoesNotExist"),
to_attr="house_attr",
)
).first()
self.assertIsNone(room.house_attr)
rooms = Room.objects.prefetch_related(
Prefetch("house", queryset=House.objects.only("name"))
)
with self.assertNumQueries(2):
getattr(rooms.first().house, "name")
with self.assertNumQueries(3):
getattr(rooms.first().house, "address")
# Test ReverseOneToOneDescriptor.
houses = House.objects.select_related("owner")
with self.assertNumQueries(6):
rooms = Room.objects.prefetch_related("main_room_of")
lst1 = self.traverse_qs(rooms, [["main_room_of", "owner"]])
with self.assertNumQueries(2):
rooms = Room.objects.prefetch_related(
Prefetch("main_room_of", queryset=houses)
)
lst2 = self.traverse_qs(rooms, [["main_room_of", "owner"]])
self.assertEqual(lst1, lst2)
with self.assertNumQueries(2):
rooms = list(
Room.objects.prefetch_related(
Prefetch(
"main_room_of",
queryset=houses,
to_attr="main_room_of_attr",
)
)
)
lst2 = self.traverse_qs(rooms, [["main_room_of_attr", "owner"]])
self.assertEqual(lst1, lst2)
room = (
Room.objects.filter(main_room_of__isnull=False)
.prefetch_related(
Prefetch("main_room_of", queryset=houses.filter(address="DoesNotExist"))
)
.first()
)
with self.assertRaises(ObjectDoesNotExist):
getattr(room, "main_room_of")
room = (
Room.objects.filter(main_room_of__isnull=False)
.prefetch_related(
Prefetch(
"main_room_of",
queryset=houses.filter(address="DoesNotExist"),
to_attr="main_room_of_attr",
)
)
.first()
)
self.assertIsNone(room.main_room_of_attr)
# The custom queryset filters should be applied to the queryset
# instance returned by the manager.
person = Person.objects.prefetch_related(
Prefetch("houses", queryset=House.objects.filter(name="House 1")),
).get(pk=self.person1.pk)
self.assertEqual(
list(person.houses.all()),
list(person.houses.all().all()),
)
def test_nested_prefetch_related_are_not_overwritten(self):
# Regression test for #24873
houses_2 = House.objects.prefetch_related(Prefetch("rooms"))
persons = Person.objects.prefetch_related(Prefetch("houses", queryset=houses_2))
houses = House.objects.prefetch_related(Prefetch("occupants", queryset=persons))
list(houses) # queryset must be evaluated once to reproduce the bug.
self.assertEqual(
houses.all()[0].occupants.all()[0].houses.all()[1].rooms.all()[0],
self.room2_1,
)
def test_nested_prefetch_related_with_duplicate_prefetcher(self):
"""
Nested prefetches whose name clashes with descriptor names
(Person.houses here) are allowed.
"""
occupants = Person.objects.prefetch_related(
Prefetch("houses", to_attr="some_attr_name"),
Prefetch("houses", queryset=House.objects.prefetch_related("main_room")),
)
houses = House.objects.prefetch_related(
Prefetch("occupants", queryset=occupants)
)
with self.assertNumQueries(5):
self.traverse_qs(list(houses), [["occupants", "houses", "main_room"]])
def test_values_queryset(self):
msg = "Prefetch querysets cannot use raw(), values(), and values_list()."
with self.assertRaisesMessage(ValueError, msg):
Prefetch("houses", House.objects.values("pk"))
with self.assertRaisesMessage(ValueError, msg):
Prefetch("houses", House.objects.values_list("pk"))
# That error doesn't affect managers with custom ModelIterable subclasses
self.assertIs(
Teacher.objects_custom.all()._iterable_class, ModelIterableSubclass
)
Prefetch("teachers", Teacher.objects_custom.all())
def test_raw_queryset(self):
msg = "Prefetch querysets cannot use raw(), values(), and values_list()."
with self.assertRaisesMessage(ValueError, msg):
Prefetch("houses", House.objects.raw("select pk from house"))
def test_to_attr_doesnt_cache_through_attr_as_list(self):
house = House.objects.prefetch_related(
Prefetch("rooms", queryset=Room.objects.all(), to_attr="to_rooms"),
).get(pk=self.house3.pk)
self.assertIsInstance(house.rooms.all(), QuerySet)
def test_to_attr_cached_property(self):
persons = Person.objects.prefetch_related(
Prefetch("houses", House.objects.all(), to_attr="cached_all_houses"),
)
for person in persons:
# To bypass caching at the related descriptor level, don't use
# person.houses.all() here.
all_houses = list(House.objects.filter(occupants=person))
with self.assertNumQueries(0):
self.assertEqual(person.cached_all_houses, all_houses)
def test_filter_deferred(self):
"""
Related filtering of prefetched querysets is deferred until necessary.
"""
add_q = Query.add_q
with mock.patch.object(
Query,
"add_q",
autospec=True,
side_effect=lambda self, q: add_q(self, q),
) as add_q_mock:
list(
House.objects.prefetch_related(
Prefetch("occupants", queryset=Person.objects.all())
)
)
self.assertEqual(add_q_mock.call_count, 1)
class DefaultManagerTests(TestCase):
@classmethod
def setUpTestData(cls):
cls.qual1 = Qualification.objects.create(name="BA")
cls.qual2 = Qualification.objects.create(name="BSci")
cls.qual3 = Qualification.objects.create(name="MA")
cls.qual4 = Qualification.objects.create(name="PhD")
cls.teacher1 = Teacher.objects.create(name="Mr Cleese")
cls.teacher2 = Teacher.objects.create(name="Mr Idle")
cls.teacher3 = Teacher.objects.create(name="Mr Chapman")
cls.teacher1.qualifications.add(cls.qual1, cls.qual2, cls.qual3, cls.qual4)
cls.teacher2.qualifications.add(cls.qual1)
cls.teacher3.qualifications.add(cls.qual2)
cls.dept1 = Department.objects.create(name="English")
cls.dept2 = Department.objects.create(name="Physics")
cls.dept1.teachers.add(cls.teacher1, cls.teacher2)
cls.dept2.teachers.add(cls.teacher1, cls.teacher3)
def test_m2m_then_m2m(self):
with self.assertNumQueries(3):
# When we prefetch the teachers, and force the query, we don't want
# the default manager on teachers to immediately get all the related
# qualifications, since this will do one query per teacher.
qs = Department.objects.prefetch_related("teachers")
depts = "".join(
"%s department: %s\n"
% (dept.name, ", ".join(str(t) for t in dept.teachers.all()))
for dept in qs
)
self.assertEqual(
depts,
"English department: Mr Cleese (BA, BSci, MA, PhD), Mr Idle (BA)\n"
"Physics department: Mr Cleese (BA, BSci, MA, PhD), Mr Chapman "
"(BSci)\n",
)
class GenericRelationTests(TestCase):
@classmethod
def setUpTestData(cls):
book1 = Book.objects.create(title="Winnie the Pooh")
book2 = Book.objects.create(title="Do you like green eggs and spam?")
book3 = Book.objects.create(title="Three Men In A Boat")
reader1 = Reader.objects.create(name="me")
reader2 = Reader.objects.create(name="you")
reader3 = Reader.objects.create(name="someone")
book1.read_by.add(reader1, reader2)
book2.read_by.add(reader2)
book3.read_by.add(reader3)
cls.book1, cls.book2, cls.book3 = book1, book2, book3
cls.reader1, cls.reader2, cls.reader3 = reader1, reader2, reader3
def test_prefetch_GFK(self):
TaggedItem.objects.create(tag="awesome", content_object=self.book1)
TaggedItem.objects.create(tag="great", content_object=self.reader1)
TaggedItem.objects.create(tag="outstanding", content_object=self.book2)
TaggedItem.objects.create(tag="amazing", content_object=self.reader3)
# 1 for TaggedItem table, 1 for Book table, 1 for Reader table
with self.assertNumQueries(3):
qs = TaggedItem.objects.prefetch_related("content_object")
list(qs)
def test_prefetch_GFK_nonint_pk(self):
Comment.objects.create(comment="awesome", content_object=self.book1)
# 1 for Comment table, 1 for Book table
with self.assertNumQueries(2):
qs = Comment.objects.prefetch_related("content_object")
[c.content_object for c in qs]
def test_prefetch_GFK_uuid_pk(self):
article = Article.objects.create(name="Django")
Comment.objects.create(comment="awesome", content_object_uuid=article)
qs = Comment.objects.prefetch_related("content_object_uuid")
self.assertEqual([c.content_object_uuid for c in qs], [article])
def test_prefetch_GFK_fk_pk(self):
book = Book.objects.create(title="Poems")
book_with_year = BookWithYear.objects.create(book=book, published_year=2019)
Comment.objects.create(comment="awesome", content_object=book_with_year)
qs = Comment.objects.prefetch_related("content_object")
self.assertEqual([c.content_object for c in qs], [book_with_year])
def test_traverse_GFK(self):
"""
A 'content_object' can be traversed with prefetch_related() and
get to related objects on the other side (assuming it is suitably
filtered)
"""
TaggedItem.objects.create(tag="awesome", content_object=self.book1)
TaggedItem.objects.create(tag="awesome", content_object=self.book2)
TaggedItem.objects.create(tag="awesome", content_object=self.book3)
TaggedItem.objects.create(tag="awesome", content_object=self.reader1)
TaggedItem.objects.create(tag="awesome", content_object=self.reader2)
ct = ContentType.objects.get_for_model(Book)
# We get 3 queries - 1 for main query, 1 for content_objects since they
# all use the same table, and 1 for the 'read_by' relation.
with self.assertNumQueries(3):
# If we limit to books, we know that they will have 'read_by'
# attributes, so the following makes sense:
qs = TaggedItem.objects.filter(
content_type=ct, tag="awesome"
).prefetch_related("content_object__read_by")
readers_of_awesome_books = {
r.name for tag in qs for r in tag.content_object.read_by.all()
}
self.assertEqual(readers_of_awesome_books, {"me", "you", "someone"})
def test_nullable_GFK(self):
TaggedItem.objects.create(
tag="awesome", content_object=self.book1, created_by=self.reader1
)
TaggedItem.objects.create(tag="great", content_object=self.book2)
TaggedItem.objects.create(tag="rubbish", content_object=self.book3)
with self.assertNumQueries(2):
result = [
t.created_by for t in TaggedItem.objects.prefetch_related("created_by")
]
self.assertEqual(result, [t.created_by for t in TaggedItem.objects.all()])
def test_generic_relation(self):
bookmark = Bookmark.objects.create(url="http://www.djangoproject.com/")
TaggedItem.objects.create(content_object=bookmark, tag="django")
TaggedItem.objects.create(content_object=bookmark, tag="python")
with self.assertNumQueries(2):
tags = [
t.tag
for b in Bookmark.objects.prefetch_related("tags")
for t in b.tags.all()
]
self.assertEqual(sorted(tags), ["django", "python"])
def test_charfield_GFK(self):
b = Bookmark.objects.create(url="http://www.djangoproject.com/")
TaggedItem.objects.create(content_object=b, tag="django")
TaggedItem.objects.create(content_object=b, favorite=b, tag="python")
with self.assertNumQueries(3):
bookmark = Bookmark.objects.filter(pk=b.pk).prefetch_related(
"tags", "favorite_tags"
)[0]
self.assertEqual(
sorted(i.tag for i in bookmark.tags.all()), ["django", "python"]
)
self.assertEqual([i.tag for i in bookmark.favorite_tags.all()], ["python"])
def test_custom_queryset(self):
bookmark = Bookmark.objects.create(url="http://www.djangoproject.com/")
django_tag = TaggedItem.objects.create(content_object=bookmark, tag="django")
TaggedItem.objects.create(content_object=bookmark, tag="python")
with self.assertNumQueries(2):
bookmark = Bookmark.objects.prefetch_related(
Prefetch("tags", TaggedItem.objects.filter(tag="django")),
).get()
with self.assertNumQueries(0):
self.assertEqual(list(bookmark.tags.all()), [django_tag])
# The custom queryset filters should be applied to the queryset
# instance returned by the manager.
self.assertEqual(list(bookmark.tags.all()), list(bookmark.tags.all().all()))
def test_deleted_GFK(self):
TaggedItem.objects.create(tag="awesome", content_object=self.book1)
TaggedItem.objects.create(tag="awesome", content_object=self.book2)
ct = ContentType.objects.get_for_model(Book)
book1_pk = self.book1.pk
self.book1.delete()
with self.assertNumQueries(2):
qs = TaggedItem.objects.filter(tag="awesome").prefetch_related(
"content_object"
)
result = [
(tag.object_id, tag.content_type_id, tag.content_object) for tag in qs
]
self.assertEqual(
result,
[
(book1_pk, ct.pk, None),
(self.book2.pk, ct.pk, self.book2),
],
)
class MultiTableInheritanceTest(TestCase):
@classmethod
def setUpTestData(cls):
cls.book1 = BookWithYear.objects.create(title="Poems", published_year=2010)
cls.book2 = BookWithYear.objects.create(title="More poems", published_year=2011)
cls.author1 = AuthorWithAge.objects.create(
name="Jane", first_book=cls.book1, age=50
)
cls.author2 = AuthorWithAge.objects.create(
name="Tom", first_book=cls.book1, age=49
)
cls.author3 = AuthorWithAge.objects.create(
name="Robert", first_book=cls.book2, age=48
)
cls.author_address = AuthorAddress.objects.create(
author=cls.author1, address="SomeStreet 1"
)
cls.book2.aged_authors.add(cls.author2, cls.author3)
cls.br1 = BookReview.objects.create(book=cls.book1, notes="review book1")
cls.br2 = BookReview.objects.create(book=cls.book2, notes="review book2")
def test_foreignkey(self):
with self.assertNumQueries(2):
qs = AuthorWithAge.objects.prefetch_related("addresses")
addresses = [
[str(address) for address in obj.addresses.all()] for obj in qs
]
self.assertEqual(addresses, [[str(self.author_address)], [], []])
def test_foreignkey_to_inherited(self):
with self.assertNumQueries(2):
qs = BookReview.objects.prefetch_related("book")
titles = [obj.book.title for obj in qs]
self.assertEqual(titles, ["Poems", "More poems"])
def test_m2m_to_inheriting_model(self):
qs = AuthorWithAge.objects.prefetch_related("books_with_year")
with self.assertNumQueries(2):
lst = [
[str(book) for book in author.books_with_year.all()] for author in qs
]
qs = AuthorWithAge.objects.all()
lst2 = [[str(book) for book in author.books_with_year.all()] for author in qs]
self.assertEqual(lst, lst2)
qs = BookWithYear.objects.prefetch_related("aged_authors")
with self.assertNumQueries(2):
lst = [[str(author) for author in book.aged_authors.all()] for book in qs]
qs = BookWithYear.objects.all()
lst2 = [[str(author) for author in book.aged_authors.all()] for book in qs]
self.assertEqual(lst, lst2)
def test_parent_link_prefetch(self):
with self.assertNumQueries(2):
[a.author for a in AuthorWithAge.objects.prefetch_related("author")]
@override_settings(DEBUG=True)
def test_child_link_prefetch(self):
with self.assertNumQueries(2):
authors = [
a.authorwithage
for a in Author.objects.prefetch_related("authorwithage")
]
# Regression for #18090: the prefetching query must include an IN clause.
# Note that on Oracle the table name is upper case in the generated SQL,
# thus the .lower() call.
self.assertIn("authorwithage", connection.queries[-1]["sql"].lower())
self.assertIn(" IN ", connection.queries[-1]["sql"])
self.assertEqual(authors, [a.authorwithage for a in Author.objects.all()])
class ForeignKeyToFieldTest(TestCase):
@classmethod
def setUpTestData(cls):
cls.book = Book.objects.create(title="Poems")
cls.author1 = Author.objects.create(name="Jane", first_book=cls.book)
cls.author2 = Author.objects.create(name="Tom", first_book=cls.book)
cls.author3 = Author.objects.create(name="Robert", first_book=cls.book)
cls.author_address = AuthorAddress.objects.create(
author=cls.author1, address="SomeStreet 1"
)
FavoriteAuthors.objects.create(author=cls.author1, likes_author=cls.author2)
FavoriteAuthors.objects.create(author=cls.author2, likes_author=cls.author3)
FavoriteAuthors.objects.create(author=cls.author3, likes_author=cls.author1)
def test_foreignkey(self):
with self.assertNumQueries(2):
qs = Author.objects.prefetch_related("addresses")
addresses = [
[str(address) for address in obj.addresses.all()] for obj in qs
]
self.assertEqual(addresses, [[str(self.author_address)], [], []])
def test_m2m(self):
with self.assertNumQueries(3):
qs = Author.objects.prefetch_related("favorite_authors", "favors_me")
favorites = [
(
[str(i_like) for i_like in author.favorite_authors.all()],
[str(likes_me) for likes_me in author.favors_me.all()],
)
for author in qs
]
self.assertEqual(
favorites,
[
([str(self.author2)], [str(self.author3)]),
([str(self.author3)], [str(self.author1)]),
([str(self.author1)], [str(self.author2)]),
],
)
def test_m2m_manager_reused(self):
author = Author.objects.prefetch_related(
"favorite_authors",
"favors_me",
).first()
self.assertIs(author.favorite_authors, author.favorite_authors)
self.assertIs(author.favors_me, author.favors_me)
class LookupOrderingTest(TestCase):
"""
Test cases that demonstrate that ordering of lookups is important, and
ensure it is preserved.
"""
@classmethod
def setUpTestData(cls):
person1 = Person.objects.create(name="Joe")
person2 = Person.objects.create(name="Mary")
# Set main_room for each house before creating the next one for
# databases where supports_nullable_unique_constraints is False.
house1 = House.objects.create(address="123 Main St")
room1_1 = Room.objects.create(name="Dining room", house=house1)
Room.objects.create(name="Lounge", house=house1)
Room.objects.create(name="Kitchen", house=house1)
house1.main_room = room1_1
house1.save()
person1.houses.add(house1)
house2 = House.objects.create(address="45 Side St")
room2_1 = Room.objects.create(name="Dining room", house=house2)
Room.objects.create(name="Lounge", house=house2)
house2.main_room = room2_1
house2.save()
person1.houses.add(house2)
house3 = House.objects.create(address="6 Downing St")
room3_1 = Room.objects.create(name="Dining room", house=house3)
Room.objects.create(name="Lounge", house=house3)
Room.objects.create(name="Kitchen", house=house3)
house3.main_room = room3_1
house3.save()
person2.houses.add(house3)
house4 = House.objects.create(address="7 Regents St")
room4_1 = Room.objects.create(name="Dining room", house=house4)
Room.objects.create(name="Lounge", house=house4)
house4.main_room = room4_1
house4.save()
person2.houses.add(house4)
def test_order(self):
with self.assertNumQueries(4):
# The following two queries must be done in the same order as written,
# otherwise 'primary_house' will cause non-prefetched lookups
qs = Person.objects.prefetch_related(
"houses__rooms", "primary_house__occupants"
)
[list(p.primary_house.occupants.all()) for p in qs]
class NullableTest(TestCase):
@classmethod
def setUpTestData(cls):
boss = Employee.objects.create(name="Peter")
Employee.objects.create(name="Joe", boss=boss)
Employee.objects.create(name="Angela", boss=boss)
def test_traverse_nullable(self):
# Because we use select_related() for 'boss', it doesn't need to be
# prefetched, but we can still traverse it although it contains some nulls
with self.assertNumQueries(2):
qs = Employee.objects.select_related("boss").prefetch_related("boss__serfs")
co_serfs = [
list(e.boss.serfs.all()) if e.boss is not None else [] for e in qs
]
qs2 = Employee.objects.select_related("boss")
co_serfs2 = [
list(e.boss.serfs.all()) if e.boss is not None else [] for e in qs2
]
self.assertEqual(co_serfs, co_serfs2)
def test_prefetch_nullable(self):
# One for main employee, one for boss, one for serfs
with self.assertNumQueries(3):
qs = Employee.objects.prefetch_related("boss__serfs")
co_serfs = [
list(e.boss.serfs.all()) if e.boss is not None else [] for e in qs
]
qs2 = Employee.objects.all()
co_serfs2 = [
list(e.boss.serfs.all()) if e.boss is not None else [] for e in qs2
]
self.assertEqual(co_serfs, co_serfs2)
def test_in_bulk(self):
"""
In-bulk does correctly prefetch objects by not using .iterator()
directly.
"""
boss1 = Employee.objects.create(name="Peter")
boss2 = Employee.objects.create(name="Jack")
with self.assertNumQueries(2):
# Prefetch is done and it does not cause any errors.
bulk = Employee.objects.prefetch_related("serfs").in_bulk(
[boss1.pk, boss2.pk]
)
for b in bulk.values():
list(b.serfs.all())
class MultiDbTests(TestCase):
databases = {"default", "other"}
def test_using_is_honored_m2m(self):
B = Book.objects.using("other")
A = Author.objects.using("other")
book1 = B.create(title="Poems")
book2 = B.create(title="Jane Eyre")
book3 = B.create(title="Wuthering Heights")
book4 = B.create(title="Sense and Sensibility")
author1 = A.create(name="Charlotte", first_book=book1)
author2 = A.create(name="Anne", first_book=book1)
author3 = A.create(name="Emily", first_book=book1)
author4 = A.create(name="Jane", first_book=book4)
book1.authors.add(author1, author2, author3)
book2.authors.add(author1)
book3.authors.add(author3)
book4.authors.add(author4)
# Forward
qs1 = B.prefetch_related("authors")
with self.assertNumQueries(2, using="other"):
books = "".join(
"%s (%s)\n"
% (book.title, ", ".join(a.name for a in book.authors.all()))
for book in qs1
)
self.assertEqual(
books,
"Poems (Charlotte, Anne, Emily)\n"
"Jane Eyre (Charlotte)\n"
"Wuthering Heights (Emily)\n"
"Sense and Sensibility (Jane)\n",
)
# Reverse
qs2 = A.prefetch_related("books")
with self.assertNumQueries(2, using="other"):
authors = "".join(
"%s: %s\n"
% (author.name, ", ".join(b.title for b in author.books.all()))
for author in qs2
)
self.assertEqual(
authors,
"Charlotte: Poems, Jane Eyre\n"
"Anne: Poems\n"
"Emily: Poems, Wuthering Heights\n"
"Jane: Sense and Sensibility\n",
)
def test_using_is_honored_fkey(self):
B = Book.objects.using("other")
A = Author.objects.using("other")
book1 = B.create(title="Poems")
book2 = B.create(title="Sense and Sensibility")
A.create(name="Charlotte Bronte", first_book=book1)
A.create(name="Jane Austen", first_book=book2)
# Forward
with self.assertNumQueries(2, using="other"):
books = ", ".join(
a.first_book.title for a in A.prefetch_related("first_book")
)
self.assertEqual("Poems, Sense and Sensibility", books)
# Reverse
with self.assertNumQueries(2, using="other"):
books = "".join(
"%s (%s)\n"
% (b.title, ", ".join(a.name for a in b.first_time_authors.all()))
for b in B.prefetch_related("first_time_authors")
)
self.assertEqual(
books,
"Poems (Charlotte Bronte)\nSense and Sensibility (Jane Austen)\n",
)
def test_using_is_honored_inheritance(self):
B = BookWithYear.objects.using("other")
A = AuthorWithAge.objects.using("other")
book1 = B.create(title="Poems", published_year=2010)
B.create(title="More poems", published_year=2011)
A.create(name="Jane", first_book=book1, age=50)
A.create(name="Tom", first_book=book1, age=49)
# parent link
with self.assertNumQueries(2, using="other"):
authors = ", ".join(a.author.name for a in A.prefetch_related("author"))
self.assertEqual(authors, "Jane, Tom")
# child link
with self.assertNumQueries(2, using="other"):
ages = ", ".join(
str(a.authorwithage.age) for a in A.prefetch_related("authorwithage")
)
self.assertEqual(ages, "50, 49")
def test_using_is_honored_custom_qs(self):
B = Book.objects.using("other")
A = Author.objects.using("other")
book1 = B.create(title="Poems")
book2 = B.create(title="Sense and Sensibility")
A.create(name="Charlotte Bronte", first_book=book1)
A.create(name="Jane Austen", first_book=book2)
# Implicit hinting
with self.assertNumQueries(2, using="other"):
prefetch = Prefetch("first_time_authors", queryset=Author.objects.all())
books = "".join(
"%s (%s)\n"
% (b.title, ", ".join(a.name for a in b.first_time_authors.all()))
for b in B.prefetch_related(prefetch)
)
self.assertEqual(
books,
"Poems (Charlotte Bronte)\nSense and Sensibility (Jane Austen)\n",
)
# Explicit using on the same db.
with self.assertNumQueries(2, using="other"):
prefetch = Prefetch(
"first_time_authors", queryset=Author.objects.using("other")
)
books = "".join(
"%s (%s)\n"
% (b.title, ", ".join(a.name for a in b.first_time_authors.all()))
for b in B.prefetch_related(prefetch)
)
self.assertEqual(
books,
"Poems (Charlotte Bronte)\nSense and Sensibility (Jane Austen)\n",
)
# Explicit using on a different db.
with self.assertNumQueries(1, using="default"), self.assertNumQueries(
1, using="other"
):
prefetch = Prefetch(
"first_time_authors", queryset=Author.objects.using("default")
)
books = "".join(
"%s (%s)\n"
% (b.title, ", ".join(a.name for a in b.first_time_authors.all()))
for b in B.prefetch_related(prefetch)
)
self.assertEqual(books, "Poems ()\n" "Sense and Sensibility ()\n")
class Ticket19607Tests(TestCase):
@classmethod
def setUpTestData(cls):
LessonEntry.objects.bulk_create(
LessonEntry(id=id_, name1=name1, name2=name2)
for id_, name1, name2 in [
(1, "einfach", "simple"),
(2, "schwierig", "difficult"),
]
)
WordEntry.objects.bulk_create(
WordEntry(id=id_, lesson_entry_id=lesson_entry_id, name=name)
for id_, lesson_entry_id, name in [
(1, 1, "einfach"),
(2, 1, "simple"),
(3, 2, "schwierig"),
(4, 2, "difficult"),
]
)
def test_bug(self):
list(
WordEntry.objects.prefetch_related(
"lesson_entry", "lesson_entry__wordentry_set"
)
)
class Ticket21410Tests(TestCase):
@classmethod
def setUpTestData(cls):
book1 = Book.objects.create(title="Poems")
book2 = Book.objects.create(title="Jane Eyre")
book3 = Book.objects.create(title="Wuthering Heights")
book4 = Book.objects.create(title="Sense and Sensibility")
author1 = Author2.objects.create(name="Charlotte", first_book=book1)
author2 = Author2.objects.create(name="Anne", first_book=book1)
author3 = Author2.objects.create(name="Emily", first_book=book1)
author4 = Author2.objects.create(name="Jane", first_book=book4)
author1.favorite_books.add(book1, book2, book3)
author2.favorite_books.add(book1)
author3.favorite_books.add(book2)
author4.favorite_books.add(book3)
def test_bug(self):
list(Author2.objects.prefetch_related("first_book", "favorite_books"))
class Ticket21760Tests(TestCase):
@classmethod
def setUpTestData(cls):
cls.rooms = []
for _ in range(3):
house = House.objects.create()
for _ in range(3):
cls.rooms.append(Room.objects.create(house=house))
# Set main_room for each house before creating the next one for
# databases where supports_nullable_unique_constraints is False.
house.main_room = cls.rooms[-3]
house.save()
def test_bug(self):
prefetcher = get_prefetcher(self.rooms[0], "house", "house")[0]
queryset = prefetcher.get_prefetch_queryset(list(Room.objects.all()))[0]
self.assertNotIn(" JOIN ", str(queryset.query))
class DirectPrefetchedObjectCacheReuseTests(TestCase):
"""
prefetch_related() reuses objects fetched in _prefetched_objects_cache.
When objects are prefetched and not stored as an instance attribute (often
intermediary relationships), they are saved to the
_prefetched_objects_cache attribute. prefetch_related() takes
_prefetched_objects_cache into account when determining whether an object
has been fetched[1] and retrieves results from it when it is populated [2].
[1]: #25546 (duplicate queries on nested Prefetch)
[2]: #27554 (queryset evaluation fails with a mix of nested and flattened
prefetches)
"""
@classmethod
def setUpTestData(cls):
cls.book1, cls.book2 = [
Book.objects.create(title="book1"),
Book.objects.create(title="book2"),
]
cls.author11, cls.author12, cls.author21 = [
Author.objects.create(first_book=cls.book1, name="Author11"),
Author.objects.create(first_book=cls.book1, name="Author12"),
Author.objects.create(first_book=cls.book2, name="Author21"),
]
cls.author1_address1, cls.author1_address2, cls.author2_address1 = [
AuthorAddress.objects.create(author=cls.author11, address="Happy place"),
AuthorAddress.objects.create(author=cls.author12, address="Haunted house"),
AuthorAddress.objects.create(author=cls.author21, address="Happy place"),
]
cls.bookwithyear1 = BookWithYear.objects.create(
title="Poems", published_year=2010
)
cls.bookreview1 = BookReview.objects.create(book=cls.bookwithyear1)
def test_detect_is_fetched(self):
"""
Nested prefetch_related() shouldn't trigger duplicate queries for the same
lookup.
"""
with self.assertNumQueries(3):
books = Book.objects.filter(title__in=["book1", "book2"],).prefetch_related(
Prefetch(
"first_time_authors",
Author.objects.prefetch_related(
Prefetch(
"addresses",
AuthorAddress.objects.filter(address="Happy place"),
)
),
),
)
book1, book2 = list(books)
with self.assertNumQueries(0):
self.assertSequenceEqual(
book1.first_time_authors.all(), [self.author11, self.author12]
)
self.assertSequenceEqual(book2.first_time_authors.all(), [self.author21])
self.assertSequenceEqual(
book1.first_time_authors.all()[0].addresses.all(),
[self.author1_address1],
)
self.assertSequenceEqual(
book1.first_time_authors.all()[1].addresses.all(), []
)
self.assertSequenceEqual(
book2.first_time_authors.all()[0].addresses.all(),
[self.author2_address1],
)
self.assertEqual(
list(book1.first_time_authors.all()),
list(book1.first_time_authors.all().all()),
)
self.assertEqual(
list(book2.first_time_authors.all()),
list(book2.first_time_authors.all().all()),
)
self.assertEqual(
list(book1.first_time_authors.all()[0].addresses.all()),
list(book1.first_time_authors.all()[0].addresses.all().all()),
)
self.assertEqual(
list(book1.first_time_authors.all()[1].addresses.all()),
list(book1.first_time_authors.all()[1].addresses.all().all()),
)
self.assertEqual(
list(book2.first_time_authors.all()[0].addresses.all()),
list(book2.first_time_authors.all()[0].addresses.all().all()),
)
def test_detect_is_fetched_with_to_attr(self):
with self.assertNumQueries(3):
books = Book.objects.filter(title__in=["book1", "book2"],).prefetch_related(
Prefetch(
"first_time_authors",
Author.objects.prefetch_related(
Prefetch(
"addresses",
AuthorAddress.objects.filter(address="Happy place"),
to_attr="happy_place",
)
),
to_attr="first_authors",
),
)
book1, book2 = list(books)
with self.assertNumQueries(0):
self.assertEqual(book1.first_authors, [self.author11, self.author12])
self.assertEqual(book2.first_authors, [self.author21])
self.assertEqual(
book1.first_authors[0].happy_place, [self.author1_address1]
)
self.assertEqual(book1.first_authors[1].happy_place, [])
self.assertEqual(
book2.first_authors[0].happy_place, [self.author2_address1]
)
def test_prefetch_reverse_foreign_key(self):
with self.assertNumQueries(2):
(bookwithyear1,) = BookWithYear.objects.prefetch_related("bookreview_set")
with self.assertNumQueries(0):
self.assertCountEqual(
bookwithyear1.bookreview_set.all(), [self.bookreview1]
)
with self.assertNumQueries(0):
prefetch_related_objects([bookwithyear1], "bookreview_set")
def test_add_clears_prefetched_objects(self):
bookwithyear = BookWithYear.objects.get(pk=self.bookwithyear1.pk)
prefetch_related_objects([bookwithyear], "bookreview_set")
self.assertCountEqual(bookwithyear.bookreview_set.all(), [self.bookreview1])
new_review = BookReview.objects.create()
bookwithyear.bookreview_set.add(new_review)
self.assertCountEqual(
bookwithyear.bookreview_set.all(), [self.bookreview1, new_review]
)
def test_remove_clears_prefetched_objects(self):
bookwithyear = BookWithYear.objects.get(pk=self.bookwithyear1.pk)
prefetch_related_objects([bookwithyear], "bookreview_set")
self.assertCountEqual(bookwithyear.bookreview_set.all(), [self.bookreview1])
bookwithyear.bookreview_set.remove(self.bookreview1)
self.assertCountEqual(bookwithyear.bookreview_set.all(), [])
class ReadPrefetchedObjectsCacheTests(TestCase):
@classmethod
def setUpTestData(cls):
cls.book1 = Book.objects.create(title="Les confessions Volume I")
cls.book2 = Book.objects.create(title="Candide")
cls.author1 = AuthorWithAge.objects.create(
name="Rousseau", first_book=cls.book1, age=70
)
cls.author2 = AuthorWithAge.objects.create(
name="Voltaire", first_book=cls.book2, age=65
)
cls.book1.authors.add(cls.author1)
cls.book2.authors.add(cls.author2)
FavoriteAuthors.objects.create(author=cls.author1, likes_author=cls.author2)
def test_retrieves_results_from_prefetched_objects_cache(self):
"""
When intermediary results are prefetched without a destination
attribute, they are saved in the RelatedManager's cache
(_prefetched_objects_cache). prefetch_related() uses this cache
(#27554).
"""
authors = AuthorWithAge.objects.prefetch_related(
Prefetch(
"author",
queryset=Author.objects.prefetch_related(
# Results are saved in the RelatedManager's cache
# (_prefetched_objects_cache) and do not replace the
# RelatedManager on Author instances (favorite_authors)
Prefetch("favorite_authors__first_book"),
),
),
)
with self.assertNumQueries(4):
# AuthorWithAge -> Author -> FavoriteAuthors, Book
self.assertSequenceEqual(authors, [self.author1, self.author2])
class NestedPrefetchTests(TestCase):
@classmethod
def setUpTestData(cls):
house = House.objects.create(name="Big house", address="123 Main St")
cls.room = Room.objects.create(name="Kitchen", house=house)
def test_nested_prefetch_is_not_overwritten_by_related_object(self):
"""
The prefetched relationship is used rather than populating the reverse
relationship from the parent, when prefetching a set of child objects
related to a set of parent objects and the child queryset itself
specifies a prefetch back to the parent.
"""
queryset = House.objects.only("name").prefetch_related(
Prefetch(
"rooms",
queryset=Room.objects.prefetch_related(
Prefetch("house", queryset=House.objects.only("address")),
),
),
)
with self.assertNumQueries(3):
house = queryset.first()
self.assertIs(Room.house.is_cached(self.room), True)
with self.assertNumQueries(0):
house.rooms.first().house.address
|
6310ccfb5eeaac33cee2bf1cc380548fc071a3883c8b02b785670ffb1432422f | import uuid
from django.contrib.contenttypes.fields import GenericForeignKey, GenericRelation
from django.contrib.contenttypes.models import ContentType
from django.db import models
from django.db.models.query import ModelIterable
from django.utils.functional import cached_property
class Author(models.Model):
name = models.CharField(max_length=50, unique=True)
first_book = models.ForeignKey(
"Book", models.CASCADE, related_name="first_time_authors"
)
favorite_authors = models.ManyToManyField(
"self", through="FavoriteAuthors", symmetrical=False, related_name="favors_me"
)
class Meta:
ordering = ["id"]
def __str__(self):
return self.name
class AuthorWithAge(Author):
author = models.OneToOneField(Author, models.CASCADE, parent_link=True)
age = models.IntegerField()
class FavoriteAuthors(models.Model):
author = models.ForeignKey(
Author, models.CASCADE, to_field="name", related_name="i_like"
)
likes_author = models.ForeignKey(
Author, models.CASCADE, to_field="name", related_name="likes_me"
)
class Meta:
ordering = ["id"]
class AuthorAddress(models.Model):
author = models.ForeignKey(
Author, models.CASCADE, to_field="name", related_name="addresses"
)
address = models.TextField()
class Meta:
ordering = ["id"]
class Book(models.Model):
title = models.CharField(max_length=255)
authors = models.ManyToManyField(Author, related_name="books")
class Meta:
ordering = ["id"]
class BookWithYear(Book):
book = models.OneToOneField(Book, models.CASCADE, parent_link=True)
published_year = models.IntegerField()
aged_authors = models.ManyToManyField(AuthorWithAge, related_name="books_with_year")
class Bio(models.Model):
author = models.OneToOneField(
Author,
models.CASCADE,
primary_key=True,
to_field="name",
)
books = models.ManyToManyField(Book, blank=True)
class Reader(models.Model):
name = models.CharField(max_length=50)
books_read = models.ManyToManyField(Book, related_name="read_by")
class Meta:
ordering = ["id"]
def __str__(self):
return self.name
class BookReview(models.Model):
# Intentionally does not have a related name.
book = models.ForeignKey(BookWithYear, models.CASCADE, null=True)
notes = models.TextField(null=True, blank=True)
# Models for default manager tests
class Qualification(models.Model):
name = models.CharField(max_length=10)
class Meta:
ordering = ["id"]
class ModelIterableSubclass(ModelIterable):
pass
class TeacherQuerySet(models.QuerySet):
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self._iterable_class = ModelIterableSubclass
class TeacherManager(models.Manager):
def get_queryset(self):
return super().get_queryset().prefetch_related("qualifications")
class Teacher(models.Model):
name = models.CharField(max_length=50)
qualifications = models.ManyToManyField(Qualification)
objects = TeacherManager()
objects_custom = TeacherQuerySet.as_manager()
class Meta:
ordering = ["id"]
def __str__(self):
return "%s (%s)" % (
self.name,
", ".join(q.name for q in self.qualifications.all()),
)
class Department(models.Model):
name = models.CharField(max_length=50)
teachers = models.ManyToManyField(Teacher)
class Meta:
ordering = ["id"]
# GenericRelation/GenericForeignKey tests
class TaggedItem(models.Model):
tag = models.SlugField()
content_type = models.ForeignKey(
ContentType,
models.CASCADE,
related_name="taggeditem_set2",
)
object_id = models.PositiveIntegerField()
content_object = GenericForeignKey("content_type", "object_id")
created_by_ct = models.ForeignKey(
ContentType,
models.SET_NULL,
null=True,
related_name="taggeditem_set3",
)
created_by_fkey = models.PositiveIntegerField(null=True)
created_by = GenericForeignKey(
"created_by_ct",
"created_by_fkey",
)
favorite_ct = models.ForeignKey(
ContentType,
models.SET_NULL,
null=True,
related_name="taggeditem_set4",
)
favorite_fkey = models.CharField(max_length=64, null=True)
favorite = GenericForeignKey("favorite_ct", "favorite_fkey")
class Meta:
ordering = ["id"]
class Article(models.Model):
id = models.UUIDField(primary_key=True, default=uuid.uuid4, editable=False)
name = models.CharField(max_length=20)
class Bookmark(models.Model):
url = models.URLField()
tags = GenericRelation(TaggedItem, related_query_name="bookmarks")
favorite_tags = GenericRelation(
TaggedItem,
content_type_field="favorite_ct",
object_id_field="favorite_fkey",
related_query_name="favorite_bookmarks",
)
class Meta:
ordering = ["id"]
class Comment(models.Model):
comment = models.TextField()
# Content-object field
content_type = models.ForeignKey(ContentType, models.CASCADE, null=True)
object_pk = models.TextField()
content_object = GenericForeignKey(ct_field="content_type", fk_field="object_pk")
content_type_uuid = models.ForeignKey(
ContentType, models.CASCADE, related_name="comments", null=True
)
object_pk_uuid = models.TextField()
content_object_uuid = GenericForeignKey(
ct_field="content_type_uuid", fk_field="object_pk_uuid"
)
class Meta:
ordering = ["id"]
# Models for lookup ordering tests
class House(models.Model):
name = models.CharField(max_length=50)
address = models.CharField(max_length=255)
owner = models.ForeignKey("Person", models.SET_NULL, null=True)
main_room = models.OneToOneField(
"Room", models.SET_NULL, related_name="main_room_of", null=True
)
class Meta:
ordering = ["id"]
class Room(models.Model):
name = models.CharField(max_length=50)
house = models.ForeignKey(House, models.CASCADE, related_name="rooms")
class Meta:
ordering = ["id"]
class Person(models.Model):
name = models.CharField(max_length=50)
houses = models.ManyToManyField(House, related_name="occupants")
@property
def primary_house(self):
# Assume business logic forces every person to have at least one house.
return sorted(self.houses.all(), key=lambda house: -house.rooms.count())[0]
@property
def all_houses(self):
return list(self.houses.all())
@cached_property
def cached_all_houses(self):
return self.all_houses
class Meta:
ordering = ["id"]
# Models for nullable FK tests
class Employee(models.Model):
name = models.CharField(max_length=50)
boss = models.ForeignKey("self", models.SET_NULL, null=True, related_name="serfs")
class Meta:
ordering = ["id"]
# Ticket #19607
class LessonEntry(models.Model):
name1 = models.CharField(max_length=200)
name2 = models.CharField(max_length=200)
class WordEntry(models.Model):
lesson_entry = models.ForeignKey(LessonEntry, models.CASCADE)
name = models.CharField(max_length=200)
# Ticket #21410: Regression when related_name="+"
class Author2(models.Model):
name = models.CharField(max_length=50, unique=True)
first_book = models.ForeignKey(
"Book", models.CASCADE, related_name="first_time_authors+"
)
favorite_books = models.ManyToManyField("Book", related_name="+")
class Meta:
ordering = ["id"]
# Models for many-to-many with UUID pk test:
class Pet(models.Model):
id = models.UUIDField(primary_key=True, default=uuid.uuid4, editable=False)
name = models.CharField(max_length=20)
people = models.ManyToManyField(Person, related_name="pets")
class Flea(models.Model):
id = models.UUIDField(primary_key=True, default=uuid.uuid4, editable=False)
current_room = models.ForeignKey(
Room, models.SET_NULL, related_name="fleas", null=True
)
pets_visited = models.ManyToManyField(Pet, related_name="fleas_hosted")
people_visited = models.ManyToManyField(Person, related_name="fleas_hosted")
|
081deb81e72b0370b2ed193755a9b2a86da47e1d4ab0f199b20eba81ca4aa3ad | from django.test import TestCase
from .models import Flea, House, Person, Pet, Room
class UUIDPrefetchRelated(TestCase):
def test_prefetch_related_from_uuid_model(self):
Pet.objects.create(name="Fifi").people.add(
Person.objects.create(name="Ellen"),
Person.objects.create(name="George"),
)
with self.assertNumQueries(2):
pet = Pet.objects.prefetch_related("people").get(name="Fifi")
with self.assertNumQueries(0):
self.assertEqual(2, len(pet.people.all()))
def test_prefetch_related_to_uuid_model(self):
Person.objects.create(name="Bella").pets.add(
Pet.objects.create(name="Socks"),
Pet.objects.create(name="Coffee"),
)
with self.assertNumQueries(2):
person = Person.objects.prefetch_related("pets").get(name="Bella")
with self.assertNumQueries(0):
self.assertEqual(2, len(person.pets.all()))
def test_prefetch_related_from_uuid_model_to_uuid_model(self):
fleas = [Flea.objects.create() for i in range(3)]
Pet.objects.create(name="Fifi").fleas_hosted.add(*fleas)
Pet.objects.create(name="Bobo").fleas_hosted.add(*fleas)
with self.assertNumQueries(2):
pet = Pet.objects.prefetch_related("fleas_hosted").get(name="Fifi")
with self.assertNumQueries(0):
self.assertEqual(3, len(pet.fleas_hosted.all()))
with self.assertNumQueries(2):
flea = Flea.objects.prefetch_related("pets_visited").get(pk=fleas[0].pk)
with self.assertNumQueries(0):
self.assertEqual(2, len(flea.pets_visited.all()))
def test_prefetch_related_from_uuid_model_to_uuid_model_with_values_flat(self):
pet = Pet.objects.create(name="Fifi")
pet.people.add(
Person.objects.create(name="Ellen"),
Person.objects.create(name="George"),
)
self.assertSequenceEqual(
Pet.objects.prefetch_related("fleas_hosted").values_list("id", flat=True),
[pet.id],
)
class UUIDPrefetchRelatedLookups(TestCase):
@classmethod
def setUpTestData(cls):
house = House.objects.create(name="Redwood", address="Arcata")
room = Room.objects.create(name="Racoon", house=house)
fleas = [Flea.objects.create(current_room=room) for i in range(3)]
pet = Pet.objects.create(name="Spooky")
pet.fleas_hosted.add(*fleas)
person = Person.objects.create(name="Bob")
person.houses.add(house)
person.pets.add(pet)
person.fleas_hosted.add(*fleas)
def test_from_uuid_pk_lookup_uuid_pk_integer_pk(self):
# From uuid-pk model, prefetch <uuid-pk model>.<integer-pk model>:
with self.assertNumQueries(4):
spooky = Pet.objects.prefetch_related(
"fleas_hosted__current_room__house"
).get(name="Spooky")
with self.assertNumQueries(0):
self.assertEqual("Racoon", spooky.fleas_hosted.all()[0].current_room.name)
def test_from_uuid_pk_lookup_integer_pk2_uuid_pk2(self):
# From uuid-pk model, prefetch
# <integer-pk model>.<integer-pk model>.<uuid-pk model>.<uuid-pk model>:
with self.assertNumQueries(5):
spooky = Pet.objects.prefetch_related("people__houses__rooms__fleas").get(
name="Spooky"
)
with self.assertNumQueries(0):
self.assertEqual(
3,
len(spooky.people.all()[0].houses.all()[0].rooms.all()[0].fleas.all()),
)
def test_from_integer_pk_lookup_uuid_pk_integer_pk(self):
# From integer-pk model, prefetch <uuid-pk model>.<integer-pk model>:
with self.assertNumQueries(3):
racoon = Room.objects.prefetch_related("fleas__people_visited").get(
name="Racoon"
)
with self.assertNumQueries(0):
self.assertEqual("Bob", racoon.fleas.all()[0].people_visited.all()[0].name)
def test_from_integer_pk_lookup_integer_pk_uuid_pk(self):
# From integer-pk model, prefetch <integer-pk model>.<uuid-pk model>:
with self.assertNumQueries(3):
redwood = House.objects.prefetch_related("rooms__fleas").get(name="Redwood")
with self.assertNumQueries(0):
self.assertEqual(3, len(redwood.rooms.all()[0].fleas.all()))
def test_from_integer_pk_lookup_integer_pk_uuid_pk_uuid_pk(self):
# From integer-pk model, prefetch
# <integer-pk model>.<uuid-pk model>.<uuid-pk model>:
with self.assertNumQueries(4):
redwood = House.objects.prefetch_related("rooms__fleas__pets_visited").get(
name="Redwood"
)
with self.assertNumQueries(0):
self.assertEqual(
"Spooky",
redwood.rooms.all()[0].fleas.all()[0].pets_visited.all()[0].name,
)
|
912ddb2b9d1ccda8f525ddc059fa488d16e596d1b3a139a2c2a7e2ead2486ca4 | from django.db.models import Prefetch, prefetch_related_objects
from django.test import TestCase
from .models import Author, Book, Reader
class PrefetchRelatedObjectsTests(TestCase):
"""
Since prefetch_related_objects() is just the inner part of
prefetch_related(), only do basic tests to ensure its API hasn't changed.
"""
@classmethod
def setUpTestData(cls):
cls.book1 = Book.objects.create(title="Poems")
cls.book2 = Book.objects.create(title="Jane Eyre")
cls.book3 = Book.objects.create(title="Wuthering Heights")
cls.book4 = Book.objects.create(title="Sense and Sensibility")
cls.author1 = Author.objects.create(name="Charlotte", first_book=cls.book1)
cls.author2 = Author.objects.create(name="Anne", first_book=cls.book1)
cls.author3 = Author.objects.create(name="Emily", first_book=cls.book1)
cls.author4 = Author.objects.create(name="Jane", first_book=cls.book4)
cls.book1.authors.add(cls.author1, cls.author2, cls.author3)
cls.book2.authors.add(cls.author1)
cls.book3.authors.add(cls.author3)
cls.book4.authors.add(cls.author4)
cls.reader1 = Reader.objects.create(name="Amy")
cls.reader2 = Reader.objects.create(name="Belinda")
cls.reader1.books_read.add(cls.book1, cls.book4)
cls.reader2.books_read.add(cls.book2, cls.book4)
def test_unknown(self):
book1 = Book.objects.get(id=self.book1.id)
with self.assertRaises(AttributeError):
prefetch_related_objects([book1], "unknown_attribute")
def test_m2m_forward(self):
book1 = Book.objects.get(id=self.book1.id)
with self.assertNumQueries(1):
prefetch_related_objects([book1], "authors")
with self.assertNumQueries(0):
self.assertCountEqual(
book1.authors.all(), [self.author1, self.author2, self.author3]
)
def test_m2m_reverse(self):
author1 = Author.objects.get(id=self.author1.id)
with self.assertNumQueries(1):
prefetch_related_objects([author1], "books")
with self.assertNumQueries(0):
self.assertCountEqual(author1.books.all(), [self.book1, self.book2])
def test_foreignkey_forward(self):
authors = list(Author.objects.all())
with self.assertNumQueries(1):
prefetch_related_objects(authors, "first_book")
with self.assertNumQueries(0):
[author.first_book for author in authors]
def test_foreignkey_reverse(self):
books = list(Book.objects.all())
with self.assertNumQueries(1):
prefetch_related_objects(books, "first_time_authors")
with self.assertNumQueries(0):
[list(book.first_time_authors.all()) for book in books]
def test_m2m_then_m2m(self):
"""A m2m can be followed through another m2m."""
authors = list(Author.objects.all())
with self.assertNumQueries(2):
prefetch_related_objects(authors, "books__read_by")
with self.assertNumQueries(0):
self.assertEqual(
[
[[str(r) for r in b.read_by.all()] for b in a.books.all()]
for a in authors
],
[
[["Amy"], ["Belinda"]], # Charlotte - Poems, Jane Eyre
[["Amy"]], # Anne - Poems
[["Amy"], []], # Emily - Poems, Wuthering Heights
[["Amy", "Belinda"]], # Jane - Sense and Sense
],
)
def test_prefetch_object(self):
book1 = Book.objects.get(id=self.book1.id)
with self.assertNumQueries(1):
prefetch_related_objects([book1], Prefetch("authors"))
with self.assertNumQueries(0):
self.assertCountEqual(
book1.authors.all(), [self.author1, self.author2, self.author3]
)
def test_prefetch_object_twice(self):
book1 = Book.objects.get(id=self.book1.id)
book2 = Book.objects.get(id=self.book2.id)
with self.assertNumQueries(1):
prefetch_related_objects([book1], Prefetch("authors"))
with self.assertNumQueries(1):
prefetch_related_objects([book1, book2], Prefetch("authors"))
with self.assertNumQueries(0):
self.assertCountEqual(book2.authors.all(), [self.author1])
def test_prefetch_object_to_attr(self):
book1 = Book.objects.get(id=self.book1.id)
with self.assertNumQueries(1):
prefetch_related_objects(
[book1], Prefetch("authors", to_attr="the_authors")
)
with self.assertNumQueries(0):
self.assertCountEqual(
book1.the_authors, [self.author1, self.author2, self.author3]
)
def test_prefetch_object_to_attr_twice(self):
book1 = Book.objects.get(id=self.book1.id)
book2 = Book.objects.get(id=self.book2.id)
with self.assertNumQueries(1):
prefetch_related_objects(
[book1],
Prefetch("authors", to_attr="the_authors"),
)
with self.assertNumQueries(1):
prefetch_related_objects(
[book1, book2],
Prefetch("authors", to_attr="the_authors"),
)
with self.assertNumQueries(0):
self.assertCountEqual(book2.the_authors, [self.author1])
def test_prefetch_queryset(self):
book1 = Book.objects.get(id=self.book1.id)
with self.assertNumQueries(1):
prefetch_related_objects(
[book1],
Prefetch(
"authors",
queryset=Author.objects.filter(
id__in=[self.author1.id, self.author2.id]
),
),
)
with self.assertNumQueries(0):
self.assertCountEqual(book1.authors.all(), [self.author1, self.author2])
|
b61c9977c311c7010e66a9fa9db349e6d1cfdbbb3a96560a00e65635e026cb8e | from django.db.models import CharField
from django.db.models import Value as V
from django.db.models.functions import Coalesce, Length, Upper
from django.test import TestCase
from django.test.utils import register_lookup
from .models import Author
class UpperBilateral(Upper):
bilateral = True
class FunctionTests(TestCase):
def test_nested_function_ordering(self):
Author.objects.create(name="John Smith")
Author.objects.create(name="Rhonda Simpson", alias="ronny")
authors = Author.objects.order_by(Length(Coalesce("alias", "name")))
self.assertQuerysetEqual(
authors,
[
"Rhonda Simpson",
"John Smith",
],
lambda a: a.name,
)
authors = Author.objects.order_by(Length(Coalesce("alias", "name")).desc())
self.assertQuerysetEqual(
authors,
[
"John Smith",
"Rhonda Simpson",
],
lambda a: a.name,
)
def test_func_transform_bilateral(self):
with register_lookup(CharField, UpperBilateral):
Author.objects.create(name="John Smith", alias="smithj")
Author.objects.create(name="Rhonda")
authors = Author.objects.filter(name__upper__exact="john smith")
self.assertQuerysetEqual(
authors.order_by("name"),
[
"John Smith",
],
lambda a: a.name,
)
def test_func_transform_bilateral_multivalue(self):
with register_lookup(CharField, UpperBilateral):
Author.objects.create(name="John Smith", alias="smithj")
Author.objects.create(name="Rhonda")
authors = Author.objects.filter(name__upper__in=["john smith", "rhonda"])
self.assertQuerysetEqual(
authors.order_by("name"),
[
"John Smith",
"Rhonda",
],
lambda a: a.name,
)
def test_function_as_filter(self):
Author.objects.create(name="John Smith", alias="SMITHJ")
Author.objects.create(name="Rhonda")
self.assertQuerysetEqual(
Author.objects.filter(alias=Upper(V("smithj"))),
["John Smith"],
lambda x: x.name,
)
self.assertQuerysetEqual(
Author.objects.exclude(alias=Upper(V("smithj"))),
["Rhonda"],
lambda x: x.name,
)
|
67a349b2c0511590329bfed3803dd9d96f111ee3eb5082d9a8ff356414465e67 | """
Tests for built in Function expressions.
"""
from django.db import models
class Author(models.Model):
name = models.CharField(max_length=50)
alias = models.CharField(max_length=50, null=True, blank=True)
goes_by = models.CharField(max_length=50, null=True, blank=True)
age = models.PositiveSmallIntegerField(default=30)
class Article(models.Model):
authors = models.ManyToManyField(Author, related_name="articles")
title = models.CharField(max_length=50)
summary = models.CharField(max_length=200, null=True, blank=True)
text = models.TextField()
written = models.DateTimeField()
published = models.DateTimeField(null=True, blank=True)
updated = models.DateTimeField(null=True, blank=True)
views = models.PositiveIntegerField(default=0)
class Fan(models.Model):
name = models.CharField(max_length=50)
age = models.PositiveSmallIntegerField(default=30)
author = models.ForeignKey(Author, models.CASCADE, related_name="fans")
fan_since = models.DateTimeField(null=True, blank=True)
class DTModel(models.Model):
name = models.CharField(max_length=32)
start_datetime = models.DateTimeField(null=True, blank=True)
end_datetime = models.DateTimeField(null=True, blank=True)
start_date = models.DateField(null=True, blank=True)
end_date = models.DateField(null=True, blank=True)
start_time = models.TimeField(null=True, blank=True)
end_time = models.TimeField(null=True, blank=True)
duration = models.DurationField(null=True, blank=True)
class DecimalModel(models.Model):
n1 = models.DecimalField(decimal_places=2, max_digits=6)
n2 = models.DecimalField(decimal_places=7, max_digits=9, null=True, blank=True)
class IntegerModel(models.Model):
big = models.BigIntegerField(null=True, blank=True)
normal = models.IntegerField(null=True, blank=True)
small = models.SmallIntegerField(null=True, blank=True)
class FloatModel(models.Model):
f1 = models.FloatField(null=True, blank=True)
f2 = models.FloatField(null=True, blank=True)
|
95cf0d0e1887838b037021a0ea54f5058fe940a3e96b539a6cbeb7907a444f78 | from django.db import DatabaseError, connection
from django.db.models import Index
from django.test import TransactionTestCase, skipUnlessDBFeature
from .models import (
Article,
ArticleReporter,
CheckConstraintModel,
City,
Comment,
Country,
District,
Reporter,
UniqueConstraintConditionModel,
)
class IntrospectionTests(TransactionTestCase):
available_apps = ["introspection"]
def test_table_names(self):
tl = connection.introspection.table_names()
self.assertEqual(tl, sorted(tl))
self.assertIn(
Reporter._meta.db_table,
tl,
"'%s' isn't in table_list()." % Reporter._meta.db_table,
)
self.assertIn(
Article._meta.db_table,
tl,
"'%s' isn't in table_list()." % Article._meta.db_table,
)
def test_django_table_names(self):
with connection.cursor() as cursor:
cursor.execute("CREATE TABLE django_ixn_test_table (id INTEGER);")
tl = connection.introspection.django_table_names()
cursor.execute("DROP TABLE django_ixn_test_table;")
self.assertNotIn(
"django_ixn_test_table",
tl,
"django_table_names() returned a non-Django table",
)
def test_django_table_names_retval_type(self):
# Table name is a list #15216
tl = connection.introspection.django_table_names(only_existing=True)
self.assertIs(type(tl), list)
tl = connection.introspection.django_table_names(only_existing=False)
self.assertIs(type(tl), list)
def test_table_names_with_views(self):
with connection.cursor() as cursor:
try:
cursor.execute(
"CREATE VIEW introspection_article_view AS SELECT headline "
"from introspection_article;"
)
except DatabaseError as e:
if "insufficient privileges" in str(e):
self.fail("The test user has no CREATE VIEW privileges")
else:
raise
try:
self.assertIn(
"introspection_article_view",
connection.introspection.table_names(include_views=True),
)
self.assertNotIn(
"introspection_article_view", connection.introspection.table_names()
)
finally:
with connection.cursor() as cursor:
cursor.execute("DROP VIEW introspection_article_view")
def test_unmanaged_through_model(self):
tables = connection.introspection.django_table_names()
self.assertNotIn(ArticleReporter._meta.db_table, tables)
def test_installed_models(self):
tables = [Article._meta.db_table, Reporter._meta.db_table]
models = connection.introspection.installed_models(tables)
self.assertEqual(models, {Article, Reporter})
def test_sequence_list(self):
sequences = connection.introspection.sequence_list()
reporter_seqs = [
seq for seq in sequences if seq["table"] == Reporter._meta.db_table
]
self.assertEqual(
len(reporter_seqs), 1, "Reporter sequence not found in sequence_list()"
)
self.assertEqual(reporter_seqs[0]["column"], "id")
def test_get_table_description_names(self):
with connection.cursor() as cursor:
desc = connection.introspection.get_table_description(
cursor, Reporter._meta.db_table
)
self.assertEqual(
[r[0] for r in desc], [f.column for f in Reporter._meta.fields]
)
def test_get_table_description_types(self):
with connection.cursor() as cursor:
desc = connection.introspection.get_table_description(
cursor, Reporter._meta.db_table
)
self.assertEqual(
[connection.introspection.get_field_type(r[1], r) for r in desc],
[
connection.features.introspected_field_types[field]
for field in (
"AutoField",
"CharField",
"CharField",
"CharField",
"BigIntegerField",
"BinaryField",
"SmallIntegerField",
"DurationField",
)
],
)
def test_get_table_description_col_lengths(self):
with connection.cursor() as cursor:
desc = connection.introspection.get_table_description(
cursor, Reporter._meta.db_table
)
self.assertEqual(
[
r[3]
for r in desc
if connection.introspection.get_field_type(r[1], r) == "CharField"
],
[30, 30, 254],
)
def test_get_table_description_nullable(self):
with connection.cursor() as cursor:
desc = connection.introspection.get_table_description(
cursor, Reporter._meta.db_table
)
nullable_by_backend = connection.features.interprets_empty_strings_as_nulls
self.assertEqual(
[r[6] for r in desc],
[
False,
nullable_by_backend,
nullable_by_backend,
nullable_by_backend,
True,
True,
False,
False,
],
)
def test_bigautofield(self):
with connection.cursor() as cursor:
desc = connection.introspection.get_table_description(
cursor, City._meta.db_table
)
self.assertIn(
connection.features.introspected_field_types["BigAutoField"],
[connection.introspection.get_field_type(r[1], r) for r in desc],
)
def test_smallautofield(self):
with connection.cursor() as cursor:
desc = connection.introspection.get_table_description(
cursor, Country._meta.db_table
)
self.assertIn(
connection.features.introspected_field_types["SmallAutoField"],
[connection.introspection.get_field_type(r[1], r) for r in desc],
)
# Regression test for #9991 - 'real' types in postgres
@skipUnlessDBFeature("has_real_datatype")
def test_postgresql_real_type(self):
with connection.cursor() as cursor:
cursor.execute("CREATE TABLE django_ixn_real_test_table (number REAL);")
desc = connection.introspection.get_table_description(
cursor, "django_ixn_real_test_table"
)
cursor.execute("DROP TABLE django_ixn_real_test_table;")
self.assertEqual(
connection.introspection.get_field_type(desc[0][1], desc[0]), "FloatField"
)
@skipUnlessDBFeature("can_introspect_foreign_keys")
def test_get_relations(self):
with connection.cursor() as cursor:
relations = connection.introspection.get_relations(
cursor, Article._meta.db_table
)
# That's {field_name: (field_name_other_table, other_table)}
expected_relations = {
"reporter_id": ("id", Reporter._meta.db_table),
"response_to_id": ("id", Article._meta.db_table),
}
self.assertEqual(relations, expected_relations)
# Removing a field shouldn't disturb get_relations (#17785)
body = Article._meta.get_field("body")
with connection.schema_editor() as editor:
editor.remove_field(Article, body)
with connection.cursor() as cursor:
relations = connection.introspection.get_relations(
cursor, Article._meta.db_table
)
with connection.schema_editor() as editor:
editor.add_field(Article, body)
self.assertEqual(relations, expected_relations)
def test_get_primary_key_column(self):
with connection.cursor() as cursor:
primary_key_column = connection.introspection.get_primary_key_column(
cursor, Article._meta.db_table
)
pk_fk_column = connection.introspection.get_primary_key_column(
cursor, District._meta.db_table
)
self.assertEqual(primary_key_column, "id")
self.assertEqual(pk_fk_column, "city_id")
def test_get_constraints_index_types(self):
with connection.cursor() as cursor:
constraints = connection.introspection.get_constraints(
cursor, Article._meta.db_table
)
index = {}
index2 = {}
for val in constraints.values():
if val["columns"] == ["headline", "pub_date"]:
index = val
if val["columns"] == [
"headline",
"response_to_id",
"pub_date",
"reporter_id",
]:
index2 = val
self.assertEqual(index["type"], Index.suffix)
self.assertEqual(index2["type"], Index.suffix)
@skipUnlessDBFeature("supports_index_column_ordering")
def test_get_constraints_indexes_orders(self):
"""
Indexes have the 'orders' key with a list of 'ASC'/'DESC' values.
"""
with connection.cursor() as cursor:
constraints = connection.introspection.get_constraints(
cursor, Article._meta.db_table
)
indexes_verified = 0
expected_columns = [
["headline", "pub_date"],
["headline", "response_to_id", "pub_date", "reporter_id"],
]
if connection.features.indexes_foreign_keys:
expected_columns += [
["reporter_id"],
["response_to_id"],
]
for val in constraints.values():
if val["index"] and not (val["primary_key"] or val["unique"]):
self.assertIn(val["columns"], expected_columns)
self.assertEqual(val["orders"], ["ASC"] * len(val["columns"]))
indexes_verified += 1
self.assertEqual(indexes_verified, len(expected_columns))
@skipUnlessDBFeature("supports_index_column_ordering", "supports_partial_indexes")
def test_get_constraints_unique_indexes_orders(self):
with connection.cursor() as cursor:
constraints = connection.introspection.get_constraints(
cursor,
UniqueConstraintConditionModel._meta.db_table,
)
self.assertIn("cond_name_without_color_uniq", constraints)
constraint = constraints["cond_name_without_color_uniq"]
self.assertIs(constraint["unique"], True)
self.assertEqual(constraint["columns"], ["name"])
self.assertEqual(constraint["orders"], ["ASC"])
def test_get_constraints(self):
def assertDetails(
details,
cols,
primary_key=False,
unique=False,
index=False,
check=False,
foreign_key=None,
):
# Different backends have different values for same constraints:
# PRIMARY KEY UNIQUE CONSTRAINT UNIQUE INDEX
# MySQL pk=1 uniq=1 idx=1 pk=0 uniq=1 idx=1 pk=0 uniq=1 idx=1
# PostgreSQL pk=1 uniq=1 idx=0 pk=0 uniq=1 idx=0 pk=0 uniq=1 idx=1
# SQLite pk=1 uniq=0 idx=0 pk=0 uniq=1 idx=0 pk=0 uniq=1 idx=1
if details["primary_key"]:
details["unique"] = True
if details["unique"]:
details["index"] = False
self.assertEqual(details["columns"], cols)
self.assertEqual(details["primary_key"], primary_key)
self.assertEqual(details["unique"], unique)
self.assertEqual(details["index"], index)
self.assertEqual(details["check"], check)
self.assertEqual(details["foreign_key"], foreign_key)
# Test custom constraints
custom_constraints = {
"article_email_pub_date_uniq",
"email_pub_date_idx",
}
with connection.cursor() as cursor:
constraints = connection.introspection.get_constraints(
cursor, Comment._meta.db_table
)
if (
connection.features.supports_column_check_constraints
and connection.features.can_introspect_check_constraints
):
constraints.update(
connection.introspection.get_constraints(
cursor, CheckConstraintModel._meta.db_table
)
)
custom_constraints.add("up_votes_gte_0_check")
assertDetails(
constraints["up_votes_gte_0_check"], ["up_votes"], check=True
)
assertDetails(
constraints["article_email_pub_date_uniq"],
["article_id", "email", "pub_date"],
unique=True,
)
assertDetails(
constraints["email_pub_date_idx"], ["email", "pub_date"], index=True
)
# Test field constraints
field_constraints = set()
for name, details in constraints.items():
if name in custom_constraints:
continue
elif details["columns"] == ["up_votes"] and details["check"]:
assertDetails(details, ["up_votes"], check=True)
field_constraints.add(name)
elif details["columns"] == ["voting_number"] and details["check"]:
assertDetails(details, ["voting_number"], check=True)
field_constraints.add(name)
elif details["columns"] == ["ref"] and details["unique"]:
assertDetails(details, ["ref"], unique=True)
field_constraints.add(name)
elif details["columns"] == ["voting_number"] and details["unique"]:
assertDetails(details, ["voting_number"], unique=True)
field_constraints.add(name)
elif details["columns"] == ["article_id"] and details["index"]:
assertDetails(details, ["article_id"], index=True)
field_constraints.add(name)
elif details["columns"] == ["id"] and details["primary_key"]:
assertDetails(details, ["id"], primary_key=True, unique=True)
field_constraints.add(name)
elif details["columns"] == ["article_id"] and details["foreign_key"]:
assertDetails(
details, ["article_id"], foreign_key=("introspection_article", "id")
)
field_constraints.add(name)
elif details["check"]:
# Some databases (e.g. Oracle) include additional check
# constraints.
field_constraints.add(name)
# All constraints are accounted for.
self.assertEqual(
constraints.keys() ^ (custom_constraints | field_constraints), set()
)
|
23c8c620baf7d2adbeffcec13da3b46ee7adeddfe4f28d0a3bd573e62d94308c | from django.db import models
class City(models.Model):
id = models.BigAutoField(primary_key=True)
name = models.CharField(max_length=50)
class Country(models.Model):
id = models.SmallAutoField(primary_key=True)
name = models.CharField(max_length=50)
class District(models.Model):
city = models.ForeignKey(City, models.CASCADE, primary_key=True)
name = models.CharField(max_length=50)
class Reporter(models.Model):
first_name = models.CharField(max_length=30)
last_name = models.CharField(max_length=30)
email = models.EmailField()
facebook_user_id = models.BigIntegerField(null=True)
raw_data = models.BinaryField(null=True)
small_int = models.SmallIntegerField()
interval = models.DurationField()
class Meta:
unique_together = ("first_name", "last_name")
class Article(models.Model):
headline = models.CharField(max_length=100)
pub_date = models.DateField()
body = models.TextField(default="")
reporter = models.ForeignKey(Reporter, models.CASCADE)
response_to = models.ForeignKey("self", models.SET_NULL, null=True)
unmanaged_reporters = models.ManyToManyField(
Reporter, through="ArticleReporter", related_name="+"
)
class Meta:
ordering = ("headline",)
index_together = [
["headline", "pub_date"],
["headline", "response_to", "pub_date", "reporter"],
]
class ArticleReporter(models.Model):
article = models.ForeignKey(Article, models.CASCADE)
reporter = models.ForeignKey(Reporter, models.CASCADE)
class Meta:
managed = False
class Comment(models.Model):
ref = models.UUIDField(unique=True)
article = models.ForeignKey(Article, models.CASCADE, db_index=True)
email = models.EmailField()
pub_date = models.DateTimeField()
body = models.TextField()
class Meta:
constraints = [
models.UniqueConstraint(
fields=["article", "email", "pub_date"],
name="article_email_pub_date_uniq",
),
]
indexes = [
models.Index(fields=["email", "pub_date"], name="email_pub_date_idx"),
]
class CheckConstraintModel(models.Model):
up_votes = models.PositiveIntegerField()
voting_number = models.PositiveIntegerField(unique=True)
class Meta:
required_db_features = {
"supports_table_check_constraints",
}
constraints = [
models.CheckConstraint(
name="up_votes_gte_0_check", check=models.Q(up_votes__gte=0)
),
]
class UniqueConstraintConditionModel(models.Model):
name = models.CharField(max_length=255)
color = models.CharField(max_length=32, null=True)
class Meta:
required_db_features = {"supports_partial_indexes"}
constraints = [
models.UniqueConstraint(
fields=["name"],
name="cond_name_without_color_uniq",
condition=models.Q(color__isnull=True),
),
]
|
e68dcfc4c9b277b311a78553fadc6b638f2239e6437f0bd6ff2cb3499d0a723a | import os
import re
import shutil
import tempfile
import time
import warnings
from io import StringIO
from pathlib import Path
from unittest import mock, skipIf, skipUnless
from admin_scripts.tests import AdminScriptTestCase
from django.core import management
from django.core.management import execute_from_command_line
from django.core.management.base import CommandError
from django.core.management.commands.makemessages import Command as MakeMessagesCommand
from django.core.management.commands.makemessages import write_pot_file
from django.core.management.utils import find_command
from django.test import SimpleTestCase, override_settings
from django.test.utils import captured_stderr, captured_stdout
from django.utils._os import symlinks_supported
from django.utils.translation import TranslatorCommentWarning
from .utils import POFileAssertionMixin, RunInTmpDirMixin, copytree
LOCALE = "de"
has_xgettext = find_command("xgettext")
gettext_version = MakeMessagesCommand().gettext_version if has_xgettext else None
requires_gettext_019 = skipIf(
has_xgettext and gettext_version < (0, 19), "gettext 0.19 required"
)
@skipUnless(has_xgettext, "xgettext is mandatory for extraction tests")
class ExtractorTests(POFileAssertionMixin, RunInTmpDirMixin, SimpleTestCase):
work_subdir = "commands"
PO_FILE = "locale/%s/LC_MESSAGES/django.po" % LOCALE
def _run_makemessages(self, **options):
out = StringIO()
management.call_command(
"makemessages", locale=[LOCALE], verbosity=2, stdout=out, **options
)
output = out.getvalue()
self.assertTrue(os.path.exists(self.PO_FILE))
with open(self.PO_FILE) as fp:
po_contents = fp.read()
return output, po_contents
def assertMsgIdPlural(self, msgid, haystack, use_quotes=True):
return self._assertPoKeyword(
"msgid_plural", msgid, haystack, use_quotes=use_quotes
)
def assertMsgStr(self, msgstr, haystack, use_quotes=True):
return self._assertPoKeyword("msgstr", msgstr, haystack, use_quotes=use_quotes)
def assertNotMsgId(self, msgid, s, use_quotes=True):
if use_quotes:
msgid = '"%s"' % msgid
msgid = re.escape(msgid)
return self.assertTrue(not re.search("^msgid %s" % msgid, s, re.MULTILINE))
def _assertPoLocComment(
self, assert_presence, po_filename, line_number, *comment_parts
):
with open(po_filename) as fp:
po_contents = fp.read()
if os.name == "nt":
# #: .\path\to\file.html:123
cwd_prefix = "%s%s" % (os.curdir, os.sep)
else:
# #: path/to/file.html:123
cwd_prefix = ""
path = os.path.join(cwd_prefix, *comment_parts)
parts = [path]
if isinstance(line_number, str):
line_number = self._get_token_line_number(path, line_number)
if line_number is not None:
parts.append(":%d" % line_number)
needle = "".join(parts)
pattern = re.compile(r"^\#\:.*" + re.escape(needle), re.MULTILINE)
if assert_presence:
return self.assertRegex(
po_contents, pattern, '"%s" not found in final .po file.' % needle
)
else:
return self.assertNotRegex(
po_contents, pattern, '"%s" shouldn\'t be in final .po file.' % needle
)
def _get_token_line_number(self, path, token):
with open(path) as f:
for line, content in enumerate(f, 1):
if token in content:
return line
self.fail(
"The token '%s' could not be found in %s, please check the test config"
% (token, path)
)
def assertLocationCommentPresent(self, po_filename, line_number, *comment_parts):
r"""
self.assertLocationCommentPresent('django.po', 42, 'dirA', 'dirB', 'foo.py')
verifies that the django.po file has a gettext-style location comment
of the form
`#: dirA/dirB/foo.py:42`
(or `#: .\dirA\dirB\foo.py:42` on Windows)
None can be passed for the line_number argument to skip checking of
the :42 suffix part.
A string token can also be passed as line_number, in which case it
will be searched in the template, and its line number will be used.
A msgid is a suitable candidate.
"""
return self._assertPoLocComment(True, po_filename, line_number, *comment_parts)
def assertLocationCommentNotPresent(self, po_filename, line_number, *comment_parts):
"""Check the opposite of assertLocationComment()"""
return self._assertPoLocComment(False, po_filename, line_number, *comment_parts)
def assertRecentlyModified(self, path):
"""
Assert that file was recently modified (modification time was less than
10 seconds ago).
"""
delta = time.time() - os.stat(path).st_mtime
self.assertLess(delta, 10, "%s was recently modified" % path)
def assertNotRecentlyModified(self, path):
"""
Assert that file was not recently modified (modification time was more
than 10 seconds ago).
"""
delta = time.time() - os.stat(path).st_mtime
self.assertGreater(delta, 10, "%s wasn't recently modified" % path)
class BasicExtractorTests(ExtractorTests):
@override_settings(USE_I18N=False)
def test_use_i18n_false(self):
"""
makemessages also runs successfully when USE_I18N is False.
"""
management.call_command("makemessages", locale=[LOCALE], verbosity=0)
self.assertTrue(os.path.exists(self.PO_FILE))
with open(self.PO_FILE, encoding="utf-8") as fp:
po_contents = fp.read()
# Check two random strings
self.assertIn("#. Translators: One-line translator comment #1", po_contents)
self.assertIn('msgctxt "Special trans context #1"', po_contents)
def test_no_option(self):
# One of either the --locale, --exclude, or --all options is required.
msg = "Type 'manage.py help makemessages' for usage information."
with mock.patch(
"django.core.management.commands.makemessages.sys.argv",
["manage.py", "makemessages"],
):
with self.assertRaisesRegex(CommandError, msg):
management.call_command("makemessages")
def test_valid_locale(self):
out = StringIO()
management.call_command("makemessages", locale=["de"], stdout=out, verbosity=1)
self.assertNotIn("invalid locale de", out.getvalue())
self.assertIn("processing locale de", out.getvalue())
self.assertIs(Path(self.PO_FILE).exists(), True)
def test_invalid_locale(self):
out = StringIO()
management.call_command(
"makemessages", locale=["pl-PL"], stdout=out, verbosity=1
)
self.assertIn("invalid locale pl-PL, did you mean pl_PL?", out.getvalue())
self.assertNotIn("processing locale pl-PL", out.getvalue())
self.assertIs(Path("locale/pl-PL/LC_MESSAGES/django.po").exists(), False)
def test_comments_extractor(self):
management.call_command("makemessages", locale=[LOCALE], verbosity=0)
self.assertTrue(os.path.exists(self.PO_FILE))
with open(self.PO_FILE, encoding="utf-8") as fp:
po_contents = fp.read()
self.assertNotIn("This comment should not be extracted", po_contents)
# Comments in templates
self.assertIn(
"#. Translators: This comment should be extracted", po_contents
)
self.assertIn(
"#. Translators: Django comment block for translators\n#. "
"string's meaning unveiled",
po_contents,
)
self.assertIn("#. Translators: One-line translator comment #1", po_contents)
self.assertIn(
"#. Translators: Two-line translator comment #1\n#. continued here.",
po_contents,
)
self.assertIn("#. Translators: One-line translator comment #2", po_contents)
self.assertIn(
"#. Translators: Two-line translator comment #2\n#. continued here.",
po_contents,
)
self.assertIn("#. Translators: One-line translator comment #3", po_contents)
self.assertIn(
"#. Translators: Two-line translator comment #3\n#. continued here.",
po_contents,
)
self.assertIn("#. Translators: One-line translator comment #4", po_contents)
self.assertIn(
"#. Translators: Two-line translator comment #4\n#. continued here.",
po_contents,
)
self.assertIn(
"#. Translators: One-line translator comment #5 -- with "
"non ASCII characters: áéíóúö",
po_contents,
)
self.assertIn(
"#. Translators: Two-line translator comment #5 -- with "
"non ASCII characters: áéíóúö\n#. continued here.",
po_contents,
)
def test_special_char_extracted(self):
management.call_command("makemessages", locale=[LOCALE], verbosity=0)
self.assertTrue(os.path.exists(self.PO_FILE))
with open(self.PO_FILE, encoding="utf-8") as fp:
po_contents = fp.read()
self.assertMsgId("Non-breaking space\u00a0:", po_contents)
def test_blocktranslate_trimmed(self):
management.call_command("makemessages", locale=[LOCALE], verbosity=0)
self.assertTrue(os.path.exists(self.PO_FILE))
with open(self.PO_FILE) as fp:
po_contents = fp.read()
# should not be trimmed
self.assertNotMsgId("Text with a few line breaks.", po_contents)
# should be trimmed
self.assertMsgId(
"Again some text with a few line breaks, this time should be trimmed.",
po_contents,
)
# #21406 -- Should adjust for eaten line numbers
self.assertMsgId("Get my line number", po_contents)
self.assertLocationCommentPresent(
self.PO_FILE, "Get my line number", "templates", "test.html"
)
def test_extraction_error(self):
msg = (
"Translation blocks must not include other block tags: blocktranslate "
"(file %s, line 3)" % os.path.join("templates", "template_with_error.tpl")
)
with self.assertRaisesMessage(SyntaxError, msg):
management.call_command(
"makemessages", locale=[LOCALE], extensions=["tpl"], verbosity=0
)
# The temporary files were cleaned up.
self.assertFalse(os.path.exists("./templates/template_with_error.tpl.py"))
self.assertFalse(os.path.exists("./templates/template_0_with_no_error.tpl.py"))
def test_unicode_decode_error(self):
shutil.copyfile("./not_utf8.sample", "./not_utf8.txt")
out = StringIO()
management.call_command("makemessages", locale=[LOCALE], stdout=out)
self.assertIn(
"UnicodeDecodeError: skipped file not_utf8.txt in .", out.getvalue()
)
def test_unicode_file_name(self):
open(os.path.join(self.test_dir, "vidéo.txt"), "a").close()
management.call_command("makemessages", locale=[LOCALE], verbosity=0)
def test_extraction_warning(self):
"""test xgettext warning about multiple bare interpolation placeholders"""
shutil.copyfile("./code.sample", "./code_sample.py")
out = StringIO()
management.call_command("makemessages", locale=[LOCALE], stdout=out)
self.assertIn("code_sample.py:4", out.getvalue())
def test_template_message_context_extractor(self):
"""
Message contexts are correctly extracted for the {% translate %} and
{% blocktranslate %} template tags (#14806).
"""
management.call_command("makemessages", locale=[LOCALE], verbosity=0)
self.assertTrue(os.path.exists(self.PO_FILE))
with open(self.PO_FILE) as fp:
po_contents = fp.read()
# {% translate %}
self.assertIn('msgctxt "Special trans context #1"', po_contents)
self.assertMsgId("Translatable literal #7a", po_contents)
self.assertIn('msgctxt "Special trans context #2"', po_contents)
self.assertMsgId("Translatable literal #7b", po_contents)
self.assertIn('msgctxt "Special trans context #3"', po_contents)
self.assertMsgId("Translatable literal #7c", po_contents)
# {% translate %} with a filter
for (
minor_part
) in "abcdefgh": # Iterate from #7.1a to #7.1h template markers
self.assertIn(
'msgctxt "context #7.1{}"'.format(minor_part), po_contents
)
self.assertMsgId(
"Translatable literal #7.1{}".format(minor_part), po_contents
)
# {% blocktranslate %}
self.assertIn('msgctxt "Special blocktranslate context #1"', po_contents)
self.assertMsgId("Translatable literal #8a", po_contents)
self.assertIn('msgctxt "Special blocktranslate context #2"', po_contents)
self.assertMsgId("Translatable literal #8b-singular", po_contents)
self.assertIn("Translatable literal #8b-plural", po_contents)
self.assertIn('msgctxt "Special blocktranslate context #3"', po_contents)
self.assertMsgId("Translatable literal #8c-singular", po_contents)
self.assertIn("Translatable literal #8c-plural", po_contents)
self.assertIn('msgctxt "Special blocktranslate context #4"', po_contents)
self.assertMsgId("Translatable literal #8d %(a)s", po_contents)
# {% trans %} and {% blocktrans %}
self.assertMsgId("trans text", po_contents)
self.assertMsgId("blocktrans text", po_contents)
def test_context_in_single_quotes(self):
management.call_command("makemessages", locale=[LOCALE], verbosity=0)
self.assertTrue(os.path.exists(self.PO_FILE))
with open(self.PO_FILE) as fp:
po_contents = fp.read()
# {% translate %}
self.assertIn('msgctxt "Context wrapped in double quotes"', po_contents)
self.assertIn('msgctxt "Context wrapped in single quotes"', po_contents)
# {% blocktranslate %}
self.assertIn(
'msgctxt "Special blocktranslate context wrapped in double quotes"',
po_contents,
)
self.assertIn(
'msgctxt "Special blocktranslate context wrapped in single quotes"',
po_contents,
)
def test_template_comments(self):
"""Template comment tags on the same line of other constructs (#19552)"""
# Test detection/end user reporting of old, incorrect templates
# translator comments syntax
with warnings.catch_warnings(record=True) as ws:
warnings.simplefilter("always")
management.call_command(
"makemessages", locale=[LOCALE], extensions=["thtml"], verbosity=0
)
self.assertEqual(len(ws), 3)
for w in ws:
self.assertTrue(issubclass(w.category, TranslatorCommentWarning))
self.assertRegex(
str(ws[0].message),
r"The translator-targeted comment 'Translators: ignored i18n "
r"comment #1' \(file templates[/\\]comments.thtml, line 4\) "
r"was ignored, because it wasn't the last item on the line\.",
)
self.assertRegex(
str(ws[1].message),
r"The translator-targeted comment 'Translators: ignored i18n "
r"comment #3' \(file templates[/\\]comments.thtml, line 6\) "
r"was ignored, because it wasn't the last item on the line\.",
)
self.assertRegex(
str(ws[2].message),
r"The translator-targeted comment 'Translators: ignored i18n "
r"comment #4' \(file templates[/\\]comments.thtml, line 8\) "
r"was ignored, because it wasn't the last item on the line\.",
)
# Now test .po file contents
self.assertTrue(os.path.exists(self.PO_FILE))
with open(self.PO_FILE) as fp:
po_contents = fp.read()
self.assertMsgId("Translatable literal #9a", po_contents)
self.assertNotIn("ignored comment #1", po_contents)
self.assertNotIn("Translators: ignored i18n comment #1", po_contents)
self.assertMsgId("Translatable literal #9b", po_contents)
self.assertNotIn("ignored i18n comment #2", po_contents)
self.assertNotIn("ignored comment #2", po_contents)
self.assertMsgId("Translatable literal #9c", po_contents)
self.assertNotIn("ignored comment #3", po_contents)
self.assertNotIn("ignored i18n comment #3", po_contents)
self.assertMsgId("Translatable literal #9d", po_contents)
self.assertNotIn("ignored comment #4", po_contents)
self.assertMsgId("Translatable literal #9e", po_contents)
self.assertNotIn("ignored comment #5", po_contents)
self.assertNotIn("ignored i18n comment #4", po_contents)
self.assertMsgId("Translatable literal #9f", po_contents)
self.assertIn("#. Translators: valid i18n comment #5", po_contents)
self.assertMsgId("Translatable literal #9g", po_contents)
self.assertIn("#. Translators: valid i18n comment #6", po_contents)
self.assertMsgId("Translatable literal #9h", po_contents)
self.assertIn("#. Translators: valid i18n comment #7", po_contents)
self.assertMsgId("Translatable literal #9i", po_contents)
self.assertRegex(po_contents, r"#\..+Translators: valid i18n comment #8")
self.assertRegex(po_contents, r"#\..+Translators: valid i18n comment #9")
self.assertMsgId("Translatable literal #9j", po_contents)
def test_makemessages_find_files(self):
"""
find_files only discover files having the proper extensions.
"""
cmd = MakeMessagesCommand()
cmd.ignore_patterns = ["CVS", ".*", "*~", "*.pyc"]
cmd.symlinks = False
cmd.domain = "django"
cmd.extensions = ["html", "txt", "py"]
cmd.verbosity = 0
cmd.locale_paths = []
cmd.default_locale_path = os.path.join(self.test_dir, "locale")
found_files = cmd.find_files(self.test_dir)
found_exts = {os.path.splitext(tfile.file)[1] for tfile in found_files}
self.assertEqual(found_exts.difference({".py", ".html", ".txt"}), set())
cmd.extensions = ["js"]
cmd.domain = "djangojs"
found_files = cmd.find_files(self.test_dir)
found_exts = {os.path.splitext(tfile.file)[1] for tfile in found_files}
self.assertEqual(found_exts.difference({".js"}), set())
@mock.patch("django.core.management.commands.makemessages.popen_wrapper")
def test_makemessages_gettext_version(self, mocked_popen_wrapper):
# "Normal" output:
mocked_popen_wrapper.return_value = (
"xgettext (GNU gettext-tools) 0.18.1\n"
"Copyright (C) 1995-1998, 2000-2010 Free Software Foundation, Inc.\n"
"License GPLv3+: GNU GPL version 3 or later "
"<http://gnu.org/licenses/gpl.html>\n"
"This is free software: you are free to change and redistribute it.\n"
"There is NO WARRANTY, to the extent permitted by law.\n"
"Written by Ulrich Drepper.\n",
"",
0,
)
cmd = MakeMessagesCommand()
self.assertEqual(cmd.gettext_version, (0, 18, 1))
# Version number with only 2 parts (#23788)
mocked_popen_wrapper.return_value = (
"xgettext (GNU gettext-tools) 0.17\n",
"",
0,
)
cmd = MakeMessagesCommand()
self.assertEqual(cmd.gettext_version, (0, 17))
# Bad version output
mocked_popen_wrapper.return_value = ("any other return value\n", "", 0)
cmd = MakeMessagesCommand()
with self.assertRaisesMessage(
CommandError, "Unable to get gettext version. Is it installed?"
):
cmd.gettext_version
def test_po_file_encoding_when_updating(self):
"""
Update of PO file doesn't corrupt it with non-UTF-8 encoding on Windows
(#23271).
"""
BR_PO_BASE = "locale/pt_BR/LC_MESSAGES/django"
shutil.copyfile(BR_PO_BASE + ".pristine", BR_PO_BASE + ".po")
management.call_command("makemessages", locale=["pt_BR"], verbosity=0)
self.assertTrue(os.path.exists(BR_PO_BASE + ".po"))
with open(BR_PO_BASE + ".po", encoding="utf-8") as fp:
po_contents = fp.read()
self.assertMsgStr("Größe", po_contents)
def test_pot_charset_header_is_utf8(self):
"""Content-Type: ... charset=CHARSET is replaced with charset=UTF-8"""
msgs = (
"# SOME DESCRIPTIVE TITLE.\n"
"# (some lines truncated as they are not relevant)\n"
'"Content-Type: text/plain; charset=CHARSET\\n"\n'
'"Content-Transfer-Encoding: 8bit\\n"\n'
"\n"
"#: somefile.py:8\n"
'msgid "mañana; charset=CHARSET"\n'
'msgstr ""\n'
)
with tempfile.NamedTemporaryFile() as pot_file:
pot_filename = pot_file.name
write_pot_file(pot_filename, msgs)
with open(pot_filename, encoding="utf-8") as fp:
pot_contents = fp.read()
self.assertIn("Content-Type: text/plain; charset=UTF-8", pot_contents)
self.assertIn("mañana; charset=CHARSET", pot_contents)
class JavaScriptExtractorTests(ExtractorTests):
PO_FILE = "locale/%s/LC_MESSAGES/djangojs.po" % LOCALE
def test_javascript_literals(self):
_, po_contents = self._run_makemessages(domain="djangojs")
self.assertMsgId("This literal should be included.", po_contents)
self.assertMsgId("gettext_noop should, too.", po_contents)
self.assertMsgId("This one as well.", po_contents)
self.assertMsgId(r"He said, \"hello\".", po_contents)
self.assertMsgId("okkkk", po_contents)
self.assertMsgId("TEXT", po_contents)
self.assertMsgId("It's at http://example.com", po_contents)
self.assertMsgId("String", po_contents)
self.assertMsgId(
"/* but this one will be too */ 'cause there is no way of telling...",
po_contents,
)
self.assertMsgId("foo", po_contents)
self.assertMsgId("bar", po_contents)
self.assertMsgId("baz", po_contents)
self.assertMsgId("quz", po_contents)
self.assertMsgId("foobar", po_contents)
def test_media_static_dirs_ignored(self):
"""
Regression test for #23583.
"""
with override_settings(
STATIC_ROOT=os.path.join(self.test_dir, "static/"),
MEDIA_ROOT=os.path.join(self.test_dir, "media_root/"),
):
_, po_contents = self._run_makemessages(domain="djangojs")
self.assertMsgId(
"Static content inside app should be included.", po_contents
)
self.assertNotMsgId(
"Content from STATIC_ROOT should not be included", po_contents
)
@override_settings(STATIC_ROOT=None, MEDIA_ROOT="")
def test_default_root_settings(self):
"""
Regression test for #23717.
"""
_, po_contents = self._run_makemessages(domain="djangojs")
self.assertMsgId("Static content inside app should be included.", po_contents)
class IgnoredExtractorTests(ExtractorTests):
def test_ignore_directory(self):
out, po_contents = self._run_makemessages(
ignore_patterns=[
os.path.join("ignore_dir", "*"),
]
)
self.assertIn("ignoring directory ignore_dir", out)
self.assertMsgId("This literal should be included.", po_contents)
self.assertNotMsgId("This should be ignored.", po_contents)
def test_ignore_subdirectory(self):
out, po_contents = self._run_makemessages(
ignore_patterns=[
"templates/*/ignore.html",
"templates/subdir/*",
]
)
self.assertIn("ignoring directory subdir", out)
self.assertNotMsgId("This subdir should be ignored too.", po_contents)
def test_ignore_file_patterns(self):
out, po_contents = self._run_makemessages(
ignore_patterns=[
"xxx_*",
]
)
self.assertIn("ignoring file xxx_ignored.html", out)
self.assertNotMsgId("This should be ignored too.", po_contents)
def test_media_static_dirs_ignored(self):
with override_settings(
STATIC_ROOT=os.path.join(self.test_dir, "static/"),
MEDIA_ROOT=os.path.join(self.test_dir, "media_root/"),
):
out, _ = self._run_makemessages()
self.assertIn("ignoring directory static", out)
self.assertIn("ignoring directory media_root", out)
class SymlinkExtractorTests(ExtractorTests):
def setUp(self):
super().setUp()
self.symlinked_dir = os.path.join(self.test_dir, "templates_symlinked")
def test_symlink(self):
if symlinks_supported():
os.symlink(os.path.join(self.test_dir, "templates"), self.symlinked_dir)
else:
self.skipTest(
"os.symlink() not available on this OS + Python version combination."
)
management.call_command(
"makemessages", locale=[LOCALE], verbosity=0, symlinks=True
)
self.assertTrue(os.path.exists(self.PO_FILE))
with open(self.PO_FILE) as fp:
po_contents = fp.read()
self.assertMsgId("This literal should be included.", po_contents)
self.assertLocationCommentPresent(
self.PO_FILE, None, "templates_symlinked", "test.html"
)
class CopyPluralFormsExtractorTests(ExtractorTests):
PO_FILE_ES = "locale/es/LC_MESSAGES/django.po"
def test_copy_plural_forms(self):
management.call_command("makemessages", locale=[LOCALE], verbosity=0)
self.assertTrue(os.path.exists(self.PO_FILE))
with open(self.PO_FILE) as fp:
po_contents = fp.read()
self.assertIn("Plural-Forms: nplurals=2; plural=(n != 1)", po_contents)
def test_override_plural_forms(self):
"""Ticket #20311."""
management.call_command(
"makemessages", locale=["es"], extensions=["djtpl"], verbosity=0
)
self.assertTrue(os.path.exists(self.PO_FILE_ES))
with open(self.PO_FILE_ES, encoding="utf-8") as fp:
po_contents = fp.read()
found = re.findall(
r'^(?P<value>"Plural-Forms.+?\\n")\s*$',
po_contents,
re.MULTILINE | re.DOTALL,
)
self.assertEqual(1, len(found))
def test_translate_and_plural_blocktranslate_collision(self):
"""
Ensures a correct workaround for the gettext bug when handling a literal
found inside a {% translate %} tag and also in another file inside a
{% blocktranslate %} with a plural (#17375).
"""
management.call_command(
"makemessages", locale=[LOCALE], extensions=["html", "djtpl"], verbosity=0
)
self.assertTrue(os.path.exists(self.PO_FILE))
with open(self.PO_FILE) as fp:
po_contents = fp.read()
self.assertNotIn(
"#-#-#-#-# django.pot (PACKAGE VERSION) #-#-#-#-#\\n", po_contents
)
self.assertMsgId(
"First `translate`, then `blocktranslate` with a plural", po_contents
)
self.assertMsgIdPlural(
"Plural for a `translate` and `blocktranslate` collision case",
po_contents,
)
class NoWrapExtractorTests(ExtractorTests):
def test_no_wrap_enabled(self):
management.call_command(
"makemessages", locale=[LOCALE], verbosity=0, no_wrap=True
)
self.assertTrue(os.path.exists(self.PO_FILE))
with open(self.PO_FILE) as fp:
po_contents = fp.read()
self.assertMsgId(
"This literal should also be included wrapped or not wrapped "
"depending on the use of the --no-wrap option.",
po_contents,
)
def test_no_wrap_disabled(self):
management.call_command(
"makemessages", locale=[LOCALE], verbosity=0, no_wrap=False
)
self.assertTrue(os.path.exists(self.PO_FILE))
with open(self.PO_FILE) as fp:
po_contents = fp.read()
self.assertMsgId(
'""\n"This literal should also be included wrapped or not '
'wrapped depending on the "\n"use of the --no-wrap option."',
po_contents,
use_quotes=False,
)
class LocationCommentsTests(ExtractorTests):
def test_no_location_enabled(self):
"""Behavior is correct if --no-location switch is specified. See #16903."""
management.call_command(
"makemessages", locale=[LOCALE], verbosity=0, no_location=True
)
self.assertTrue(os.path.exists(self.PO_FILE))
self.assertLocationCommentNotPresent(self.PO_FILE, None, "test.html")
def test_no_location_disabled(self):
"""Behavior is correct if --no-location switch isn't specified."""
management.call_command(
"makemessages", locale=[LOCALE], verbosity=0, no_location=False
)
self.assertTrue(os.path.exists(self.PO_FILE))
# #16903 -- Standard comment with source file relative path should be present
self.assertLocationCommentPresent(
self.PO_FILE, "Translatable literal #6b", "templates", "test.html"
)
def test_location_comments_for_templatized_files(self):
"""
Ensure no leaky paths in comments, e.g. #: path\to\file.html.py:123
Refs #21209/#26341.
"""
management.call_command("makemessages", locale=[LOCALE], verbosity=0)
self.assertTrue(os.path.exists(self.PO_FILE))
with open(self.PO_FILE) as fp:
po_contents = fp.read()
self.assertMsgId("#: templates/test.html.py", po_contents)
self.assertLocationCommentNotPresent(self.PO_FILE, None, ".html.py")
self.assertLocationCommentPresent(self.PO_FILE, 5, "templates", "test.html")
@requires_gettext_019
def test_add_location_full(self):
"""makemessages --add-location=full"""
management.call_command(
"makemessages", locale=[LOCALE], verbosity=0, add_location="full"
)
self.assertTrue(os.path.exists(self.PO_FILE))
# Comment with source file relative path and line number is present.
self.assertLocationCommentPresent(
self.PO_FILE, "Translatable literal #6b", "templates", "test.html"
)
@requires_gettext_019
def test_add_location_file(self):
"""makemessages --add-location=file"""
management.call_command(
"makemessages", locale=[LOCALE], verbosity=0, add_location="file"
)
self.assertTrue(os.path.exists(self.PO_FILE))
# Comment with source file relative path is present.
self.assertLocationCommentPresent(self.PO_FILE, None, "templates", "test.html")
# But it should not contain the line number.
self.assertLocationCommentNotPresent(
self.PO_FILE, "Translatable literal #6b", "templates", "test.html"
)
@requires_gettext_019
def test_add_location_never(self):
"""makemessages --add-location=never"""
management.call_command(
"makemessages", locale=[LOCALE], verbosity=0, add_location="never"
)
self.assertTrue(os.path.exists(self.PO_FILE))
self.assertLocationCommentNotPresent(self.PO_FILE, None, "test.html")
@mock.patch(
"django.core.management.commands.makemessages.Command.gettext_version",
new=(0, 18, 99),
)
def test_add_location_gettext_version_check(self):
"""
CommandError is raised when using makemessages --add-location with
gettext < 0.19.
"""
msg = (
"The --add-location option requires gettext 0.19 or later. You have "
"0.18.99."
)
with self.assertRaisesMessage(CommandError, msg):
management.call_command(
"makemessages", locale=[LOCALE], verbosity=0, add_location="full"
)
class KeepPotFileExtractorTests(ExtractorTests):
POT_FILE = "locale/django.pot"
def test_keep_pot_disabled_by_default(self):
management.call_command("makemessages", locale=[LOCALE], verbosity=0)
self.assertFalse(os.path.exists(self.POT_FILE))
def test_keep_pot_explicitly_disabled(self):
management.call_command(
"makemessages", locale=[LOCALE], verbosity=0, keep_pot=False
)
self.assertFalse(os.path.exists(self.POT_FILE))
def test_keep_pot_enabled(self):
management.call_command(
"makemessages", locale=[LOCALE], verbosity=0, keep_pot=True
)
self.assertTrue(os.path.exists(self.POT_FILE))
class MultipleLocaleExtractionTests(ExtractorTests):
PO_FILE_PT = "locale/pt/LC_MESSAGES/django.po"
PO_FILE_DE = "locale/de/LC_MESSAGES/django.po"
PO_FILE_KO = "locale/ko/LC_MESSAGES/django.po"
LOCALES = ["pt", "de", "ch"]
def test_multiple_locales(self):
management.call_command("makemessages", locale=["pt", "de"], verbosity=0)
self.assertTrue(os.path.exists(self.PO_FILE_PT))
self.assertTrue(os.path.exists(self.PO_FILE_DE))
def test_all_locales(self):
"""
When the `locale` flag is absent, all dirs from the parent locale dir
are considered as language directories, except if the directory doesn't
start with two letters (which excludes __pycache__, .gitignore, etc.).
"""
os.mkdir(os.path.join("locale", "_do_not_pick"))
# Excluding locales that do not compile
management.call_command("makemessages", exclude=["ja", "es_AR"], verbosity=0)
self.assertTrue(os.path.exists(self.PO_FILE_KO))
self.assertFalse(os.path.exists("locale/_do_not_pick/LC_MESSAGES/django.po"))
class ExcludedLocaleExtractionTests(ExtractorTests):
work_subdir = "exclude"
LOCALES = ["en", "fr", "it"]
PO_FILE = "locale/%s/LC_MESSAGES/django.po"
def _set_times_for_all_po_files(self):
"""
Set access and modification times to the Unix epoch time for all the .po files.
"""
for locale in self.LOCALES:
os.utime(self.PO_FILE % locale, (0, 0))
def setUp(self):
super().setUp()
copytree("canned_locale", "locale")
self._set_times_for_all_po_files()
def test_command_help(self):
with captured_stdout(), captured_stderr():
# `call_command` bypasses the parser; by calling
# `execute_from_command_line` with the help subcommand we
# ensure that there are no issues with the parser itself.
execute_from_command_line(["django-admin", "help", "makemessages"])
def test_one_locale_excluded(self):
management.call_command("makemessages", exclude=["it"], verbosity=0)
self.assertRecentlyModified(self.PO_FILE % "en")
self.assertRecentlyModified(self.PO_FILE % "fr")
self.assertNotRecentlyModified(self.PO_FILE % "it")
def test_multiple_locales_excluded(self):
management.call_command("makemessages", exclude=["it", "fr"], verbosity=0)
self.assertRecentlyModified(self.PO_FILE % "en")
self.assertNotRecentlyModified(self.PO_FILE % "fr")
self.assertNotRecentlyModified(self.PO_FILE % "it")
def test_one_locale_excluded_with_locale(self):
management.call_command(
"makemessages", locale=["en", "fr"], exclude=["fr"], verbosity=0
)
self.assertRecentlyModified(self.PO_FILE % "en")
self.assertNotRecentlyModified(self.PO_FILE % "fr")
self.assertNotRecentlyModified(self.PO_FILE % "it")
def test_multiple_locales_excluded_with_locale(self):
management.call_command(
"makemessages", locale=["en", "fr", "it"], exclude=["fr", "it"], verbosity=0
)
self.assertRecentlyModified(self.PO_FILE % "en")
self.assertNotRecentlyModified(self.PO_FILE % "fr")
self.assertNotRecentlyModified(self.PO_FILE % "it")
class CustomLayoutExtractionTests(ExtractorTests):
work_subdir = "project_dir"
def test_no_locale_raises(self):
msg = (
"Unable to find a locale path to store translations for file "
"__init__.py. Make sure the 'locale' directory exists in an app "
"or LOCALE_PATHS setting is set."
)
with self.assertRaisesMessage(management.CommandError, msg):
management.call_command("makemessages", locale=[LOCALE], verbosity=0)
# Working files are cleaned up on an error.
self.assertFalse(os.path.exists("./app_no_locale/test.html.py"))
def test_project_locale_paths(self):
self._test_project_locale_paths(os.path.join(self.test_dir, "project_locale"))
def test_project_locale_paths_pathlib(self):
self._test_project_locale_paths(Path(self.test_dir) / "project_locale")
def _test_project_locale_paths(self, locale_path):
"""
* translations for an app containing a locale folder are stored in that folder
* translations outside of that app are in LOCALE_PATHS[0]
"""
with override_settings(LOCALE_PATHS=[locale_path]):
management.call_command("makemessages", locale=[LOCALE], verbosity=0)
project_de_locale = os.path.join(
self.test_dir, "project_locale", "de", "LC_MESSAGES", "django.po"
)
app_de_locale = os.path.join(
self.test_dir,
"app_with_locale",
"locale",
"de",
"LC_MESSAGES",
"django.po",
)
self.assertTrue(os.path.exists(project_de_locale))
self.assertTrue(os.path.exists(app_de_locale))
with open(project_de_locale) as fp:
po_contents = fp.read()
self.assertMsgId("This app has no locale directory", po_contents)
self.assertMsgId("This is a project-level string", po_contents)
with open(app_de_locale) as fp:
po_contents = fp.read()
self.assertMsgId("This app has a locale directory", po_contents)
@skipUnless(has_xgettext, "xgettext is mandatory for extraction tests")
class NoSettingsExtractionTests(AdminScriptTestCase):
def test_makemessages_no_settings(self):
out, err = self.run_django_admin(["makemessages", "-l", "en", "-v", "0"])
self.assertNoOutput(err)
self.assertNoOutput(out)
class UnchangedPoExtractionTests(ExtractorTests):
work_subdir = "unchanged"
def setUp(self):
super().setUp()
po_file = Path(self.PO_FILE)
po_file_tmp = Path(self.PO_FILE + ".tmp")
if os.name == "nt":
# msgmerge outputs Windows style paths on Windows.
po_contents = po_file_tmp.read_text().replace(
"#: __init__.py",
"#: .\\__init__.py",
)
po_file.write_text(po_contents)
else:
po_file_tmp.rename(po_file)
self.original_po_contents = po_file.read_text()
def test_po_remains_unchanged(self):
"""PO files are unchanged unless there are new changes."""
_, po_contents = self._run_makemessages()
self.assertEqual(po_contents, self.original_po_contents)
def test_po_changed_with_new_strings(self):
"""PO files are updated when new changes are detected."""
Path("models.py.tmp").rename("models.py")
_, po_contents = self._run_makemessages()
self.assertNotEqual(po_contents, self.original_po_contents)
self.assertMsgId(
"This is a hitherto undiscovered translatable string.",
po_contents,
)
|
93800df01fabb90ce52ef3771111a2cdc82045d0d6c582862504f753ea5fef8b | from django.conf.urls.i18n import i18n_patterns
from django.http import HttpResponse
from django.urls import path, re_path
from django.utils.translation import gettext_lazy as _
urlpatterns = i18n_patterns(
re_path(r"^(?P<arg>[\w-]+)-page", lambda request, **arg: HttpResponse(_("Yes"))),
path("simple/", lambda r: HttpResponse(_("Yes"))),
re_path(r"^(.+)/(.+)/$", lambda *args: HttpResponse()),
prefix_default_language=False,
)
|
7b6a04c654dc07e49e7f3f3b88e0d2afbb64cb07fadbde89af85dd4f88ed2b6a | import datetime
import decimal
import gettext as gettext_module
import os
import pickle
import re
import tempfile
from contextlib import contextmanager
from importlib import import_module
from pathlib import Path
from unittest import mock
from asgiref.local import Local
from django import forms
from django.apps import AppConfig
from django.conf import settings
from django.conf.locale import LANG_INFO
from django.conf.urls.i18n import i18n_patterns
from django.template import Context, Template
from django.test import (
RequestFactory,
SimpleTestCase,
TestCase,
ignore_warnings,
override_settings,
)
from django.utils import translation
from django.utils.deprecation import RemovedInDjango50Warning
from django.utils.formats import (
date_format,
get_format,
iter_format_modules,
localize,
localize_input,
reset_format_cache,
sanitize_separators,
sanitize_strftime_format,
time_format,
)
from django.utils.numberformat import format as nformat
from django.utils.safestring import SafeString, mark_safe
from django.utils.translation import (
activate,
check_for_language,
deactivate,
get_language,
get_language_bidi,
get_language_from_request,
get_language_info,
gettext,
gettext_lazy,
ngettext,
ngettext_lazy,
npgettext,
npgettext_lazy,
pgettext,
round_away_from_one,
to_language,
to_locale,
trans_null,
trans_real,
)
from django.utils.translation.reloader import (
translation_file_changed,
watch_for_translation_changes,
)
from .forms import CompanyForm, I18nForm, SelectDateForm
from .models import Company, TestModel
here = os.path.dirname(os.path.abspath(__file__))
extended_locale_paths = settings.LOCALE_PATHS + [
os.path.join(here, "other", "locale"),
]
class AppModuleStub:
def __init__(self, **kwargs):
self.__dict__.update(kwargs)
@contextmanager
def patch_formats(lang, **settings):
from django.utils.formats import _format_cache
# Populate _format_cache with temporary values
for key, value in settings.items():
_format_cache[(key, lang)] = value
try:
yield
finally:
reset_format_cache()
class TranslationTests(SimpleTestCase):
@translation.override("fr")
def test_plural(self):
"""
Test plurals with ngettext. French differs from English in that 0 is singular.
"""
self.assertEqual(
ngettext("%(num)d year", "%(num)d years", 0) % {"num": 0},
"0 année",
)
self.assertEqual(
ngettext("%(num)d year", "%(num)d years", 2) % {"num": 2},
"2 années",
)
self.assertEqual(
ngettext("%(size)d byte", "%(size)d bytes", 0) % {"size": 0}, "0 octet"
)
self.assertEqual(
ngettext("%(size)d byte", "%(size)d bytes", 2) % {"size": 2}, "2 octets"
)
def test_plural_null(self):
g = trans_null.ngettext
self.assertEqual(g("%(num)d year", "%(num)d years", 0) % {"num": 0}, "0 years")
self.assertEqual(g("%(num)d year", "%(num)d years", 1) % {"num": 1}, "1 year")
self.assertEqual(g("%(num)d year", "%(num)d years", 2) % {"num": 2}, "2 years")
@override_settings(LOCALE_PATHS=extended_locale_paths)
@translation.override("fr")
def test_multiple_plurals_per_language(self):
"""
Normally, French has 2 plurals. As other/locale/fr/LC_MESSAGES/django.po
has a different plural equation with 3 plurals, this tests if those
plural are honored.
"""
self.assertEqual(ngettext("%d singular", "%d plural", 0) % 0, "0 pluriel1")
self.assertEqual(ngettext("%d singular", "%d plural", 1) % 1, "1 singulier")
self.assertEqual(ngettext("%d singular", "%d plural", 2) % 2, "2 pluriel2")
french = trans_real.catalog()
# Internal _catalog can query subcatalogs (from different po files).
self.assertEqual(french._catalog[("%d singular", 0)], "%d singulier")
self.assertEqual(french._catalog[("%(num)d hour", 0)], "%(num)d heure")
def test_override(self):
activate("de")
try:
with translation.override("pl"):
self.assertEqual(get_language(), "pl")
self.assertEqual(get_language(), "de")
with translation.override(None):
self.assertIsNone(get_language())
with translation.override("pl"):
pass
self.assertIsNone(get_language())
self.assertEqual(get_language(), "de")
finally:
deactivate()
def test_override_decorator(self):
@translation.override("pl")
def func_pl():
self.assertEqual(get_language(), "pl")
@translation.override(None)
def func_none():
self.assertIsNone(get_language())
try:
activate("de")
func_pl()
self.assertEqual(get_language(), "de")
func_none()
self.assertEqual(get_language(), "de")
finally:
deactivate()
def test_override_exit(self):
"""
The language restored is the one used when the function was
called, not the one used when the decorator was initialized (#23381).
"""
activate("fr")
@translation.override("pl")
def func_pl():
pass
deactivate()
try:
activate("en")
func_pl()
self.assertEqual(get_language(), "en")
finally:
deactivate()
def test_lazy_objects(self):
"""
Format string interpolation should work with *_lazy objects.
"""
s = gettext_lazy("Add %(name)s")
d = {"name": "Ringo"}
self.assertEqual("Add Ringo", s % d)
with translation.override("de", deactivate=True):
self.assertEqual("Ringo hinzuf\xfcgen", s % d)
with translation.override("pl"):
self.assertEqual("Dodaj Ringo", s % d)
# It should be possible to compare *_lazy objects.
s1 = gettext_lazy("Add %(name)s")
self.assertEqual(s, s1)
s2 = gettext_lazy("Add %(name)s")
s3 = gettext_lazy("Add %(name)s")
self.assertEqual(s2, s3)
self.assertEqual(s, s2)
s4 = gettext_lazy("Some other string")
self.assertNotEqual(s, s4)
def test_lazy_pickle(self):
s1 = gettext_lazy("test")
self.assertEqual(str(s1), "test")
s2 = pickle.loads(pickle.dumps(s1))
self.assertEqual(str(s2), "test")
@override_settings(LOCALE_PATHS=extended_locale_paths)
def test_ngettext_lazy(self):
simple_with_format = ngettext_lazy("%d good result", "%d good results")
simple_context_with_format = npgettext_lazy(
"Exclamation", "%d good result", "%d good results"
)
simple_without_format = ngettext_lazy("good result", "good results")
with translation.override("de"):
self.assertEqual(simple_with_format % 1, "1 gutes Resultat")
self.assertEqual(simple_with_format % 4, "4 guten Resultate")
self.assertEqual(simple_context_with_format % 1, "1 gutes Resultat!")
self.assertEqual(simple_context_with_format % 4, "4 guten Resultate!")
self.assertEqual(simple_without_format % 1, "gutes Resultat")
self.assertEqual(simple_without_format % 4, "guten Resultate")
complex_nonlazy = ngettext_lazy(
"Hi %(name)s, %(num)d good result", "Hi %(name)s, %(num)d good results", 4
)
complex_deferred = ngettext_lazy(
"Hi %(name)s, %(num)d good result",
"Hi %(name)s, %(num)d good results",
"num",
)
complex_context_nonlazy = npgettext_lazy(
"Greeting",
"Hi %(name)s, %(num)d good result",
"Hi %(name)s, %(num)d good results",
4,
)
complex_context_deferred = npgettext_lazy(
"Greeting",
"Hi %(name)s, %(num)d good result",
"Hi %(name)s, %(num)d good results",
"num",
)
with translation.override("de"):
self.assertEqual(
complex_nonlazy % {"num": 4, "name": "Jim"},
"Hallo Jim, 4 guten Resultate",
)
self.assertEqual(
complex_deferred % {"name": "Jim", "num": 1},
"Hallo Jim, 1 gutes Resultat",
)
self.assertEqual(
complex_deferred % {"name": "Jim", "num": 5},
"Hallo Jim, 5 guten Resultate",
)
with self.assertRaisesMessage(KeyError, "Your dictionary lacks key"):
complex_deferred % {"name": "Jim"}
self.assertEqual(
complex_context_nonlazy % {"num": 4, "name": "Jim"},
"Willkommen Jim, 4 guten Resultate",
)
self.assertEqual(
complex_context_deferred % {"name": "Jim", "num": 1},
"Willkommen Jim, 1 gutes Resultat",
)
self.assertEqual(
complex_context_deferred % {"name": "Jim", "num": 5},
"Willkommen Jim, 5 guten Resultate",
)
with self.assertRaisesMessage(KeyError, "Your dictionary lacks key"):
complex_context_deferred % {"name": "Jim"}
@override_settings(LOCALE_PATHS=extended_locale_paths)
def test_ngettext_lazy_format_style(self):
simple_with_format = ngettext_lazy("{} good result", "{} good results")
simple_context_with_format = npgettext_lazy(
"Exclamation", "{} good result", "{} good results"
)
with translation.override("de"):
self.assertEqual(simple_with_format.format(1), "1 gutes Resultat")
self.assertEqual(simple_with_format.format(4), "4 guten Resultate")
self.assertEqual(simple_context_with_format.format(1), "1 gutes Resultat!")
self.assertEqual(simple_context_with_format.format(4), "4 guten Resultate!")
complex_nonlazy = ngettext_lazy(
"Hi {name}, {num} good result", "Hi {name}, {num} good results", 4
)
complex_deferred = ngettext_lazy(
"Hi {name}, {num} good result", "Hi {name}, {num} good results", "num"
)
complex_context_nonlazy = npgettext_lazy(
"Greeting",
"Hi {name}, {num} good result",
"Hi {name}, {num} good results",
4,
)
complex_context_deferred = npgettext_lazy(
"Greeting",
"Hi {name}, {num} good result",
"Hi {name}, {num} good results",
"num",
)
with translation.override("de"):
self.assertEqual(
complex_nonlazy.format(num=4, name="Jim"),
"Hallo Jim, 4 guten Resultate",
)
self.assertEqual(
complex_deferred.format(name="Jim", num=1),
"Hallo Jim, 1 gutes Resultat",
)
self.assertEqual(
complex_deferred.format(name="Jim", num=5),
"Hallo Jim, 5 guten Resultate",
)
with self.assertRaisesMessage(KeyError, "Your dictionary lacks key"):
complex_deferred.format(name="Jim")
self.assertEqual(
complex_context_nonlazy.format(num=4, name="Jim"),
"Willkommen Jim, 4 guten Resultate",
)
self.assertEqual(
complex_context_deferred.format(name="Jim", num=1),
"Willkommen Jim, 1 gutes Resultat",
)
self.assertEqual(
complex_context_deferred.format(name="Jim", num=5),
"Willkommen Jim, 5 guten Resultate",
)
with self.assertRaisesMessage(KeyError, "Your dictionary lacks key"):
complex_context_deferred.format(name="Jim")
def test_ngettext_lazy_bool(self):
self.assertTrue(ngettext_lazy("%d good result", "%d good results"))
self.assertFalse(ngettext_lazy("", ""))
def test_ngettext_lazy_pickle(self):
s1 = ngettext_lazy("%d good result", "%d good results")
self.assertEqual(s1 % 1, "1 good result")
self.assertEqual(s1 % 8, "8 good results")
s2 = pickle.loads(pickle.dumps(s1))
self.assertEqual(s2 % 1, "1 good result")
self.assertEqual(s2 % 8, "8 good results")
@override_settings(LOCALE_PATHS=extended_locale_paths)
def test_pgettext(self):
trans_real._active = Local()
trans_real._translations = {}
with translation.override("de"):
self.assertEqual(pgettext("unexisting", "May"), "May")
self.assertEqual(pgettext("month name", "May"), "Mai")
self.assertEqual(pgettext("verb", "May"), "Kann")
self.assertEqual(
npgettext("search", "%d result", "%d results", 4) % 4, "4 Resultate"
)
def test_empty_value(self):
"""Empty value must stay empty after being translated (#23196)."""
with translation.override("de"):
self.assertEqual("", gettext(""))
s = mark_safe("")
self.assertEqual(s, gettext(s))
@override_settings(LOCALE_PATHS=extended_locale_paths)
def test_safe_status(self):
"""
Translating a string requiring no auto-escaping with gettext or pgettext
shouldn't change the "safe" status.
"""
trans_real._active = Local()
trans_real._translations = {}
s1 = mark_safe("Password")
s2 = mark_safe("May")
with translation.override("de", deactivate=True):
self.assertIs(type(gettext(s1)), SafeString)
self.assertIs(type(pgettext("month name", s2)), SafeString)
self.assertEqual("aPassword", SafeString("a") + s1)
self.assertEqual("Passworda", s1 + SafeString("a"))
self.assertEqual("Passworda", s1 + mark_safe("a"))
self.assertEqual("aPassword", mark_safe("a") + s1)
self.assertEqual("as", mark_safe("a") + mark_safe("s"))
def test_maclines(self):
"""
Translations on files with Mac or DOS end of lines will be converted
to unix EOF in .po catalogs.
"""
ca_translation = trans_real.translation("ca")
ca_translation._catalog["Mac\nEOF\n"] = "Catalan Mac\nEOF\n"
ca_translation._catalog["Win\nEOF\n"] = "Catalan Win\nEOF\n"
with translation.override("ca", deactivate=True):
self.assertEqual("Catalan Mac\nEOF\n", gettext("Mac\rEOF\r"))
self.assertEqual("Catalan Win\nEOF\n", gettext("Win\r\nEOF\r\n"))
def test_to_locale(self):
tests = (
("en", "en"),
("EN", "en"),
("en-us", "en_US"),
("EN-US", "en_US"),
("en_US", "en_US"),
# With > 2 characters after the dash.
("sr-latn", "sr_Latn"),
("sr-LATN", "sr_Latn"),
("sr_Latn", "sr_Latn"),
# 3-char language codes.
("ber-MA", "ber_MA"),
("BER-MA", "ber_MA"),
("BER_MA", "ber_MA"),
("ber_MA", "ber_MA"),
# With private use subtag (x-informal).
("nl-nl-x-informal", "nl_NL-x-informal"),
("NL-NL-X-INFORMAL", "nl_NL-x-informal"),
("sr-latn-x-informal", "sr_Latn-x-informal"),
("SR-LATN-X-INFORMAL", "sr_Latn-x-informal"),
)
for lang, locale in tests:
with self.subTest(lang=lang):
self.assertEqual(to_locale(lang), locale)
def test_to_language(self):
self.assertEqual(to_language("en_US"), "en-us")
self.assertEqual(to_language("sr_Lat"), "sr-lat")
def test_language_bidi(self):
self.assertIs(get_language_bidi(), False)
with translation.override(None):
self.assertIs(get_language_bidi(), False)
def test_language_bidi_null(self):
self.assertIs(trans_null.get_language_bidi(), False)
with override_settings(LANGUAGE_CODE="he"):
self.assertIs(get_language_bidi(), True)
class TranslationLoadingTests(SimpleTestCase):
def setUp(self):
"""Clear translation state."""
self._old_language = get_language()
self._old_translations = trans_real._translations
deactivate()
trans_real._translations = {}
def tearDown(self):
trans_real._translations = self._old_translations
activate(self._old_language)
@override_settings(
USE_I18N=True,
LANGUAGE_CODE="en",
LANGUAGES=[
("en", "English"),
("en-ca", "English (Canada)"),
("en-nz", "English (New Zealand)"),
("en-au", "English (Australia)"),
],
LOCALE_PATHS=[os.path.join(here, "loading")],
INSTALLED_APPS=["i18n.loading_app"],
)
def test_translation_loading(self):
"""
"loading_app" does not have translations for all languages provided by
"loading". Catalogs are merged correctly.
"""
tests = [
("en", "local country person"),
("en_AU", "aussie"),
("en_NZ", "kiwi"),
("en_CA", "canuck"),
]
# Load all relevant translations.
for language, _ in tests:
activate(language)
# Catalogs are merged correctly.
for language, nickname in tests:
with self.subTest(language=language):
activate(language)
self.assertEqual(gettext("local country person"), nickname)
class TranslationThreadSafetyTests(SimpleTestCase):
def setUp(self):
self._old_language = get_language()
self._translations = trans_real._translations
# here we rely on .split() being called inside the _fetch()
# in trans_real.translation()
class sideeffect_str(str):
def split(self, *args, **kwargs):
res = str.split(self, *args, **kwargs)
trans_real._translations["en-YY"] = None
return res
trans_real._translations = {sideeffect_str("en-XX"): None}
def tearDown(self):
trans_real._translations = self._translations
activate(self._old_language)
def test_bug14894_translation_activate_thread_safety(self):
translation_count = len(trans_real._translations)
# May raise RuntimeError if translation.activate() isn't thread-safe.
translation.activate("pl")
# make sure sideeffect_str actually added a new translation
self.assertLess(translation_count, len(trans_real._translations))
class FormattingTests(SimpleTestCase):
def setUp(self):
super().setUp()
self.n = decimal.Decimal("66666.666")
self.f = 99999.999
self.d = datetime.date(2009, 12, 31)
self.dt = datetime.datetime(2009, 12, 31, 20, 50)
self.t = datetime.time(10, 15, 48)
self.long = 10000
self.ctxt = Context(
{
"n": self.n,
"t": self.t,
"d": self.d,
"dt": self.dt,
"f": self.f,
"l": self.long,
}
)
def test_all_format_strings(self):
all_locales = LANG_INFO.keys()
some_date = datetime.date(2017, 10, 14)
some_datetime = datetime.datetime(2017, 10, 14, 10, 23)
for locale in all_locales:
with self.subTest(locale=locale), translation.override(locale):
self.assertIn(
"2017", date_format(some_date)
) # Uses DATE_FORMAT by default
self.assertIn(
"23", time_format(some_datetime)
) # Uses TIME_FORMAT by default
self.assertIn(
"2017",
date_format(some_datetime, format=get_format("DATETIME_FORMAT")),
)
self.assertIn(
"2017",
date_format(some_date, format=get_format("YEAR_MONTH_FORMAT")),
)
self.assertIn(
"14", date_format(some_date, format=get_format("MONTH_DAY_FORMAT"))
)
self.assertIn(
"2017",
date_format(some_date, format=get_format("SHORT_DATE_FORMAT")),
)
self.assertIn(
"2017",
date_format(
some_datetime, format=get_format("SHORT_DATETIME_FORMAT")
),
)
def test_locale_independent(self):
"""
Localization of numbers
"""
with self.settings(USE_THOUSAND_SEPARATOR=False):
self.assertEqual(
"66666.66",
nformat(
self.n, decimal_sep=".", decimal_pos=2, grouping=3, thousand_sep=","
),
)
self.assertEqual(
"66666A6",
nformat(
self.n, decimal_sep="A", decimal_pos=1, grouping=1, thousand_sep="B"
),
)
self.assertEqual(
"66666",
nformat(
self.n, decimal_sep="X", decimal_pos=0, grouping=1, thousand_sep="Y"
),
)
with self.settings(USE_THOUSAND_SEPARATOR=True):
self.assertEqual(
"66,666.66",
nformat(
self.n, decimal_sep=".", decimal_pos=2, grouping=3, thousand_sep=","
),
)
self.assertEqual(
"6B6B6B6B6A6",
nformat(
self.n, decimal_sep="A", decimal_pos=1, grouping=1, thousand_sep="B"
),
)
self.assertEqual(
"-66666.6", nformat(-66666.666, decimal_sep=".", decimal_pos=1)
)
self.assertEqual(
"-66666.0", nformat(int("-66666"), decimal_sep=".", decimal_pos=1)
)
self.assertEqual(
"10000.0", nformat(self.long, decimal_sep=".", decimal_pos=1)
)
self.assertEqual(
"10,00,00,000.00",
nformat(
100000000.00,
decimal_sep=".",
decimal_pos=2,
grouping=(3, 2, 0),
thousand_sep=",",
),
)
self.assertEqual(
"1,0,00,000,0000.00",
nformat(
10000000000.00,
decimal_sep=".",
decimal_pos=2,
grouping=(4, 3, 2, 1, 0),
thousand_sep=",",
),
)
self.assertEqual(
"10000,00,000.00",
nformat(
1000000000.00,
decimal_sep=".",
decimal_pos=2,
grouping=(3, 2, -1),
thousand_sep=",",
),
)
# This unusual grouping/force_grouping combination may be triggered
# by the intcomma filter.
self.assertEqual(
"10000",
nformat(
self.long,
decimal_sep=".",
decimal_pos=0,
grouping=0,
force_grouping=True,
),
)
# date filter
self.assertEqual(
"31.12.2009 в 20:50",
Template('{{ dt|date:"d.m.Y в H:i" }}').render(self.ctxt),
)
self.assertEqual(
"⌚ 10:15", Template('{{ t|time:"⌚ H:i" }}').render(self.ctxt)
)
@ignore_warnings(category=RemovedInDjango50Warning)
@override_settings(USE_L10N=False)
def test_l10n_disabled(self):
"""
Catalan locale with format i18n disabled translations will be used,
but not formats
"""
with translation.override("ca", deactivate=True):
self.maxDiff = 3000
self.assertEqual("N j, Y", get_format("DATE_FORMAT"))
self.assertEqual(0, get_format("FIRST_DAY_OF_WEEK"))
self.assertEqual(".", get_format("DECIMAL_SEPARATOR"))
self.assertEqual("10:15 a.m.", time_format(self.t))
self.assertEqual("Des. 31, 2009", date_format(self.d))
self.assertEqual("desembre 2009", date_format(self.d, "YEAR_MONTH_FORMAT"))
self.assertEqual(
"12/31/2009 8:50 p.m.", date_format(self.dt, "SHORT_DATETIME_FORMAT")
)
self.assertEqual("No localizable", localize("No localizable"))
self.assertEqual("66666.666", localize(self.n))
self.assertEqual("99999.999", localize(self.f))
self.assertEqual("10000", localize(self.long))
self.assertEqual("Des. 31, 2009", localize(self.d))
self.assertEqual("Des. 31, 2009, 8:50 p.m.", localize(self.dt))
self.assertEqual("66666.666", Template("{{ n }}").render(self.ctxt))
self.assertEqual("99999.999", Template("{{ f }}").render(self.ctxt))
self.assertEqual("Des. 31, 2009", Template("{{ d }}").render(self.ctxt))
self.assertEqual(
"Des. 31, 2009, 8:50 p.m.", Template("{{ dt }}").render(self.ctxt)
)
self.assertEqual(
"66666.67", Template('{{ n|floatformat:"2u" }}').render(self.ctxt)
)
self.assertEqual(
"100000.0", Template('{{ f|floatformat:"u" }}').render(self.ctxt)
)
self.assertEqual(
"66666.67",
Template('{{ n|floatformat:"2gu" }}').render(self.ctxt),
)
self.assertEqual(
"100000.0",
Template('{{ f|floatformat:"ug" }}').render(self.ctxt),
)
self.assertEqual(
"10:15 a.m.", Template('{{ t|time:"TIME_FORMAT" }}').render(self.ctxt)
)
self.assertEqual(
"12/31/2009",
Template('{{ d|date:"SHORT_DATE_FORMAT" }}').render(self.ctxt),
)
self.assertEqual(
"12/31/2009 8:50 p.m.",
Template('{{ dt|date:"SHORT_DATETIME_FORMAT" }}').render(self.ctxt),
)
form = I18nForm(
{
"decimal_field": "66666,666",
"float_field": "99999,999",
"date_field": "31/12/2009",
"datetime_field": "31/12/2009 20:50",
"time_field": "20:50",
"integer_field": "1.234",
}
)
self.assertFalse(form.is_valid())
self.assertEqual(["Introdu\xefu un n\xfamero."], form.errors["float_field"])
self.assertEqual(
["Introdu\xefu un n\xfamero."], form.errors["decimal_field"]
)
self.assertEqual(
["Introdu\xefu una data v\xe0lida."], form.errors["date_field"]
)
self.assertEqual(
["Introdu\xefu una data/hora v\xe0lides."],
form.errors["datetime_field"],
)
self.assertEqual(
["Introdu\xefu un n\xfamero enter."], form.errors["integer_field"]
)
form2 = SelectDateForm(
{
"date_field_month": "12",
"date_field_day": "31",
"date_field_year": "2009",
}
)
self.assertTrue(form2.is_valid())
self.assertEqual(
datetime.date(2009, 12, 31), form2.cleaned_data["date_field"]
)
self.assertHTMLEqual(
'<select name="mydate_month" id="id_mydate_month">'
'<option value="">---</option>'
'<option value="1">gener</option>'
'<option value="2">febrer</option>'
'<option value="3">mar\xe7</option>'
'<option value="4">abril</option>'
'<option value="5">maig</option>'
'<option value="6">juny</option>'
'<option value="7">juliol</option>'
'<option value="8">agost</option>'
'<option value="9">setembre</option>'
'<option value="10">octubre</option>'
'<option value="11">novembre</option>'
'<option value="12" selected>desembre</option>'
"</select>"
'<select name="mydate_day" id="id_mydate_day">'
'<option value="">---</option>'
'<option value="1">1</option>'
'<option value="2">2</option>'
'<option value="3">3</option>'
'<option value="4">4</option>'
'<option value="5">5</option>'
'<option value="6">6</option>'
'<option value="7">7</option>'
'<option value="8">8</option>'
'<option value="9">9</option>'
'<option value="10">10</option>'
'<option value="11">11</option>'
'<option value="12">12</option>'
'<option value="13">13</option>'
'<option value="14">14</option>'
'<option value="15">15</option>'
'<option value="16">16</option>'
'<option value="17">17</option>'
'<option value="18">18</option>'
'<option value="19">19</option>'
'<option value="20">20</option>'
'<option value="21">21</option>'
'<option value="22">22</option>'
'<option value="23">23</option>'
'<option value="24">24</option>'
'<option value="25">25</option>'
'<option value="26">26</option>'
'<option value="27">27</option>'
'<option value="28">28</option>'
'<option value="29">29</option>'
'<option value="30">30</option>'
'<option value="31" selected>31</option>'
"</select>"
'<select name="mydate_year" id="id_mydate_year">'
'<option value="">---</option>'
'<option value="2009" selected>2009</option>'
'<option value="2010">2010</option>'
'<option value="2011">2011</option>'
'<option value="2012">2012</option>'
'<option value="2013">2013</option>'
'<option value="2014">2014</option>'
'<option value="2015">2015</option>'
'<option value="2016">2016</option>'
'<option value="2017">2017</option>'
'<option value="2018">2018</option>'
"</select>",
forms.SelectDateWidget(years=range(2009, 2019)).render(
"mydate", datetime.date(2009, 12, 31)
),
)
# We shouldn't change the behavior of the floatformat filter re:
# thousand separator and grouping when localization is disabled
# even if the USE_THOUSAND_SEPARATOR, NUMBER_GROUPING and
# THOUSAND_SEPARATOR settings are specified.
with self.settings(
USE_THOUSAND_SEPARATOR=True, NUMBER_GROUPING=1, THOUSAND_SEPARATOR="!"
):
self.assertEqual(
"66666.67", Template('{{ n|floatformat:"2u" }}').render(self.ctxt)
)
self.assertEqual(
"100000.0", Template('{{ f|floatformat:"u" }}').render(self.ctxt)
)
def test_false_like_locale_formats(self):
"""
The active locale's formats take precedence over the default settings
even if they would be interpreted as False in a conditional test
(e.g. 0 or empty string) (#16938).
"""
with translation.override("fr"):
with self.settings(USE_THOUSAND_SEPARATOR=True, THOUSAND_SEPARATOR="!"):
self.assertEqual("\xa0", get_format("THOUSAND_SEPARATOR"))
# Even a second time (after the format has been cached)...
self.assertEqual("\xa0", get_format("THOUSAND_SEPARATOR"))
with self.settings(FIRST_DAY_OF_WEEK=0):
self.assertEqual(1, get_format("FIRST_DAY_OF_WEEK"))
# Even a second time (after the format has been cached)...
self.assertEqual(1, get_format("FIRST_DAY_OF_WEEK"))
def test_l10n_enabled(self):
self.maxDiff = 3000
# Catalan locale
with translation.override("ca", deactivate=True):
self.assertEqual(r"j \d\e F \d\e Y", get_format("DATE_FORMAT"))
self.assertEqual(1, get_format("FIRST_DAY_OF_WEEK"))
self.assertEqual(",", get_format("DECIMAL_SEPARATOR"))
self.assertEqual("10:15", time_format(self.t))
self.assertEqual("31 de desembre de 2009", date_format(self.d))
self.assertEqual(
"desembre del 2009", date_format(self.d, "YEAR_MONTH_FORMAT")
)
self.assertEqual(
"31/12/2009 20:50", date_format(self.dt, "SHORT_DATETIME_FORMAT")
)
self.assertEqual("No localizable", localize("No localizable"))
with self.settings(USE_THOUSAND_SEPARATOR=True):
self.assertEqual("66.666,666", localize(self.n))
self.assertEqual("99.999,999", localize(self.f))
self.assertEqual("10.000", localize(self.long))
self.assertEqual("True", localize(True))
with self.settings(USE_THOUSAND_SEPARATOR=False):
self.assertEqual("66666,666", localize(self.n))
self.assertEqual("99999,999", localize(self.f))
self.assertEqual("10000", localize(self.long))
self.assertEqual("31 de desembre de 2009", localize(self.d))
self.assertEqual(
"31 de desembre de 2009 a les 20:50", localize(self.dt)
)
with self.settings(USE_THOUSAND_SEPARATOR=True):
self.assertEqual("66.666,666", Template("{{ n }}").render(self.ctxt))
self.assertEqual("99.999,999", Template("{{ f }}").render(self.ctxt))
self.assertEqual("10.000", Template("{{ l }}").render(self.ctxt))
with self.settings(USE_THOUSAND_SEPARATOR=True):
form3 = I18nForm(
{
"decimal_field": "66.666,666",
"float_field": "99.999,999",
"date_field": "31/12/2009",
"datetime_field": "31/12/2009 20:50",
"time_field": "20:50",
"integer_field": "1.234",
}
)
self.assertTrue(form3.is_valid())
self.assertEqual(
decimal.Decimal("66666.666"), form3.cleaned_data["decimal_field"]
)
self.assertEqual(99999.999, form3.cleaned_data["float_field"])
self.assertEqual(
datetime.date(2009, 12, 31), form3.cleaned_data["date_field"]
)
self.assertEqual(
datetime.datetime(2009, 12, 31, 20, 50),
form3.cleaned_data["datetime_field"],
)
self.assertEqual(
datetime.time(20, 50), form3.cleaned_data["time_field"]
)
self.assertEqual(1234, form3.cleaned_data["integer_field"])
with self.settings(USE_THOUSAND_SEPARATOR=False):
self.assertEqual("66666,666", Template("{{ n }}").render(self.ctxt))
self.assertEqual("99999,999", Template("{{ f }}").render(self.ctxt))
self.assertEqual(
"31 de desembre de 2009", Template("{{ d }}").render(self.ctxt)
)
self.assertEqual(
"31 de desembre de 2009 a les 20:50",
Template("{{ dt }}").render(self.ctxt),
)
self.assertEqual(
"66666,67", Template("{{ n|floatformat:2 }}").render(self.ctxt)
)
self.assertEqual(
"100000,0", Template("{{ f|floatformat }}").render(self.ctxt)
)
self.assertEqual(
"66.666,67",
Template('{{ n|floatformat:"2g" }}').render(self.ctxt),
)
self.assertEqual(
"100.000,0",
Template('{{ f|floatformat:"g" }}').render(self.ctxt),
)
self.assertEqual(
"10:15", Template('{{ t|time:"TIME_FORMAT" }}').render(self.ctxt)
)
self.assertEqual(
"31/12/2009",
Template('{{ d|date:"SHORT_DATE_FORMAT" }}').render(self.ctxt),
)
self.assertEqual(
"31/12/2009 20:50",
Template('{{ dt|date:"SHORT_DATETIME_FORMAT" }}').render(self.ctxt),
)
self.assertEqual(
date_format(datetime.datetime.now(), "DATE_FORMAT"),
Template('{% now "DATE_FORMAT" %}').render(self.ctxt),
)
with self.settings(USE_THOUSAND_SEPARATOR=False):
form4 = I18nForm(
{
"decimal_field": "66666,666",
"float_field": "99999,999",
"date_field": "31/12/2009",
"datetime_field": "31/12/2009 20:50",
"time_field": "20:50",
"integer_field": "1234",
}
)
self.assertTrue(form4.is_valid())
self.assertEqual(
decimal.Decimal("66666.666"), form4.cleaned_data["decimal_field"]
)
self.assertEqual(99999.999, form4.cleaned_data["float_field"])
self.assertEqual(
datetime.date(2009, 12, 31), form4.cleaned_data["date_field"]
)
self.assertEqual(
datetime.datetime(2009, 12, 31, 20, 50),
form4.cleaned_data["datetime_field"],
)
self.assertEqual(
datetime.time(20, 50), form4.cleaned_data["time_field"]
)
self.assertEqual(1234, form4.cleaned_data["integer_field"])
form5 = SelectDateForm(
{
"date_field_month": "12",
"date_field_day": "31",
"date_field_year": "2009",
}
)
self.assertTrue(form5.is_valid())
self.assertEqual(
datetime.date(2009, 12, 31), form5.cleaned_data["date_field"]
)
self.assertHTMLEqual(
'<select name="mydate_day" id="id_mydate_day">'
'<option value="">---</option>'
'<option value="1">1</option>'
'<option value="2">2</option>'
'<option value="3">3</option>'
'<option value="4">4</option>'
'<option value="5">5</option>'
'<option value="6">6</option>'
'<option value="7">7</option>'
'<option value="8">8</option>'
'<option value="9">9</option>'
'<option value="10">10</option>'
'<option value="11">11</option>'
'<option value="12">12</option>'
'<option value="13">13</option>'
'<option value="14">14</option>'
'<option value="15">15</option>'
'<option value="16">16</option>'
'<option value="17">17</option>'
'<option value="18">18</option>'
'<option value="19">19</option>'
'<option value="20">20</option>'
'<option value="21">21</option>'
'<option value="22">22</option>'
'<option value="23">23</option>'
'<option value="24">24</option>'
'<option value="25">25</option>'
'<option value="26">26</option>'
'<option value="27">27</option>'
'<option value="28">28</option>'
'<option value="29">29</option>'
'<option value="30">30</option>'
'<option value="31" selected>31</option>'
"</select>"
'<select name="mydate_month" id="id_mydate_month">'
'<option value="">---</option>'
'<option value="1">gener</option>'
'<option value="2">febrer</option>'
'<option value="3">mar\xe7</option>'
'<option value="4">abril</option>'
'<option value="5">maig</option>'
'<option value="6">juny</option>'
'<option value="7">juliol</option>'
'<option value="8">agost</option>'
'<option value="9">setembre</option>'
'<option value="10">octubre</option>'
'<option value="11">novembre</option>'
'<option value="12" selected>desembre</option>'
"</select>"
'<select name="mydate_year" id="id_mydate_year">'
'<option value="">---</option>'
'<option value="2009" selected>2009</option>'
'<option value="2010">2010</option>'
'<option value="2011">2011</option>'
'<option value="2012">2012</option>'
'<option value="2013">2013</option>'
'<option value="2014">2014</option>'
'<option value="2015">2015</option>'
'<option value="2016">2016</option>'
'<option value="2017">2017</option>'
'<option value="2018">2018</option>'
"</select>",
forms.SelectDateWidget(years=range(2009, 2019)).render(
"mydate", datetime.date(2009, 12, 31)
),
)
# Russian locale (with E as month)
with translation.override("ru", deactivate=True):
self.assertHTMLEqual(
'<select name="mydate_day" id="id_mydate_day">'
'<option value="">---</option>'
'<option value="1">1</option>'
'<option value="2">2</option>'
'<option value="3">3</option>'
'<option value="4">4</option>'
'<option value="5">5</option>'
'<option value="6">6</option>'
'<option value="7">7</option>'
'<option value="8">8</option>'
'<option value="9">9</option>'
'<option value="10">10</option>'
'<option value="11">11</option>'
'<option value="12">12</option>'
'<option value="13">13</option>'
'<option value="14">14</option>'
'<option value="15">15</option>'
'<option value="16">16</option>'
'<option value="17">17</option>'
'<option value="18">18</option>'
'<option value="19">19</option>'
'<option value="20">20</option>'
'<option value="21">21</option>'
'<option value="22">22</option>'
'<option value="23">23</option>'
'<option value="24">24</option>'
'<option value="25">25</option>'
'<option value="26">26</option>'
'<option value="27">27</option>'
'<option value="28">28</option>'
'<option value="29">29</option>'
'<option value="30">30</option>'
'<option value="31" selected>31</option>'
"</select>"
'<select name="mydate_month" id="id_mydate_month">'
'<option value="">---</option>'
'<option value="1">\u042f\u043d\u0432\u0430\u0440\u044c</option>'
'<option value="2">\u0424\u0435\u0432\u0440\u0430\u043b\u044c</option>'
'<option value="3">\u041c\u0430\u0440\u0442</option>'
'<option value="4">\u0410\u043f\u0440\u0435\u043b\u044c</option>'
'<option value="5">\u041c\u0430\u0439</option>'
'<option value="6">\u0418\u044e\u043d\u044c</option>'
'<option value="7">\u0418\u044e\u043b\u044c</option>'
'<option value="8">\u0410\u0432\u0433\u0443\u0441\u0442</option>'
'<option value="9">\u0421\u0435\u043d\u0442\u044f\u0431\u0440\u044c'
"</option>"
'<option value="10">\u041e\u043a\u0442\u044f\u0431\u0440\u044c</option>'
'<option value="11">\u041d\u043e\u044f\u0431\u0440\u044c</option>'
'<option value="12" selected>\u0414\u0435\u043a\u0430\u0431\u0440\u044c'
"</option>"
"</select>"
'<select name="mydate_year" id="id_mydate_year">'
'<option value="">---</option>'
'<option value="2009" selected>2009</option>'
'<option value="2010">2010</option>'
'<option value="2011">2011</option>'
'<option value="2012">2012</option>'
'<option value="2013">2013</option>'
'<option value="2014">2014</option>'
'<option value="2015">2015</option>'
'<option value="2016">2016</option>'
'<option value="2017">2017</option>'
'<option value="2018">2018</option>'
"</select>",
forms.SelectDateWidget(years=range(2009, 2019)).render(
"mydate", datetime.date(2009, 12, 31)
),
)
# English locale
with translation.override("en", deactivate=True):
self.assertEqual("N j, Y", get_format("DATE_FORMAT"))
self.assertEqual(0, get_format("FIRST_DAY_OF_WEEK"))
self.assertEqual(".", get_format("DECIMAL_SEPARATOR"))
self.assertEqual("Dec. 31, 2009", date_format(self.d))
self.assertEqual("December 2009", date_format(self.d, "YEAR_MONTH_FORMAT"))
self.assertEqual(
"12/31/2009 8:50 p.m.", date_format(self.dt, "SHORT_DATETIME_FORMAT")
)
self.assertEqual("No localizable", localize("No localizable"))
with self.settings(USE_THOUSAND_SEPARATOR=True):
self.assertEqual("66,666.666", localize(self.n))
self.assertEqual("99,999.999", localize(self.f))
self.assertEqual("10,000", localize(self.long))
with self.settings(USE_THOUSAND_SEPARATOR=False):
self.assertEqual("66666.666", localize(self.n))
self.assertEqual("99999.999", localize(self.f))
self.assertEqual("10000", localize(self.long))
self.assertEqual("Dec. 31, 2009", localize(self.d))
self.assertEqual("Dec. 31, 2009, 8:50 p.m.", localize(self.dt))
with self.settings(USE_THOUSAND_SEPARATOR=True):
self.assertEqual("66,666.666", Template("{{ n }}").render(self.ctxt))
self.assertEqual("99,999.999", Template("{{ f }}").render(self.ctxt))
self.assertEqual("10,000", Template("{{ l }}").render(self.ctxt))
with self.settings(USE_THOUSAND_SEPARATOR=False):
self.assertEqual("66666.666", Template("{{ n }}").render(self.ctxt))
self.assertEqual("99999.999", Template("{{ f }}").render(self.ctxt))
self.assertEqual("Dec. 31, 2009", Template("{{ d }}").render(self.ctxt))
self.assertEqual(
"Dec. 31, 2009, 8:50 p.m.", Template("{{ dt }}").render(self.ctxt)
)
self.assertEqual(
"66666.67", Template("{{ n|floatformat:2 }}").render(self.ctxt)
)
self.assertEqual(
"100000.0", Template("{{ f|floatformat }}").render(self.ctxt)
)
self.assertEqual(
"66,666.67",
Template('{{ n|floatformat:"2g" }}').render(self.ctxt),
)
self.assertEqual(
"100,000.0",
Template('{{ f|floatformat:"g" }}').render(self.ctxt),
)
self.assertEqual(
"12/31/2009",
Template('{{ d|date:"SHORT_DATE_FORMAT" }}').render(self.ctxt),
)
self.assertEqual(
"12/31/2009 8:50 p.m.",
Template('{{ dt|date:"SHORT_DATETIME_FORMAT" }}').render(self.ctxt),
)
form5 = I18nForm(
{
"decimal_field": "66666.666",
"float_field": "99999.999",
"date_field": "12/31/2009",
"datetime_field": "12/31/2009 20:50",
"time_field": "20:50",
"integer_field": "1234",
}
)
self.assertTrue(form5.is_valid())
self.assertEqual(
decimal.Decimal("66666.666"), form5.cleaned_data["decimal_field"]
)
self.assertEqual(99999.999, form5.cleaned_data["float_field"])
self.assertEqual(
datetime.date(2009, 12, 31), form5.cleaned_data["date_field"]
)
self.assertEqual(
datetime.datetime(2009, 12, 31, 20, 50),
form5.cleaned_data["datetime_field"],
)
self.assertEqual(datetime.time(20, 50), form5.cleaned_data["time_field"])
self.assertEqual(1234, form5.cleaned_data["integer_field"])
form6 = SelectDateForm(
{
"date_field_month": "12",
"date_field_day": "31",
"date_field_year": "2009",
}
)
self.assertTrue(form6.is_valid())
self.assertEqual(
datetime.date(2009, 12, 31), form6.cleaned_data["date_field"]
)
self.assertHTMLEqual(
'<select name="mydate_month" id="id_mydate_month">'
'<option value="">---</option>'
'<option value="1">January</option>'
'<option value="2">February</option>'
'<option value="3">March</option>'
'<option value="4">April</option>'
'<option value="5">May</option>'
'<option value="6">June</option>'
'<option value="7">July</option>'
'<option value="8">August</option>'
'<option value="9">September</option>'
'<option value="10">October</option>'
'<option value="11">November</option>'
'<option value="12" selected>December</option>'
"</select>"
'<select name="mydate_day" id="id_mydate_day">'
'<option value="">---</option>'
'<option value="1">1</option>'
'<option value="2">2</option>'
'<option value="3">3</option>'
'<option value="4">4</option>'
'<option value="5">5</option>'
'<option value="6">6</option>'
'<option value="7">7</option>'
'<option value="8">8</option>'
'<option value="9">9</option>'
'<option value="10">10</option>'
'<option value="11">11</option>'
'<option value="12">12</option>'
'<option value="13">13</option>'
'<option value="14">14</option>'
'<option value="15">15</option>'
'<option value="16">16</option>'
'<option value="17">17</option>'
'<option value="18">18</option>'
'<option value="19">19</option>'
'<option value="20">20</option>'
'<option value="21">21</option>'
'<option value="22">22</option>'
'<option value="23">23</option>'
'<option value="24">24</option>'
'<option value="25">25</option>'
'<option value="26">26</option>'
'<option value="27">27</option>'
'<option value="28">28</option>'
'<option value="29">29</option>'
'<option value="30">30</option>'
'<option value="31" selected>31</option>'
"</select>"
'<select name="mydate_year" id="id_mydate_year">'
'<option value="">---</option>'
'<option value="2009" selected>2009</option>'
'<option value="2010">2010</option>'
'<option value="2011">2011</option>'
'<option value="2012">2012</option>'
'<option value="2013">2013</option>'
'<option value="2014">2014</option>'
'<option value="2015">2015</option>'
'<option value="2016">2016</option>'
'<option value="2017">2017</option>'
'<option value="2018">2018</option>'
"</select>",
forms.SelectDateWidget(years=range(2009, 2019)).render(
"mydate", datetime.date(2009, 12, 31)
),
)
def test_sub_locales(self):
"""
Check if sublocales fall back to the main locale
"""
with self.settings(USE_THOUSAND_SEPARATOR=True):
with translation.override("de-at", deactivate=True):
self.assertEqual("66.666,666", Template("{{ n }}").render(self.ctxt))
with translation.override("es-us", deactivate=True):
self.assertEqual("31 de Diciembre de 2009", date_format(self.d))
def test_localized_input(self):
"""
Tests if form input is correctly localized
"""
self.maxDiff = 1200
with translation.override("de-at", deactivate=True):
form6 = CompanyForm(
{
"name": "acme",
"date_added": datetime.datetime(2009, 12, 31, 6, 0, 0),
"cents_paid": decimal.Decimal("59.47"),
"products_delivered": 12000,
}
)
self.assertTrue(form6.is_valid())
self.assertHTMLEqual(
form6.as_ul(),
'<li><label for="id_name">Name:</label>'
'<input id="id_name" type="text" name="name" value="acme" '
' maxlength="50" required></li>'
'<li><label for="id_date_added">Date added:</label>'
'<input type="text" name="date_added" value="31.12.2009 06:00:00" '
' id="id_date_added" required></li>'
'<li><label for="id_cents_paid">Cents paid:</label>'
'<input type="text" name="cents_paid" value="59,47" id="id_cents_paid" '
" required></li>"
'<li><label for="id_products_delivered">Products delivered:</label>'
'<input type="text" name="products_delivered" value="12000" '
' id="id_products_delivered" required>'
"</li>",
)
self.assertEqual(
localize_input(datetime.datetime(2009, 12, 31, 6, 0, 0)),
"31.12.2009 06:00:00",
)
self.assertEqual(
datetime.datetime(2009, 12, 31, 6, 0, 0),
form6.cleaned_data["date_added"],
)
with self.settings(USE_THOUSAND_SEPARATOR=True):
# Checking for the localized "products_delivered" field
self.assertInHTML(
'<input type="text" name="products_delivered" '
'value="12.000" id="id_products_delivered" required>',
form6.as_ul(),
)
def test_localized_input_func(self):
tests = (
(True, "True"),
(datetime.date(1, 1, 1), "0001-01-01"),
(datetime.datetime(1, 1, 1), "0001-01-01 00:00:00"),
)
with self.settings(USE_THOUSAND_SEPARATOR=True):
for value, expected in tests:
with self.subTest(value=value):
self.assertEqual(localize_input(value), expected)
def test_sanitize_strftime_format(self):
for year in (1, 99, 999, 1000):
dt = datetime.date(year, 1, 1)
for fmt, expected in [
("%C", "%02d" % (year // 100)),
("%F", "%04d-01-01" % year),
("%G", "%04d" % year),
("%Y", "%04d" % year),
]:
with self.subTest(year=year, fmt=fmt):
fmt = sanitize_strftime_format(fmt)
self.assertEqual(dt.strftime(fmt), expected)
def test_sanitize_strftime_format_with_escaped_percent(self):
dt = datetime.date(1, 1, 1)
for fmt, expected in [
("%%C", "%C"),
("%%F", "%F"),
("%%G", "%G"),
("%%Y", "%Y"),
("%%%%C", "%%C"),
("%%%%F", "%%F"),
("%%%%G", "%%G"),
("%%%%Y", "%%Y"),
]:
with self.subTest(fmt=fmt):
fmt = sanitize_strftime_format(fmt)
self.assertEqual(dt.strftime(fmt), expected)
for year in (1, 99, 999, 1000):
dt = datetime.date(year, 1, 1)
for fmt, expected in [
("%%%C", "%%%02d" % (year // 100)),
("%%%F", "%%%04d-01-01" % year),
("%%%G", "%%%04d" % year),
("%%%Y", "%%%04d" % year),
("%%%%%C", "%%%%%02d" % (year // 100)),
("%%%%%F", "%%%%%04d-01-01" % year),
("%%%%%G", "%%%%%04d" % year),
("%%%%%Y", "%%%%%04d" % year),
]:
with self.subTest(year=year, fmt=fmt):
fmt = sanitize_strftime_format(fmt)
self.assertEqual(dt.strftime(fmt), expected)
def test_sanitize_separators(self):
"""
Tests django.utils.formats.sanitize_separators.
"""
# Non-strings are untouched
self.assertEqual(sanitize_separators(123), 123)
with translation.override("ru", deactivate=True):
# Russian locale has non-breaking space (\xa0) as thousand separator
# Usual space is accepted too when sanitizing inputs
with self.settings(USE_THOUSAND_SEPARATOR=True):
self.assertEqual(sanitize_separators("1\xa0234\xa0567"), "1234567")
self.assertEqual(sanitize_separators("77\xa0777,777"), "77777.777")
self.assertEqual(sanitize_separators("12 345"), "12345")
self.assertEqual(sanitize_separators("77 777,777"), "77777.777")
with translation.override(None): # RemovedInDjango50Warning
with self.settings(USE_THOUSAND_SEPARATOR=True, THOUSAND_SEPARATOR="."):
self.assertEqual(sanitize_separators("12\xa0345"), "12\xa0345")
with self.settings(USE_THOUSAND_SEPARATOR=True):
with patch_formats(
get_language(), THOUSAND_SEPARATOR=".", DECIMAL_SEPARATOR=","
):
self.assertEqual(sanitize_separators("10.234"), "10234")
# Suspicion that user entered dot as decimal separator (#22171)
self.assertEqual(sanitize_separators("10.10"), "10.10")
# RemovedInDjango50Warning: When the deprecation ends, remove
# @ignore_warnings and USE_L10N=False. The assertions should remain
# because format-related settings will take precedence over
# locale-dictated formats.
with ignore_warnings(category=RemovedInDjango50Warning):
with self.settings(USE_L10N=False):
with self.settings(DECIMAL_SEPARATOR=","):
self.assertEqual(sanitize_separators("1001,10"), "1001.10")
self.assertEqual(sanitize_separators("1001.10"), "1001.10")
with self.settings(
DECIMAL_SEPARATOR=",",
THOUSAND_SEPARATOR=".",
USE_THOUSAND_SEPARATOR=True,
):
self.assertEqual(sanitize_separators("1.001,10"), "1001.10")
self.assertEqual(sanitize_separators("1001,10"), "1001.10")
self.assertEqual(sanitize_separators("1001.10"), "1001.10")
# Invalid output.
self.assertEqual(sanitize_separators("1,001.10"), "1.001.10")
def test_iter_format_modules(self):
"""
Tests the iter_format_modules function.
"""
# Importing some format modules so that we can compare the returned
# modules with these expected modules
default_mod = import_module("django.conf.locale.de.formats")
test_mod = import_module("i18n.other.locale.de.formats")
test_mod2 = import_module("i18n.other2.locale.de.formats")
with translation.override("de-at", deactivate=True):
# Should return the correct default module when no setting is set
self.assertEqual(list(iter_format_modules("de")), [default_mod])
# When the setting is a string, should return the given module and
# the default module
self.assertEqual(
list(iter_format_modules("de", "i18n.other.locale")),
[test_mod, default_mod],
)
# When setting is a list of strings, should return the given
# modules and the default module
self.assertEqual(
list(
iter_format_modules(
"de", ["i18n.other.locale", "i18n.other2.locale"]
)
),
[test_mod, test_mod2, default_mod],
)
def test_iter_format_modules_stability(self):
"""
Tests the iter_format_modules function always yields format modules in
a stable and correct order in presence of both base ll and ll_CC formats.
"""
en_format_mod = import_module("django.conf.locale.en.formats")
en_gb_format_mod = import_module("django.conf.locale.en_GB.formats")
self.assertEqual(
list(iter_format_modules("en-gb")), [en_gb_format_mod, en_format_mod]
)
def test_get_format_modules_lang(self):
with translation.override("de", deactivate=True):
self.assertEqual(".", get_format("DECIMAL_SEPARATOR", lang="en"))
def test_localize_templatetag_and_filter(self):
"""
Test the {% localize %} templatetag and the localize/unlocalize filters.
"""
context = Context(
{"int": 1455, "float": 3.14, "date": datetime.date(2016, 12, 31)}
)
template1 = Template(
"{% load l10n %}{% localize %}"
"{{ int }}/{{ float }}/{{ date }}{% endlocalize %}; "
"{% localize on %}{{ int }}/{{ float }}/{{ date }}{% endlocalize %}"
)
template2 = Template(
"{% load l10n %}{{ int }}/{{ float }}/{{ date }}; "
"{% localize off %}{{ int }}/{{ float }}/{{ date }};{% endlocalize %} "
"{{ int }}/{{ float }}/{{ date }}"
)
template3 = Template(
"{% load l10n %}{{ int }}/{{ float }}/{{ date }}; "
"{{ int|unlocalize }}/{{ float|unlocalize }}/{{ date|unlocalize }}"
)
template4 = Template(
"{% load l10n %}{{ int }}/{{ float }}/{{ date }}; "
"{{ int|localize }}/{{ float|localize }}/{{ date|localize }}"
)
expected_localized = "1.455/3,14/31. Dezember 2016"
expected_unlocalized = "1455/3.14/Dez. 31, 2016"
output1 = "; ".join([expected_localized, expected_localized])
output2 = "; ".join(
[expected_localized, expected_unlocalized, expected_localized]
)
output3 = "; ".join([expected_localized, expected_unlocalized])
output4 = "; ".join([expected_unlocalized, expected_localized])
with translation.override("de", deactivate=True):
# RemovedInDjango50Warning: When the deprecation ends, remove
# @ignore_warnings and USE_L10N=False. The assertions should remain
# because format-related settings will take precedence over
# locale-dictated formats.
with ignore_warnings(category=RemovedInDjango50Warning):
with self.settings(
USE_L10N=False,
DATE_FORMAT="N j, Y",
DECIMAL_SEPARATOR=".",
NUMBER_GROUPING=0,
USE_THOUSAND_SEPARATOR=True,
):
self.assertEqual(template1.render(context), output1)
self.assertEqual(template4.render(context), output4)
with self.settings(USE_THOUSAND_SEPARATOR=True):
self.assertEqual(template1.render(context), output1)
self.assertEqual(template2.render(context), output2)
self.assertEqual(template3.render(context), output3)
def test_localized_off_numbers(self):
"""A string representation is returned for unlocalized numbers."""
template = Template(
"{% load l10n %}{% localize off %}"
"{{ int }}/{{ float }}/{{ decimal }}{% endlocalize %}"
)
context = Context(
{"int": 1455, "float": 3.14, "decimal": decimal.Decimal("24.1567")}
)
with self.settings(
DECIMAL_SEPARATOR=",",
USE_THOUSAND_SEPARATOR=True,
THOUSAND_SEPARATOR="°",
NUMBER_GROUPING=2,
):
self.assertEqual(template.render(context), "1455/3.14/24.1567")
# RemovedInDjango50Warning.
with ignore_warnings(category=RemovedInDjango50Warning):
with self.settings(
USE_L10N=False,
DECIMAL_SEPARATOR=",",
USE_THOUSAND_SEPARATOR=True,
THOUSAND_SEPARATOR="°",
NUMBER_GROUPING=2,
):
self.assertEqual(template.render(context), "1455/3.14/24.1567")
def test_localized_as_text_as_hidden_input(self):
"""
Form input with 'as_hidden' or 'as_text' is correctly localized.
"""
self.maxDiff = 1200
with translation.override("de-at", deactivate=True):
template = Template(
"{% load l10n %}{{ form.date_added }}; {{ form.cents_paid }}"
)
template_as_text = Template(
"{% load l10n %}"
"{{ form.date_added.as_text }}; {{ form.cents_paid.as_text }}"
)
template_as_hidden = Template(
"{% load l10n %}"
"{{ form.date_added.as_hidden }}; {{ form.cents_paid.as_hidden }}"
)
form = CompanyForm(
{
"name": "acme",
"date_added": datetime.datetime(2009, 12, 31, 6, 0, 0),
"cents_paid": decimal.Decimal("59.47"),
"products_delivered": 12000,
}
)
context = Context({"form": form})
self.assertTrue(form.is_valid())
self.assertHTMLEqual(
template.render(context),
'<input id="id_date_added" name="date_added" type="text" '
'value="31.12.2009 06:00:00" required>;'
'<input id="id_cents_paid" name="cents_paid" type="text" value="59,47" '
"required>",
)
self.assertHTMLEqual(
template_as_text.render(context),
'<input id="id_date_added" name="date_added" type="text" '
'value="31.12.2009 06:00:00" required>;'
'<input id="id_cents_paid" name="cents_paid" type="text" value="59,47" '
"required>",
)
self.assertHTMLEqual(
template_as_hidden.render(context),
'<input id="id_date_added" name="date_added" type="hidden" '
'value="31.12.2009 06:00:00">;'
'<input id="id_cents_paid" name="cents_paid" type="hidden" '
'value="59,47">',
)
def test_format_arbitrary_settings(self):
self.assertEqual(get_format("DEBUG"), "DEBUG")
def test_get_custom_format(self):
reset_format_cache()
with self.settings(FORMAT_MODULE_PATH="i18n.other.locale"):
with translation.override("fr", deactivate=True):
self.assertEqual("d/m/Y CUSTOM", get_format("CUSTOM_DAY_FORMAT"))
def test_admin_javascript_supported_input_formats(self):
"""
The first input format for DATE_INPUT_FORMATS, TIME_INPUT_FORMATS, and
DATETIME_INPUT_FORMATS must not contain %f since that's unsupported by
the admin's time picker widget.
"""
regex = re.compile("%([^BcdHImMpSwxXyY%])")
for language_code, language_name in settings.LANGUAGES:
for format_name in (
"DATE_INPUT_FORMATS",
"TIME_INPUT_FORMATS",
"DATETIME_INPUT_FORMATS",
):
with self.subTest(language=language_code, format=format_name):
formatter = get_format(format_name, lang=language_code)[0]
self.assertEqual(
regex.findall(formatter),
[],
"%s locale's %s uses an unsupported format code."
% (language_code, format_name),
)
class MiscTests(SimpleTestCase):
rf = RequestFactory()
@override_settings(LANGUAGE_CODE="de")
def test_english_fallback(self):
"""
With a non-English LANGUAGE_CODE and if the active language is English
or one of its variants, the untranslated string should be returned
(instead of falling back to LANGUAGE_CODE) (See #24413).
"""
self.assertEqual(gettext("Image"), "Bild")
with translation.override("en"):
self.assertEqual(gettext("Image"), "Image")
with translation.override("en-us"):
self.assertEqual(gettext("Image"), "Image")
with translation.override("en-ca"):
self.assertEqual(gettext("Image"), "Image")
def test_parse_spec_http_header(self):
"""
Testing HTTP header parsing. First, we test that we can parse the
values according to the spec (and that we extract all the pieces in
the right order).
"""
tests = [
# Good headers
("de", [("de", 1.0)]),
("en-AU", [("en-au", 1.0)]),
("es-419", [("es-419", 1.0)]),
("*;q=1.00", [("*", 1.0)]),
("en-AU;q=0.123", [("en-au", 0.123)]),
("en-au;q=0.5", [("en-au", 0.5)]),
("en-au;q=1.0", [("en-au", 1.0)]),
("da, en-gb;q=0.25, en;q=0.5", [("da", 1.0), ("en", 0.5), ("en-gb", 0.25)]),
("en-au-xx", [("en-au-xx", 1.0)]),
(
"de,en-au;q=0.75,en-us;q=0.5,en;q=0.25,es;q=0.125,fa;q=0.125",
[
("de", 1.0),
("en-au", 0.75),
("en-us", 0.5),
("en", 0.25),
("es", 0.125),
("fa", 0.125),
],
),
("*", [("*", 1.0)]),
("de;q=0.", [("de", 0.0)]),
("en; q=1,", [("en", 1.0)]),
("en; q=1.0, * ; q=0.5", [("en", 1.0), ("*", 0.5)]),
# Bad headers
("en-gb;q=1.0000", []),
("en;q=0.1234", []),
("en;q=.2", []),
("abcdefghi-au", []),
("**", []),
("en,,gb", []),
("en-au;q=0.1.0", []),
(("X" * 97) + "Z,en", []),
("da, en-gb;q=0.8, en;q=0.7,#", []),
("de;q=2.0", []),
("de;q=0.a", []),
("12-345", []),
("", []),
("en;q=1e0", []),
("en-au;q=1.0", []),
]
for value, expected in tests:
with self.subTest(value=value):
self.assertEqual(
trans_real.parse_accept_lang_header(value), tuple(expected)
)
def test_parse_literal_http_header(self):
"""
Now test that we parse a literal HTTP header correctly.
"""
g = get_language_from_request
r = self.rf.get("/")
r.COOKIES = {}
r.META = {"HTTP_ACCEPT_LANGUAGE": "pt-br"}
self.assertEqual("pt-br", g(r))
r.META = {"HTTP_ACCEPT_LANGUAGE": "pt"}
self.assertEqual("pt", g(r))
r.META = {"HTTP_ACCEPT_LANGUAGE": "es,de"}
self.assertEqual("es", g(r))
r.META = {"HTTP_ACCEPT_LANGUAGE": "es-ar,de"}
self.assertEqual("es-ar", g(r))
# This test assumes there won't be a Django translation to a US
# variation of the Spanish language, a safe assumption. When the
# user sets it as the preferred language, the main 'es'
# translation should be selected instead.
r.META = {"HTTP_ACCEPT_LANGUAGE": "es-us"}
self.assertEqual(g(r), "es")
# This tests the following scenario: there isn't a main language (zh)
# translation of Django but there is a translation to variation (zh-hans)
# the user sets zh-hans as the preferred language, it should be selected
# by Django without falling back nor ignoring it.
r.META = {"HTTP_ACCEPT_LANGUAGE": "zh-hans,de"}
self.assertEqual(g(r), "zh-hans")
r.META = {"HTTP_ACCEPT_LANGUAGE": "NL"}
self.assertEqual("nl", g(r))
r.META = {"HTTP_ACCEPT_LANGUAGE": "fy"}
self.assertEqual("fy", g(r))
r.META = {"HTTP_ACCEPT_LANGUAGE": "ia"}
self.assertEqual("ia", g(r))
r.META = {"HTTP_ACCEPT_LANGUAGE": "sr-latn"}
self.assertEqual("sr-latn", g(r))
r.META = {"HTTP_ACCEPT_LANGUAGE": "zh-hans"}
self.assertEqual("zh-hans", g(r))
r.META = {"HTTP_ACCEPT_LANGUAGE": "zh-hant"}
self.assertEqual("zh-hant", g(r))
@override_settings(
LANGUAGES=[
("en", "English"),
("zh-hans", "Simplified Chinese"),
("zh-hant", "Traditional Chinese"),
]
)
def test_support_for_deprecated_chinese_language_codes(self):
"""
Some browsers (Firefox, IE, etc.) use deprecated language codes. As these
language codes will be removed in Django 1.9, these will be incorrectly
matched. For example zh-tw (traditional) will be interpreted as zh-hans
(simplified), which is wrong. So we should also accept these deprecated
language codes.
refs #18419 -- this is explicitly for browser compatibility
"""
g = get_language_from_request
r = self.rf.get("/")
r.COOKIES = {}
r.META = {"HTTP_ACCEPT_LANGUAGE": "zh-cn,en"}
self.assertEqual(g(r), "zh-hans")
r.META = {"HTTP_ACCEPT_LANGUAGE": "zh-tw,en"}
self.assertEqual(g(r), "zh-hant")
def test_special_fallback_language(self):
"""
Some languages may have special fallbacks that don't follow the simple
'fr-ca' -> 'fr' logic (notably Chinese codes).
"""
r = self.rf.get("/")
r.COOKIES = {}
r.META = {"HTTP_ACCEPT_LANGUAGE": "zh-my,en"}
self.assertEqual(get_language_from_request(r), "zh-hans")
def test_subsequent_code_fallback_language(self):
"""
Subsequent language codes should be used when the language code is not
supported.
"""
tests = [
("zh-Hans-CN", "zh-hans"),
("zh-hans-mo", "zh-hans"),
("zh-hans-HK", "zh-hans"),
("zh-Hant-HK", "zh-hant"),
("zh-hant-tw", "zh-hant"),
("zh-hant-SG", "zh-hant"),
]
r = self.rf.get("/")
r.COOKIES = {}
for value, expected in tests:
with self.subTest(value=value):
r.META = {"HTTP_ACCEPT_LANGUAGE": f"{value},en"}
self.assertEqual(get_language_from_request(r), expected)
def test_parse_language_cookie(self):
"""
Now test that we parse language preferences stored in a cookie correctly.
"""
g = get_language_from_request
r = self.rf.get("/")
r.COOKIES = {settings.LANGUAGE_COOKIE_NAME: "pt-br"}
r.META = {}
self.assertEqual("pt-br", g(r))
r.COOKIES = {settings.LANGUAGE_COOKIE_NAME: "pt"}
r.META = {}
self.assertEqual("pt", g(r))
r.COOKIES = {settings.LANGUAGE_COOKIE_NAME: "es"}
r.META = {"HTTP_ACCEPT_LANGUAGE": "de"}
self.assertEqual("es", g(r))
# This test assumes there won't be a Django translation to a US
# variation of the Spanish language, a safe assumption. When the
# user sets it as the preferred language, the main 'es'
# translation should be selected instead.
r.COOKIES = {settings.LANGUAGE_COOKIE_NAME: "es-us"}
r.META = {}
self.assertEqual(g(r), "es")
# This tests the following scenario: there isn't a main language (zh)
# translation of Django but there is a translation to variation (zh-hans)
# the user sets zh-hans as the preferred language, it should be selected
# by Django without falling back nor ignoring it.
r.COOKIES = {settings.LANGUAGE_COOKIE_NAME: "zh-hans"}
r.META = {"HTTP_ACCEPT_LANGUAGE": "de"}
self.assertEqual(g(r), "zh-hans")
@override_settings(
USE_I18N=True,
LANGUAGES=[
("en", "English"),
("de", "German"),
("de-at", "Austrian German"),
("pt-br", "Portuguese (Brazil)"),
],
)
def test_get_supported_language_variant_real(self):
g = trans_real.get_supported_language_variant
self.assertEqual(g("en"), "en")
self.assertEqual(g("en-gb"), "en")
self.assertEqual(g("de"), "de")
self.assertEqual(g("de-at"), "de-at")
self.assertEqual(g("de-ch"), "de")
self.assertEqual(g("pt-br"), "pt-br")
self.assertEqual(g("pt"), "pt-br")
self.assertEqual(g("pt-pt"), "pt-br")
with self.assertRaises(LookupError):
g("pt", strict=True)
with self.assertRaises(LookupError):
g("pt-pt", strict=True)
with self.assertRaises(LookupError):
g("xyz")
with self.assertRaises(LookupError):
g("xy-zz")
def test_get_supported_language_variant_null(self):
g = trans_null.get_supported_language_variant
self.assertEqual(g(settings.LANGUAGE_CODE), settings.LANGUAGE_CODE)
with self.assertRaises(LookupError):
g("pt")
with self.assertRaises(LookupError):
g("de")
with self.assertRaises(LookupError):
g("de-at")
with self.assertRaises(LookupError):
g("de", strict=True)
with self.assertRaises(LookupError):
g("de-at", strict=True)
with self.assertRaises(LookupError):
g("xyz")
@override_settings(
LANGUAGES=[
("en", "English"),
("en-latn-us", "Latin English"),
("en-Latn-US", "BCP 47 case format"),
("de", "German"),
("de-1996", "German, orthography of 1996"),
("de-at", "Austrian German"),
("de-ch-1901", "German, Swiss variant, traditional orthography"),
("i-mingo", "Mingo"),
("kl-tunumiit", "Tunumiisiut"),
("nan-hani-tw", "Hanji"),
("pl", "Polish"),
],
)
def test_get_language_from_path_real(self):
g = trans_real.get_language_from_path
tests = [
("/pl/", "pl"),
("/pl", "pl"),
("/xyz/", None),
("/en/", "en"),
("/en-gb/", "en"),
("/en-latn-us/", "en-latn-us"),
("/en-Latn-US/", "en-Latn-US"),
("/de/", "de"),
("/de-1996/", "de-1996"),
("/de-at/", "de-at"),
("/de-ch/", "de"),
("/de-ch-1901/", "de-ch-1901"),
("/de-simple-page-test/", None),
("/i-mingo/", "i-mingo"),
("/kl-tunumiit/", "kl-tunumiit"),
("/nan-hani-tw/", "nan-hani-tw"),
]
for path, language in tests:
with self.subTest(path=path):
self.assertEqual(g(path), language)
def test_get_language_from_path_null(self):
g = trans_null.get_language_from_path
self.assertIsNone(g("/pl/"))
self.assertIsNone(g("/pl"))
self.assertIsNone(g("/xyz/"))
def test_cache_resetting(self):
"""
After setting LANGUAGE, the cache should be cleared and languages
previously valid should not be used (#14170).
"""
g = get_language_from_request
r = self.rf.get("/")
r.COOKIES = {}
r.META = {"HTTP_ACCEPT_LANGUAGE": "pt-br"}
self.assertEqual("pt-br", g(r))
with self.settings(LANGUAGES=[("en", "English")]):
self.assertNotEqual("pt-br", g(r))
def test_i18n_patterns_returns_list(self):
with override_settings(USE_I18N=False):
self.assertIsInstance(i18n_patterns([]), list)
with override_settings(USE_I18N=True):
self.assertIsInstance(i18n_patterns([]), list)
class ResolutionOrderI18NTests(SimpleTestCase):
def setUp(self):
super().setUp()
activate("de")
def tearDown(self):
deactivate()
super().tearDown()
def assertGettext(self, msgid, msgstr):
result = gettext(msgid)
self.assertIn(
msgstr,
result,
"The string '%s' isn't in the translation of '%s'; the actual result is "
"'%s'." % (msgstr, msgid, result),
)
class AppResolutionOrderI18NTests(ResolutionOrderI18NTests):
@override_settings(LANGUAGE_CODE="de")
def test_app_translation(self):
# Original translation.
self.assertGettext("Date/time", "Datum/Zeit")
# Different translation.
with self.modify_settings(INSTALLED_APPS={"append": "i18n.resolution"}):
# Force refreshing translations.
activate("de")
# Doesn't work because it's added later in the list.
self.assertGettext("Date/time", "Datum/Zeit")
with self.modify_settings(
INSTALLED_APPS={"remove": "django.contrib.admin.apps.SimpleAdminConfig"}
):
# Force refreshing translations.
activate("de")
# Unless the original is removed from the list.
self.assertGettext("Date/time", "Datum/Zeit (APP)")
@override_settings(LOCALE_PATHS=extended_locale_paths)
class LocalePathsResolutionOrderI18NTests(ResolutionOrderI18NTests):
def test_locale_paths_translation(self):
self.assertGettext("Time", "LOCALE_PATHS")
def test_locale_paths_override_app_translation(self):
with self.settings(INSTALLED_APPS=["i18n.resolution"]):
self.assertGettext("Time", "LOCALE_PATHS")
class DjangoFallbackResolutionOrderI18NTests(ResolutionOrderI18NTests):
def test_django_fallback(self):
self.assertEqual(gettext("Date/time"), "Datum/Zeit")
@override_settings(INSTALLED_APPS=["i18n.territorial_fallback"])
class TranslationFallbackI18NTests(ResolutionOrderI18NTests):
def test_sparse_territory_catalog(self):
"""
Untranslated strings for territorial language variants use the
translations of the generic language. In this case, the de-de
translation falls back to de.
"""
with translation.override("de-de"):
self.assertGettext("Test 1 (en)", "(de-de)")
self.assertGettext("Test 2 (en)", "(de)")
class TestModels(TestCase):
def test_lazy(self):
tm = TestModel()
tm.save()
def test_safestr(self):
c = Company(cents_paid=12, products_delivered=1)
c.name = SafeString("Iñtërnâtiônàlizætiøn1")
c.save()
class TestLanguageInfo(SimpleTestCase):
def test_localized_language_info(self):
li = get_language_info("de")
self.assertEqual(li["code"], "de")
self.assertEqual(li["name_local"], "Deutsch")
self.assertEqual(li["name"], "German")
self.assertIs(li["bidi"], False)
def test_unknown_language_code(self):
with self.assertRaisesMessage(KeyError, "Unknown language code xx"):
get_language_info("xx")
with translation.override("xx"):
# A language with no translation catalogs should fallback to the
# untranslated string.
self.assertEqual(gettext("Title"), "Title")
def test_unknown_only_country_code(self):
li = get_language_info("de-xx")
self.assertEqual(li["code"], "de")
self.assertEqual(li["name_local"], "Deutsch")
self.assertEqual(li["name"], "German")
self.assertIs(li["bidi"], False)
def test_unknown_language_code_and_country_code(self):
with self.assertRaisesMessage(KeyError, "Unknown language code xx-xx and xx"):
get_language_info("xx-xx")
def test_fallback_language_code(self):
"""
get_language_info return the first fallback language info if the lang_info
struct does not contain the 'name' key.
"""
li = get_language_info("zh-my")
self.assertEqual(li["code"], "zh-hans")
li = get_language_info("zh-hans")
self.assertEqual(li["code"], "zh-hans")
@override_settings(
USE_I18N=True,
LANGUAGES=[
("en", "English"),
("fr", "French"),
],
MIDDLEWARE=[
"django.middleware.locale.LocaleMiddleware",
"django.middleware.common.CommonMiddleware",
],
ROOT_URLCONF="i18n.urls",
)
class LocaleMiddlewareTests(TestCase):
def test_streaming_response(self):
# Regression test for #5241
response = self.client.get("/fr/streaming/")
self.assertContains(response, "Oui/Non")
response = self.client.get("/en/streaming/")
self.assertContains(response, "Yes/No")
@override_settings(
USE_I18N=True,
LANGUAGES=[
("en", "English"),
("de", "German"),
("fr", "French"),
],
MIDDLEWARE=[
"django.middleware.locale.LocaleMiddleware",
"django.middleware.common.CommonMiddleware",
],
ROOT_URLCONF="i18n.urls_default_unprefixed",
LANGUAGE_CODE="en",
)
class UnprefixedDefaultLanguageTests(SimpleTestCase):
def test_default_lang_without_prefix(self):
"""
With i18n_patterns(..., prefix_default_language=False), the default
language (settings.LANGUAGE_CODE) should be accessible without a prefix.
"""
response = self.client.get("/simple/")
self.assertEqual(response.content, b"Yes")
def test_other_lang_with_prefix(self):
response = self.client.get("/fr/simple/")
self.assertEqual(response.content, b"Oui")
def test_unprefixed_language_other_than_accept_language(self):
response = self.client.get("/simple/", HTTP_ACCEPT_LANGUAGE="fr")
self.assertEqual(response.content, b"Yes")
def test_page_with_dash(self):
# A page starting with /de* shouldn't match the 'de' language code.
response = self.client.get("/de-simple-page-test/")
self.assertEqual(response.content, b"Yes")
def test_no_redirect_on_404(self):
"""
A request for a nonexistent URL shouldn't cause a redirect to
/<default_language>/<request_url> when prefix_default_language=False and
/<default_language>/<request_url> has a URL match (#27402).
"""
# A match for /group1/group2/ must exist for this to act as a
# regression test.
response = self.client.get("/group1/group2/")
self.assertEqual(response.status_code, 200)
response = self.client.get("/nonexistent/")
self.assertEqual(response.status_code, 404)
@override_settings(
USE_I18N=True,
LANGUAGES=[
("bg", "Bulgarian"),
("en-us", "English"),
("pt-br", "Portuguese (Brazil)"),
],
MIDDLEWARE=[
"django.middleware.locale.LocaleMiddleware",
"django.middleware.common.CommonMiddleware",
],
ROOT_URLCONF="i18n.urls",
)
class CountrySpecificLanguageTests(SimpleTestCase):
rf = RequestFactory()
def test_check_for_language(self):
self.assertTrue(check_for_language("en"))
self.assertTrue(check_for_language("en-us"))
self.assertTrue(check_for_language("en-US"))
self.assertFalse(check_for_language("en_US"))
self.assertTrue(check_for_language("be"))
self.assertTrue(check_for_language("be@latin"))
self.assertTrue(check_for_language("sr-RS@latin"))
self.assertTrue(check_for_language("sr-RS@12345"))
self.assertFalse(check_for_language("en-ü"))
self.assertFalse(check_for_language("en\x00"))
self.assertFalse(check_for_language(None))
self.assertFalse(check_for_language("be@ "))
# Specifying encoding is not supported (Django enforces UTF-8)
self.assertFalse(check_for_language("tr-TR.UTF-8"))
self.assertFalse(check_for_language("tr-TR.UTF8"))
self.assertFalse(check_for_language("de-DE.utf-8"))
def test_check_for_language_null(self):
self.assertIs(trans_null.check_for_language("en"), True)
def test_get_language_from_request(self):
# issue 19919
r = self.rf.get("/")
r.COOKIES = {}
r.META = {"HTTP_ACCEPT_LANGUAGE": "en-US,en;q=0.8,bg;q=0.6,ru;q=0.4"}
lang = get_language_from_request(r)
self.assertEqual("en-us", lang)
r = self.rf.get("/")
r.COOKIES = {}
r.META = {"HTTP_ACCEPT_LANGUAGE": "bg-bg,en-US;q=0.8,en;q=0.6,ru;q=0.4"}
lang = get_language_from_request(r)
self.assertEqual("bg", lang)
def test_get_language_from_request_null(self):
lang = trans_null.get_language_from_request(None)
self.assertEqual(lang, "en")
with override_settings(LANGUAGE_CODE="de"):
lang = trans_null.get_language_from_request(None)
self.assertEqual(lang, "de")
def test_specific_language_codes(self):
# issue 11915
r = self.rf.get("/")
r.COOKIES = {}
r.META = {"HTTP_ACCEPT_LANGUAGE": "pt,en-US;q=0.8,en;q=0.6,ru;q=0.4"}
lang = get_language_from_request(r)
self.assertEqual("pt-br", lang)
r = self.rf.get("/")
r.COOKIES = {}
r.META = {"HTTP_ACCEPT_LANGUAGE": "pt-pt,en-US;q=0.8,en;q=0.6,ru;q=0.4"}
lang = get_language_from_request(r)
self.assertEqual("pt-br", lang)
class TranslationFilesMissing(SimpleTestCase):
def setUp(self):
super().setUp()
self.gettext_find_builtin = gettext_module.find
def tearDown(self):
gettext_module.find = self.gettext_find_builtin
super().tearDown()
def patchGettextFind(self):
gettext_module.find = lambda *args, **kw: None
def test_failure_finding_default_mo_files(self):
"""OSError is raised if the default language is unparseable."""
self.patchGettextFind()
trans_real._translations = {}
with self.assertRaises(OSError):
activate("en")
class NonDjangoLanguageTests(SimpleTestCase):
"""
A language non present in default Django languages can still be
installed/used by a Django project.
"""
@override_settings(
USE_I18N=True,
LANGUAGES=[
("en-us", "English"),
("xxx", "Somelanguage"),
],
LANGUAGE_CODE="xxx",
LOCALE_PATHS=[os.path.join(here, "commands", "locale")],
)
def test_non_django_language(self):
self.assertEqual(get_language(), "xxx")
self.assertEqual(gettext("year"), "reay")
@override_settings(USE_I18N=True)
def test_check_for_language(self):
with tempfile.TemporaryDirectory() as app_dir:
os.makedirs(os.path.join(app_dir, "locale", "dummy_Lang", "LC_MESSAGES"))
open(
os.path.join(
app_dir, "locale", "dummy_Lang", "LC_MESSAGES", "django.mo"
),
"w",
).close()
app_config = AppConfig("dummy_app", AppModuleStub(__path__=[app_dir]))
with mock.patch(
"django.apps.apps.get_app_configs", return_value=[app_config]
):
self.assertIs(check_for_language("dummy-lang"), True)
@override_settings(
USE_I18N=True,
LANGUAGES=[
("en-us", "English"),
# xyz language has no locale files
("xyz", "XYZ"),
],
)
@translation.override("xyz")
def test_plural_non_django_language(self):
self.assertEqual(get_language(), "xyz")
self.assertEqual(ngettext("year", "years", 2), "years")
@override_settings(USE_I18N=True)
class WatchForTranslationChangesTests(SimpleTestCase):
@override_settings(USE_I18N=False)
def test_i18n_disabled(self):
mocked_sender = mock.MagicMock()
watch_for_translation_changes(mocked_sender)
mocked_sender.watch_dir.assert_not_called()
def test_i18n_enabled(self):
mocked_sender = mock.MagicMock()
watch_for_translation_changes(mocked_sender)
self.assertGreater(mocked_sender.watch_dir.call_count, 1)
def test_i18n_locale_paths(self):
mocked_sender = mock.MagicMock()
with tempfile.TemporaryDirectory() as app_dir:
with self.settings(LOCALE_PATHS=[app_dir]):
watch_for_translation_changes(mocked_sender)
mocked_sender.watch_dir.assert_any_call(Path(app_dir), "**/*.mo")
def test_i18n_app_dirs(self):
mocked_sender = mock.MagicMock()
with self.settings(INSTALLED_APPS=["tests.i18n.sampleproject"]):
watch_for_translation_changes(mocked_sender)
project_dir = Path(__file__).parent / "sampleproject" / "locale"
mocked_sender.watch_dir.assert_any_call(project_dir, "**/*.mo")
def test_i18n_app_dirs_ignore_django_apps(self):
mocked_sender = mock.MagicMock()
with self.settings(INSTALLED_APPS=["django.contrib.admin"]):
watch_for_translation_changes(mocked_sender)
mocked_sender.watch_dir.assert_called_once_with(Path("locale"), "**/*.mo")
def test_i18n_local_locale(self):
mocked_sender = mock.MagicMock()
watch_for_translation_changes(mocked_sender)
locale_dir = Path(__file__).parent / "locale"
mocked_sender.watch_dir.assert_any_call(locale_dir, "**/*.mo")
class TranslationFileChangedTests(SimpleTestCase):
def setUp(self):
self.gettext_translations = gettext_module._translations.copy()
self.trans_real_translations = trans_real._translations.copy()
def tearDown(self):
gettext._translations = self.gettext_translations
trans_real._translations = self.trans_real_translations
def test_ignores_non_mo_files(self):
gettext_module._translations = {"foo": "bar"}
path = Path("test.py")
self.assertIsNone(translation_file_changed(None, path))
self.assertEqual(gettext_module._translations, {"foo": "bar"})
def test_resets_cache_with_mo_files(self):
gettext_module._translations = {"foo": "bar"}
trans_real._translations = {"foo": "bar"}
trans_real._default = 1
trans_real._active = False
path = Path("test.mo")
self.assertIs(translation_file_changed(None, path), True)
self.assertEqual(gettext_module._translations, {})
self.assertEqual(trans_real._translations, {})
self.assertIsNone(trans_real._default)
self.assertIsInstance(trans_real._active, Local)
class UtilsTests(SimpleTestCase):
def test_round_away_from_one(self):
tests = [
(0, 0),
(0.0, 0),
(0.25, 0),
(0.5, 0),
(0.75, 0),
(1, 1),
(1.0, 1),
(1.25, 2),
(1.5, 2),
(1.75, 2),
(-0.0, 0),
(-0.25, -1),
(-0.5, -1),
(-0.75, -1),
(-1, -1),
(-1.0, -1),
(-1.25, -2),
(-1.5, -2),
(-1.75, -2),
]
for value, expected in tests:
with self.subTest(value=value):
self.assertEqual(round_away_from_one(value), expected)
|
7b6165a197984b1d3f8af66ea19f107ca8da3cb778ac42b8e3e15a26bde7a881 | from datetime import datetime
from django.db import models
from django.utils.translation import gettext_lazy as _
class TestModel(models.Model):
text = models.CharField(max_length=10, default=_("Anything"))
class Company(models.Model):
name = models.CharField(max_length=50)
date_added = models.DateTimeField(default=datetime(1799, 1, 31, 23, 59, 59, 0))
cents_paid = models.DecimalField(max_digits=4, decimal_places=2)
products_delivered = models.IntegerField()
class Meta:
verbose_name = _("Company")
|
65b15d4cb84fbb68eda0d841ca315201f579a0c806b9fbd0c716f7a091fb739d | import gettext as gettext_module
import os
import stat
import unittest
from io import StringIO
from pathlib import Path
from subprocess import run
from unittest import mock
from django.core.management import CommandError, call_command, execute_from_command_line
from django.core.management.commands.makemessages import Command as MakeMessagesCommand
from django.core.management.utils import find_command
from django.test import SimpleTestCase, override_settings
from django.test.utils import captured_stderr, captured_stdout
from django.utils import translation
from django.utils.translation import gettext
from .utils import RunInTmpDirMixin, copytree
has_msgfmt = find_command("msgfmt")
@unittest.skipUnless(has_msgfmt, "msgfmt is mandatory for compilation tests")
class MessageCompilationTests(RunInTmpDirMixin, SimpleTestCase):
work_subdir = "commands"
class PoFileTests(MessageCompilationTests):
LOCALE = "es_AR"
MO_FILE = "locale/%s/LC_MESSAGES/django.mo" % LOCALE
MO_FILE_EN = "locale/en/LC_MESSAGES/django.mo"
def test_bom_rejection(self):
stderr = StringIO()
with self.assertRaisesMessage(
CommandError, "compilemessages generated one or more errors."
):
call_command(
"compilemessages", locale=[self.LOCALE], verbosity=0, stderr=stderr
)
self.assertIn("file has a BOM (Byte Order Mark)", stderr.getvalue())
self.assertFalse(os.path.exists(self.MO_FILE))
def test_no_write_access(self):
mo_file_en = Path(self.MO_FILE_EN)
err_buffer = StringIO()
# Put file in read-only mode.
old_mode = mo_file_en.stat().st_mode
mo_file_en.chmod(stat.S_IREAD)
# Ensure .po file is more recent than .mo file.
mo_file_en.with_suffix(".po").touch()
try:
with self.assertRaisesMessage(
CommandError, "compilemessages generated one or more errors."
):
call_command(
"compilemessages", locale=["en"], stderr=err_buffer, verbosity=0
)
self.assertIn("not writable location", err_buffer.getvalue())
finally:
mo_file_en.chmod(old_mode)
def test_no_compile_when_unneeded(self):
mo_file_en = Path(self.MO_FILE_EN)
mo_file_en.touch()
stdout = StringIO()
call_command("compilemessages", locale=["en"], stdout=stdout, verbosity=1)
msg = "%s” is already compiled and up to date." % mo_file_en.with_suffix(".po")
self.assertIn(msg, stdout.getvalue())
class PoFileContentsTests(MessageCompilationTests):
# Ticket #11240
LOCALE = "fr"
MO_FILE = "locale/%s/LC_MESSAGES/django.mo" % LOCALE
def test_percent_symbol_in_po_file(self):
call_command("compilemessages", locale=[self.LOCALE], verbosity=0)
self.assertTrue(os.path.exists(self.MO_FILE))
class MultipleLocaleCompilationTests(MessageCompilationTests):
MO_FILE_HR = None
MO_FILE_FR = None
def setUp(self):
super().setUp()
localedir = os.path.join(self.test_dir, "locale")
self.MO_FILE_HR = os.path.join(localedir, "hr/LC_MESSAGES/django.mo")
self.MO_FILE_FR = os.path.join(localedir, "fr/LC_MESSAGES/django.mo")
def test_one_locale(self):
with override_settings(LOCALE_PATHS=[os.path.join(self.test_dir, "locale")]):
call_command("compilemessages", locale=["hr"], verbosity=0)
self.assertTrue(os.path.exists(self.MO_FILE_HR))
def test_multiple_locales(self):
with override_settings(LOCALE_PATHS=[os.path.join(self.test_dir, "locale")]):
call_command("compilemessages", locale=["hr", "fr"], verbosity=0)
self.assertTrue(os.path.exists(self.MO_FILE_HR))
self.assertTrue(os.path.exists(self.MO_FILE_FR))
class ExcludedLocaleCompilationTests(MessageCompilationTests):
work_subdir = "exclude"
MO_FILE = "locale/%s/LC_MESSAGES/django.mo"
def setUp(self):
super().setUp()
copytree("canned_locale", "locale")
def test_command_help(self):
with captured_stdout(), captured_stderr():
# `call_command` bypasses the parser; by calling
# `execute_from_command_line` with the help subcommand we
# ensure that there are no issues with the parser itself.
execute_from_command_line(["django-admin", "help", "compilemessages"])
def test_one_locale_excluded(self):
call_command("compilemessages", exclude=["it"], verbosity=0)
self.assertTrue(os.path.exists(self.MO_FILE % "en"))
self.assertTrue(os.path.exists(self.MO_FILE % "fr"))
self.assertFalse(os.path.exists(self.MO_FILE % "it"))
def test_multiple_locales_excluded(self):
call_command("compilemessages", exclude=["it", "fr"], verbosity=0)
self.assertTrue(os.path.exists(self.MO_FILE % "en"))
self.assertFalse(os.path.exists(self.MO_FILE % "fr"))
self.assertFalse(os.path.exists(self.MO_FILE % "it"))
def test_one_locale_excluded_with_locale(self):
call_command(
"compilemessages", locale=["en", "fr"], exclude=["fr"], verbosity=0
)
self.assertTrue(os.path.exists(self.MO_FILE % "en"))
self.assertFalse(os.path.exists(self.MO_FILE % "fr"))
self.assertFalse(os.path.exists(self.MO_FILE % "it"))
def test_multiple_locales_excluded_with_locale(self):
call_command(
"compilemessages",
locale=["en", "fr", "it"],
exclude=["fr", "it"],
verbosity=0,
)
self.assertTrue(os.path.exists(self.MO_FILE % "en"))
self.assertFalse(os.path.exists(self.MO_FILE % "fr"))
self.assertFalse(os.path.exists(self.MO_FILE % "it"))
class IgnoreDirectoryCompilationTests(MessageCompilationTests):
# Reuse the exclude directory since it contains some locale fixtures.
work_subdir = "exclude"
MO_FILE = "%s/%s/LC_MESSAGES/django.mo"
CACHE_DIR = Path("cache") / "locale"
NESTED_DIR = Path("outdated") / "v1" / "locale"
def setUp(self):
super().setUp()
copytree("canned_locale", "locale")
copytree("canned_locale", self.CACHE_DIR)
copytree("canned_locale", self.NESTED_DIR)
def assertAllExist(self, dir, langs):
self.assertTrue(
all(Path(self.MO_FILE % (dir, lang)).exists() for lang in langs)
)
def assertNoneExist(self, dir, langs):
self.assertTrue(
all(Path(self.MO_FILE % (dir, lang)).exists() is False for lang in langs)
)
def test_one_locale_dir_ignored(self):
call_command("compilemessages", ignore=["cache"], verbosity=0)
self.assertAllExist("locale", ["en", "fr", "it"])
self.assertNoneExist(self.CACHE_DIR, ["en", "fr", "it"])
self.assertAllExist(self.NESTED_DIR, ["en", "fr", "it"])
def test_multiple_locale_dirs_ignored(self):
call_command(
"compilemessages", ignore=["cache/locale", "outdated"], verbosity=0
)
self.assertAllExist("locale", ["en", "fr", "it"])
self.assertNoneExist(self.CACHE_DIR, ["en", "fr", "it"])
self.assertNoneExist(self.NESTED_DIR, ["en", "fr", "it"])
def test_ignores_based_on_pattern(self):
call_command("compilemessages", ignore=["*/locale"], verbosity=0)
self.assertAllExist("locale", ["en", "fr", "it"])
self.assertNoneExist(self.CACHE_DIR, ["en", "fr", "it"])
self.assertNoneExist(self.NESTED_DIR, ["en", "fr", "it"])
class CompilationErrorHandling(MessageCompilationTests):
def test_error_reported_by_msgfmt(self):
# po file contains wrong po formatting.
with self.assertRaises(CommandError):
call_command("compilemessages", locale=["ja"], verbosity=0)
def test_msgfmt_error_including_non_ascii(self):
# po file contains invalid msgstr content (triggers non-ascii error content).
# Make sure the output of msgfmt is unaffected by the current locale.
env = os.environ.copy()
env.update({"LC_ALL": "C"})
with mock.patch(
"django.core.management.utils.run",
lambda *args, **kwargs: run(*args, env=env, **kwargs),
):
cmd = MakeMessagesCommand()
if cmd.gettext_version < (0, 18, 3):
self.skipTest("python-brace-format is a recent gettext addition.")
stderr = StringIO()
with self.assertRaisesMessage(
CommandError, "compilemessages generated one or more errors"
):
call_command(
"compilemessages", locale=["ko"], stdout=StringIO(), stderr=stderr
)
self.assertIn("' cannot start a field name", stderr.getvalue())
class ProjectAndAppTests(MessageCompilationTests):
LOCALE = "ru"
PROJECT_MO_FILE = "locale/%s/LC_MESSAGES/django.mo" % LOCALE
APP_MO_FILE = "app_with_locale/locale/%s/LC_MESSAGES/django.mo" % LOCALE
class FuzzyTranslationTest(ProjectAndAppTests):
def setUp(self):
super().setUp()
gettext_module._translations = {} # flush cache or test will be useless
def test_nofuzzy_compiling(self):
with override_settings(LOCALE_PATHS=[os.path.join(self.test_dir, "locale")]):
call_command("compilemessages", locale=[self.LOCALE], verbosity=0)
with translation.override(self.LOCALE):
self.assertEqual(gettext("Lenin"), "Ленин")
self.assertEqual(gettext("Vodka"), "Vodka")
def test_fuzzy_compiling(self):
with override_settings(LOCALE_PATHS=[os.path.join(self.test_dir, "locale")]):
call_command(
"compilemessages", locale=[self.LOCALE], fuzzy=True, verbosity=0
)
with translation.override(self.LOCALE):
self.assertEqual(gettext("Lenin"), "Ленин")
self.assertEqual(gettext("Vodka"), "Водка")
class AppCompilationTest(ProjectAndAppTests):
def test_app_locale_compiled(self):
call_command("compilemessages", locale=[self.LOCALE], verbosity=0)
self.assertTrue(os.path.exists(self.PROJECT_MO_FILE))
self.assertTrue(os.path.exists(self.APP_MO_FILE))
class PathLibLocaleCompilationTests(MessageCompilationTests):
work_subdir = "exclude"
def test_locale_paths_pathlib(self):
with override_settings(LOCALE_PATHS=[Path(self.test_dir) / "canned_locale"]):
call_command("compilemessages", locale=["fr"], verbosity=0)
self.assertTrue(os.path.exists("canned_locale/fr/LC_MESSAGES/django.mo"))
|
52aec21bcbd304c0adc196374acb58b2307a43c8f9107afeda2a68afd691f6d2 | import os
from django.core.management.commands.makemessages import TranslatableFile
from django.test import SimpleTestCase
class TranslatableFileTests(SimpleTestCase):
def test_repr(self):
dirpath = "dir"
file_name = "example"
trans_file = TranslatableFile(
dirpath=dirpath, file_name=file_name, locale_dir=None
)
self.assertEqual(
repr(trans_file),
"<TranslatableFile: %s>" % os.path.join(dirpath, file_name),
)
def test_eq(self):
dirpath = "dir"
file_name = "example"
trans_file = TranslatableFile(
dirpath=dirpath, file_name=file_name, locale_dir=None
)
trans_file_eq = TranslatableFile(
dirpath=dirpath, file_name=file_name, locale_dir=None
)
trans_file_not_eq = TranslatableFile(
dirpath="tmp", file_name=file_name, locale_dir=None
)
self.assertEqual(trans_file, trans_file_eq)
self.assertNotEqual(trans_file, trans_file_not_eq)
|
baff28f896b529522dc0c23f5075d1aafbeb005fdbc1162fbc7bc92c9af28d3c | import os
import re
import shutil
import tempfile
source_code_dir = os.path.dirname(__file__)
def copytree(src, dst):
shutil.copytree(src, dst, ignore=shutil.ignore_patterns("__pycache__"))
class POFileAssertionMixin:
def _assertPoKeyword(self, keyword, expected_value, haystack, use_quotes=True):
q = '"'
if use_quotes:
expected_value = '"%s"' % expected_value
q = "'"
needle = "%s %s" % (keyword, expected_value)
expected_value = re.escape(expected_value)
return self.assertTrue(
re.search("^%s %s" % (keyword, expected_value), haystack, re.MULTILINE),
"Could not find %(q)s%(n)s%(q)s in generated PO file"
% {"n": needle, "q": q},
)
def assertMsgId(self, msgid, haystack, use_quotes=True):
return self._assertPoKeyword("msgid", msgid, haystack, use_quotes=use_quotes)
class RunInTmpDirMixin:
"""
Allow i18n tests that need to generate .po/.mo files to run in an isolated
temporary filesystem tree created by tempfile.mkdtemp() that contains a
clean copy of the relevant test code.
Test classes using this mixin need to define a `work_subdir` attribute
which designates the subdir under `tests/i18n/` that will be copied to the
temporary tree from which its test cases will run.
The setUp() method sets the current working dir to the temporary tree.
It'll be removed when cleaning up.
"""
def setUp(self):
self._cwd = os.getcwd()
self.work_dir = tempfile.mkdtemp(prefix="i18n_")
# Resolve symlinks, if any, in test directory paths.
self.test_dir = os.path.realpath(os.path.join(self.work_dir, self.work_subdir))
copytree(os.path.join(source_code_dir, self.work_subdir), self.test_dir)
# Step out of the temporary working tree before removing it to avoid
# deletion problems on Windows. Cleanup actions registered with
# addCleanup() are called in reverse so preserve this ordering.
self.addCleanup(self._rmrf, self.test_dir)
self.addCleanup(os.chdir, self._cwd)
os.chdir(self.test_dir)
def _rmrf(self, dname):
if (
os.path.commonprefix([self.test_dir, os.path.abspath(dname)])
!= self.test_dir
):
return
shutil.rmtree(dname)
|
55e31a1663412a375879c757866441db6878a9402a26046c4302090aaf706324 | from django.conf.urls.i18n import i18n_patterns
from django.http import HttpResponse, StreamingHttpResponse
from django.urls import path
from django.utils.translation import gettext_lazy as _
urlpatterns = i18n_patterns(
path("simple/", lambda r: HttpResponse()),
path("streaming/", lambda r: StreamingHttpResponse([_("Yes"), "/", _("No")])),
)
|
9b7e7d22d040b7a4524016e4c038ad0594c9e5d6449f0bcf891c52bcd26b8433 | from django import forms
from .models import Company
class I18nForm(forms.Form):
decimal_field = forms.DecimalField(localize=True)
float_field = forms.FloatField(localize=True)
date_field = forms.DateField(localize=True)
datetime_field = forms.DateTimeField(localize=True)
time_field = forms.TimeField(localize=True)
integer_field = forms.IntegerField(localize=True)
class SelectDateForm(forms.Form):
date_field = forms.DateField(widget=forms.SelectDateWidget)
class CompanyForm(forms.ModelForm):
cents_paid = forms.DecimalField(max_digits=4, decimal_places=2, localize=True)
products_delivered = forms.IntegerField(localize=True)
date_added = forms.DateTimeField(localize=True)
class Meta:
model = Company
fields = "__all__"
|
dfbe340530fd10f2ec85d86dcf67c318c95726746674a294f9a065f75d3ccd56 | import os
from django.template import Context, Template
from django.test import SimpleTestCase, override_settings
from django.utils.translation import activate, get_language, trans_real
from .utils import POFileAssertionMixin
SAMPLEPROJECT_DIR = os.path.join(
os.path.dirname(os.path.abspath(__file__)), "sampleproject"
)
SAMPLEPROJECT_LOCALE = os.path.join(SAMPLEPROJECT_DIR, "locale")
@override_settings(LOCALE_PATHS=[SAMPLEPROJECT_LOCALE])
class FrenchTestCase(SimpleTestCase):
"""Tests using the French translations of the sampleproject."""
PO_FILE = os.path.join(SAMPLEPROJECT_LOCALE, "fr", "LC_MESSAGES", "django.po")
def setUp(self):
self._language = get_language()
self._translations = trans_real._translations
activate("fr")
def tearDown(self):
trans_real._translations = self._translations
activate(self._language)
class ExtractingStringsWithPercentSigns(POFileAssertionMixin, FrenchTestCase):
"""
Tests the extracted string found in the gettext catalog.
Percent signs are python formatted.
These tests should all have an analogous translation tests below, ensuring
the Python formatting does not persist through to a rendered template.
"""
def setUp(self):
super().setUp()
with open(self.PO_FILE) as fp:
self.po_contents = fp.read()
def test_trans_tag_with_percent_symbol_at_the_end(self):
self.assertMsgId(
"Literal with a percent symbol at the end %%", self.po_contents
)
def test_trans_tag_with_percent_symbol_in_the_middle(self):
self.assertMsgId(
"Literal with a percent %% symbol in the middle", self.po_contents
)
self.assertMsgId("It is 100%%", self.po_contents)
def test_trans_tag_with_string_that_look_like_fmt_spec(self):
self.assertMsgId(
"Looks like a str fmt spec %%s but should not be interpreted as such",
self.po_contents,
)
self.assertMsgId(
"Looks like a str fmt spec %% o but should not be interpreted as such",
self.po_contents,
)
def test_adds_python_format_to_all_percent_signs(self):
self.assertMsgId(
"1 percent sign %%, 2 percent signs %%%%, 3 percent signs %%%%%%",
self.po_contents,
)
self.assertMsgId(
"%(name)s says: 1 percent sign %%, 2 percent signs %%%%", self.po_contents
)
class RenderingTemplatesWithPercentSigns(FrenchTestCase):
"""
Test rendering of templates that use percent signs.
Ensures both translate and blocktranslate tags behave consistently.
Refs #11240, #11966, #24257
"""
def test_translates_with_a_percent_symbol_at_the_end(self):
expected = "Littérale avec un symbole de pour cent à la fin %"
trans_tpl = Template(
"{% load i18n %}"
'{% translate "Literal with a percent symbol at the end %" %}'
)
self.assertEqual(trans_tpl.render(Context({})), expected)
block_tpl = Template(
"{% load i18n %}{% blocktranslate %}Literal with a percent symbol at "
"the end %{% endblocktranslate %}"
)
self.assertEqual(block_tpl.render(Context({})), expected)
def test_translates_with_percent_symbol_in_the_middle(self):
expected = "Pour cent littérale % avec un symbole au milieu"
trans_tpl = Template(
"{% load i18n %}"
'{% translate "Literal with a percent % symbol in the middle" %}'
)
self.assertEqual(trans_tpl.render(Context({})), expected)
block_tpl = Template(
"{% load i18n %}{% blocktranslate %}Literal with a percent % symbol "
"in the middle{% endblocktranslate %}"
)
self.assertEqual(block_tpl.render(Context({})), expected)
def test_translates_with_percent_symbol_using_context(self):
trans_tpl = Template('{% load i18n %}{% translate "It is 100%" %}')
self.assertEqual(trans_tpl.render(Context({})), "Il est de 100%")
trans_tpl = Template(
'{% load i18n %}{% translate "It is 100%" context "female" %}'
)
self.assertEqual(trans_tpl.render(Context({})), "Elle est de 100%")
block_tpl = Template(
"{% load i18n %}{% blocktranslate %}It is 100%{% endblocktranslate %}"
)
self.assertEqual(block_tpl.render(Context({})), "Il est de 100%")
block_tpl = Template(
"{% load i18n %}"
'{% blocktranslate context "female" %}It is 100%{% endblocktranslate %}'
)
self.assertEqual(block_tpl.render(Context({})), "Elle est de 100%")
def test_translates_with_string_that_look_like_fmt_spec_with_trans(self):
# tests "%s"
expected = (
"On dirait un spec str fmt %s mais ne devrait pas être interprété comme "
"plus disponible"
)
trans_tpl = Template(
'{% load i18n %}{% translate "Looks like a str fmt spec %s but '
'should not be interpreted as such" %}'
)
self.assertEqual(trans_tpl.render(Context({})), expected)
block_tpl = Template(
"{% load i18n %}{% blocktranslate %}Looks like a str fmt spec %s but "
"should not be interpreted as such{% endblocktranslate %}"
)
self.assertEqual(block_tpl.render(Context({})), expected)
# tests "% o"
expected = (
"On dirait un spec str fmt % o mais ne devrait pas être interprété comme "
"plus disponible"
)
trans_tpl = Template(
"{% load i18n %}"
'{% translate "Looks like a str fmt spec % o but should not be '
'interpreted as such" %}'
)
self.assertEqual(trans_tpl.render(Context({})), expected)
block_tpl = Template(
"{% load i18n %}"
"{% blocktranslate %}Looks like a str fmt spec % o but should not be "
"interpreted as such{% endblocktranslate %}"
)
self.assertEqual(block_tpl.render(Context({})), expected)
def test_translates_multiple_percent_signs(self):
expected = (
"1 % signe pour cent, signes %% 2 pour cent, trois signes de pourcentage "
"%%%"
)
trans_tpl = Template(
'{% load i18n %}{% translate "1 percent sign %, 2 percent signs %%, '
'3 percent signs %%%" %}'
)
self.assertEqual(trans_tpl.render(Context({})), expected)
block_tpl = Template(
"{% load i18n %}{% blocktranslate %}1 percent sign %, 2 percent signs "
"%%, 3 percent signs %%%{% endblocktranslate %}"
)
self.assertEqual(block_tpl.render(Context({})), expected)
block_tpl = Template(
"{% load i18n %}{% blocktranslate %}{{name}} says: 1 percent sign %, "
"2 percent signs %%{% endblocktranslate %}"
)
self.assertEqual(
block_tpl.render(Context({"name": "Django"})),
"Django dit: 1 pour cent signe %, deux signes de pourcentage %%",
)
|
32c53e5d91ddd3e2f9ba96b996ee353c5616e632128e9bca0a59cc2c549b5133 | from datetime import datetime
from django.test import TestCase
from .models import Article, IndexErrorArticle, Person
class EarliestOrLatestTests(TestCase):
"""Tests for the earliest() and latest() objects methods"""
@classmethod
def setUpClass(cls):
super().setUpClass()
cls._article_get_latest_by = Article._meta.get_latest_by
def tearDown(self):
Article._meta.get_latest_by = self._article_get_latest_by
def test_earliest(self):
# Because no Articles exist yet, earliest() raises ArticleDoesNotExist.
with self.assertRaises(Article.DoesNotExist):
Article.objects.earliest()
a1 = Article.objects.create(
headline="Article 1",
pub_date=datetime(2005, 7, 26),
expire_date=datetime(2005, 9, 1),
)
a2 = Article.objects.create(
headline="Article 2",
pub_date=datetime(2005, 7, 27),
expire_date=datetime(2005, 7, 28),
)
a3 = Article.objects.create(
headline="Article 3",
pub_date=datetime(2005, 7, 28),
expire_date=datetime(2005, 8, 27),
)
a4 = Article.objects.create(
headline="Article 4",
pub_date=datetime(2005, 7, 28),
expire_date=datetime(2005, 7, 30),
)
# Get the earliest Article.
self.assertEqual(Article.objects.earliest(), a1)
# Get the earliest Article that matches certain filters.
self.assertEqual(
Article.objects.filter(pub_date__gt=datetime(2005, 7, 26)).earliest(), a2
)
# Pass a custom field name to earliest() to change the field that's used
# to determine the earliest object.
self.assertEqual(Article.objects.earliest("expire_date"), a2)
self.assertEqual(
Article.objects.filter(pub_date__gt=datetime(2005, 7, 26)).earliest(
"expire_date"
),
a2,
)
# earliest() overrides any other ordering specified on the query.
# Refs #11283.
self.assertEqual(Article.objects.order_by("id").earliest(), a1)
# Error is raised if the user forgot to add a get_latest_by
# in the Model.Meta
Article.objects.model._meta.get_latest_by = None
with self.assertRaisesMessage(
ValueError,
"earliest() and latest() require either fields as positional "
"arguments or 'get_latest_by' in the model's Meta.",
):
Article.objects.earliest()
# Earliest publication date, earliest expire date.
self.assertEqual(
Article.objects.filter(pub_date=datetime(2005, 7, 28)).earliest(
"pub_date", "expire_date"
),
a4,
)
# Earliest publication date, latest expire date.
self.assertEqual(
Article.objects.filter(pub_date=datetime(2005, 7, 28)).earliest(
"pub_date", "-expire_date"
),
a3,
)
# Meta.get_latest_by may be a tuple.
Article.objects.model._meta.get_latest_by = ("pub_date", "expire_date")
self.assertEqual(
Article.objects.filter(pub_date=datetime(2005, 7, 28)).earliest(), a4
)
def test_earliest_sliced_queryset(self):
msg = "Cannot change a query once a slice has been taken."
with self.assertRaisesMessage(TypeError, msg):
Article.objects.all()[0:5].earliest()
def test_latest(self):
# Because no Articles exist yet, latest() raises ArticleDoesNotExist.
with self.assertRaises(Article.DoesNotExist):
Article.objects.latest()
a1 = Article.objects.create(
headline="Article 1",
pub_date=datetime(2005, 7, 26),
expire_date=datetime(2005, 9, 1),
)
a2 = Article.objects.create(
headline="Article 2",
pub_date=datetime(2005, 7, 27),
expire_date=datetime(2005, 7, 28),
)
a3 = Article.objects.create(
headline="Article 3",
pub_date=datetime(2005, 7, 27),
expire_date=datetime(2005, 8, 27),
)
a4 = Article.objects.create(
headline="Article 4",
pub_date=datetime(2005, 7, 28),
expire_date=datetime(2005, 7, 30),
)
# Get the latest Article.
self.assertEqual(Article.objects.latest(), a4)
# Get the latest Article that matches certain filters.
self.assertEqual(
Article.objects.filter(pub_date__lt=datetime(2005, 7, 27)).latest(), a1
)
# Pass a custom field name to latest() to change the field that's used
# to determine the latest object.
self.assertEqual(Article.objects.latest("expire_date"), a1)
self.assertEqual(
Article.objects.filter(pub_date__gt=datetime(2005, 7, 26)).latest(
"expire_date"
),
a3,
)
# latest() overrides any other ordering specified on the query (#11283).
self.assertEqual(Article.objects.order_by("id").latest(), a4)
# Error is raised if get_latest_by isn't in Model.Meta.
Article.objects.model._meta.get_latest_by = None
with self.assertRaisesMessage(
ValueError,
"earliest() and latest() require either fields as positional "
"arguments or 'get_latest_by' in the model's Meta.",
):
Article.objects.latest()
# Latest publication date, latest expire date.
self.assertEqual(
Article.objects.filter(pub_date=datetime(2005, 7, 27)).latest(
"pub_date", "expire_date"
),
a3,
)
# Latest publication date, earliest expire date.
self.assertEqual(
Article.objects.filter(pub_date=datetime(2005, 7, 27)).latest(
"pub_date", "-expire_date"
),
a2,
)
# Meta.get_latest_by may be a tuple.
Article.objects.model._meta.get_latest_by = ("pub_date", "expire_date")
self.assertEqual(
Article.objects.filter(pub_date=datetime(2005, 7, 27)).latest(), a3
)
def test_latest_sliced_queryset(self):
msg = "Cannot change a query once a slice has been taken."
with self.assertRaisesMessage(TypeError, msg):
Article.objects.all()[0:5].latest()
def test_latest_manual(self):
# You can still use latest() with a model that doesn't have
# "get_latest_by" set -- just pass in the field name manually.
Person.objects.create(name="Ralph", birthday=datetime(1950, 1, 1))
p2 = Person.objects.create(name="Stephanie", birthday=datetime(1960, 2, 3))
msg = (
"earliest() and latest() require either fields as positional arguments "
"or 'get_latest_by' in the model's Meta."
)
with self.assertRaisesMessage(ValueError, msg):
Person.objects.latest()
self.assertEqual(Person.objects.latest("birthday"), p2)
class TestFirstLast(TestCase):
def test_first(self):
p1 = Person.objects.create(name="Bob", birthday=datetime(1950, 1, 1))
p2 = Person.objects.create(name="Alice", birthday=datetime(1961, 2, 3))
self.assertEqual(Person.objects.first(), p1)
self.assertEqual(Person.objects.order_by("name").first(), p2)
self.assertEqual(
Person.objects.filter(birthday__lte=datetime(1955, 1, 1)).first(), p1
)
self.assertIsNone(
Person.objects.filter(birthday__lte=datetime(1940, 1, 1)).first()
)
def test_last(self):
p1 = Person.objects.create(name="Alice", birthday=datetime(1950, 1, 1))
p2 = Person.objects.create(name="Bob", birthday=datetime(1960, 2, 3))
# Note: by default PK ordering.
self.assertEqual(Person.objects.last(), p2)
self.assertEqual(Person.objects.order_by("-name").last(), p1)
self.assertEqual(
Person.objects.filter(birthday__lte=datetime(1955, 1, 1)).last(), p1
)
self.assertIsNone(
Person.objects.filter(birthday__lte=datetime(1940, 1, 1)).last()
)
def test_index_error_not_suppressed(self):
"""
#23555 -- Unexpected IndexError exceptions in QuerySet iteration
shouldn't be suppressed.
"""
def check():
# We know that we've broken the __iter__ method, so the queryset
# should always raise an exception.
with self.assertRaises(IndexError):
IndexErrorArticle.objects.all()[:10:2]
with self.assertRaises(IndexError):
IndexErrorArticle.objects.first()
with self.assertRaises(IndexError):
IndexErrorArticle.objects.last()
check()
# And it does not matter if there are any records in the DB.
IndexErrorArticle.objects.create(
headline="Article 1",
pub_date=datetime(2005, 7, 26),
expire_date=datetime(2005, 9, 1),
)
check()
|
a0434bf5d479875c1cada9a87685c42f50e5ebaf84026f39cd715d3ca04ef824 | from django.db import models
class Article(models.Model):
headline = models.CharField(max_length=100)
pub_date = models.DateField()
expire_date = models.DateField()
class Meta:
get_latest_by = "pub_date"
class Person(models.Model):
name = models.CharField(max_length=30)
birthday = models.DateField()
# Note that this model doesn't have "get_latest_by" set.
# Ticket #23555 - model with an intentionally broken QuerySet.__iter__ method.
class IndexErrorQuerySet(models.QuerySet):
"""
Emulates the case when some internal code raises an unexpected
IndexError.
"""
def __iter__(self):
raise IndexError
class IndexErrorArticle(Article):
objects = IndexErrorQuerySet.as_manager()
|
68f7514f9aa6fbb1ed214b26391c423d5467e0456c7ecd39de96c64a3b1fb3bf | from operator import attrgetter
from django.contrib.contenttypes.models import ContentType
from django.contrib.sessions.backends.db import SessionStore
from django.db import models
from django.db.models import Count
from django.test import TestCase, ignore_warnings, override_settings
from django.utils.deprecation import RemovedInDjango50Warning
from .models import (
Base,
Child,
Derived,
Feature,
Item,
ItemAndSimpleItem,
Leaf,
Location,
OneToOneItem,
Proxy,
ProxyRelated,
RelatedItem,
Request,
ResolveThis,
SimpleItem,
SpecialFeature,
)
class DeferRegressionTest(TestCase):
def test_basic(self):
# Deferred fields should really be deferred and not accidentally use
# the field's default value just because they aren't passed to __init__
Item.objects.create(name="first", value=42)
obj = Item.objects.only("name", "other_value").get(name="first")
# Accessing "name" doesn't trigger a new database query. Accessing
# "value" or "text" should.
with self.assertNumQueries(0):
self.assertEqual(obj.name, "first")
self.assertEqual(obj.other_value, 0)
with self.assertNumQueries(1):
self.assertEqual(obj.value, 42)
with self.assertNumQueries(1):
self.assertEqual(obj.text, "xyzzy")
with self.assertNumQueries(0):
self.assertEqual(obj.text, "xyzzy")
# Regression test for #10695. Make sure different instances don't
# inadvertently share data in the deferred descriptor objects.
i = Item.objects.create(name="no I'm first", value=37)
items = Item.objects.only("value").order_by("-value")
self.assertEqual(items[0].name, "first")
self.assertEqual(items[1].name, "no I'm first")
RelatedItem.objects.create(item=i)
r = RelatedItem.objects.defer("item").get()
self.assertEqual(r.item_id, i.id)
self.assertEqual(r.item, i)
# Some further checks for select_related() and inherited model
# behavior (regression for #10710).
c1 = Child.objects.create(name="c1", value=42)
c2 = Child.objects.create(name="c2", value=37)
Leaf.objects.create(name="l1", child=c1, second_child=c2)
obj = Leaf.objects.only("name", "child").select_related()[0]
self.assertEqual(obj.child.name, "c1")
self.assertQuerysetEqual(
Leaf.objects.select_related().only("child__name", "second_child__name"),
[
"l1",
],
attrgetter("name"),
)
# Models instances with deferred fields should still return the same
# content types as their non-deferred versions (bug #10738).
ctype = ContentType.objects.get_for_model
c1 = ctype(Item.objects.all()[0])
c2 = ctype(Item.objects.defer("name")[0])
c3 = ctype(Item.objects.only("name")[0])
self.assertTrue(c1 is c2 is c3)
# Regression for #10733 - only() can be used on a model with two
# foreign keys.
results = Leaf.objects.only("name", "child", "second_child").select_related()
self.assertEqual(results[0].child.name, "c1")
self.assertEqual(results[0].second_child.name, "c2")
results = Leaf.objects.only(
"name", "child", "second_child", "child__name", "second_child__name"
).select_related()
self.assertEqual(results[0].child.name, "c1")
self.assertEqual(results[0].second_child.name, "c2")
# Regression for #16409 - make sure defer() and only() work with annotate()
self.assertIsInstance(
list(SimpleItem.objects.annotate(Count("feature")).defer("name")), list
)
self.assertIsInstance(
list(SimpleItem.objects.annotate(Count("feature")).only("name")), list
)
@ignore_warnings(category=RemovedInDjango50Warning)
@override_settings(
SESSION_SERIALIZER="django.contrib.sessions.serializers.PickleSerializer"
)
def test_ticket_12163(self):
# Test for #12163 - Pickling error saving session with unsaved model
# instances.
SESSION_KEY = "2b1189a188b44ad18c35e1baac6ceead"
item = Item()
item._deferred = False
s = SessionStore(SESSION_KEY)
s.clear()
s["item"] = item
s.save(must_create=True)
s = SessionStore(SESSION_KEY)
s.modified = True
s.save()
i2 = s["item"]
self.assertFalse(i2._deferred)
def test_ticket_16409(self):
# Regression for #16409 - make sure defer() and only() work with annotate()
self.assertIsInstance(
list(SimpleItem.objects.annotate(Count("feature")).defer("name")), list
)
self.assertIsInstance(
list(SimpleItem.objects.annotate(Count("feature")).only("name")), list
)
def test_ticket_23270(self):
d = Derived.objects.create(text="foo", other_text="bar")
with self.assertNumQueries(1):
obj = Base.objects.select_related("derived").defer("text")[0]
self.assertIsInstance(obj.derived, Derived)
self.assertEqual("bar", obj.derived.other_text)
self.assertNotIn("text", obj.__dict__)
self.assertEqual(d.pk, obj.derived.base_ptr_id)
def test_only_and_defer_usage_on_proxy_models(self):
# Regression for #15790 - only() broken for proxy models
proxy = Proxy.objects.create(name="proxy", value=42)
msg = "QuerySet.only() return bogus results with proxy models"
dp = Proxy.objects.only("other_value").get(pk=proxy.pk)
self.assertEqual(dp.name, proxy.name, msg=msg)
self.assertEqual(dp.value, proxy.value, msg=msg)
# also test things with .defer()
msg = "QuerySet.defer() return bogus results with proxy models"
dp = Proxy.objects.defer("name", "text", "value").get(pk=proxy.pk)
self.assertEqual(dp.name, proxy.name, msg=msg)
self.assertEqual(dp.value, proxy.value, msg=msg)
def test_resolve_columns(self):
ResolveThis.objects.create(num=5.0, name="Foobar")
qs = ResolveThis.objects.defer("num")
self.assertEqual(1, qs.count())
self.assertEqual("Foobar", qs[0].name)
def test_reverse_one_to_one_relations(self):
# Refs #14694. Test reverse relations which are known unique (reverse
# side has o2ofield or unique FK) - the o2o case
item = Item.objects.create(name="first", value=42)
o2o = OneToOneItem.objects.create(item=item, name="second")
self.assertEqual(len(Item.objects.defer("one_to_one_item__name")), 1)
self.assertEqual(len(Item.objects.select_related("one_to_one_item")), 1)
self.assertEqual(
len(
Item.objects.select_related("one_to_one_item").defer(
"one_to_one_item__name"
)
),
1,
)
self.assertEqual(
len(Item.objects.select_related("one_to_one_item").defer("value")), 1
)
# Make sure that `only()` doesn't break when we pass in a unique relation,
# rather than a field on the relation.
self.assertEqual(len(Item.objects.only("one_to_one_item")), 1)
with self.assertNumQueries(1):
i = Item.objects.select_related("one_to_one_item")[0]
self.assertEqual(i.one_to_one_item.pk, o2o.pk)
self.assertEqual(i.one_to_one_item.name, "second")
with self.assertNumQueries(1):
i = Item.objects.select_related("one_to_one_item").defer(
"value", "one_to_one_item__name"
)[0]
self.assertEqual(i.one_to_one_item.pk, o2o.pk)
self.assertEqual(i.name, "first")
with self.assertNumQueries(1):
self.assertEqual(i.one_to_one_item.name, "second")
with self.assertNumQueries(1):
self.assertEqual(i.value, 42)
def test_defer_with_select_related(self):
item1 = Item.objects.create(name="first", value=47)
item2 = Item.objects.create(name="second", value=42)
simple = SimpleItem.objects.create(name="simple", value="23")
ItemAndSimpleItem.objects.create(item=item1, simple=simple)
obj = ItemAndSimpleItem.objects.defer("item").select_related("simple").get()
self.assertEqual(obj.item, item1)
self.assertEqual(obj.item_id, item1.id)
obj.item = item2
obj.save()
obj = ItemAndSimpleItem.objects.defer("item").select_related("simple").get()
self.assertEqual(obj.item, item2)
self.assertEqual(obj.item_id, item2.id)
def test_proxy_model_defer_with_select_related(self):
# Regression for #22050
item = Item.objects.create(name="first", value=47)
RelatedItem.objects.create(item=item)
# Defer fields with only()
obj = ProxyRelated.objects.select_related().only("item__name")[0]
with self.assertNumQueries(0):
self.assertEqual(obj.item.name, "first")
with self.assertNumQueries(1):
self.assertEqual(obj.item.value, 47)
def test_only_with_select_related(self):
# Test for #17485.
item = SimpleItem.objects.create(name="first", value=47)
feature = Feature.objects.create(item=item)
SpecialFeature.objects.create(feature=feature)
qs = Feature.objects.only("item__name").select_related("item")
self.assertEqual(len(qs), 1)
qs = SpecialFeature.objects.only("feature__item__name").select_related(
"feature__item"
)
self.assertEqual(len(qs), 1)
class DeferAnnotateSelectRelatedTest(TestCase):
def test_defer_annotate_select_related(self):
location = Location.objects.create()
Request.objects.create(location=location)
self.assertIsInstance(
list(
Request.objects.annotate(Count("items"))
.select_related("profile", "location")
.only("profile", "location")
),
list,
)
self.assertIsInstance(
list(
Request.objects.annotate(Count("items"))
.select_related("profile", "location")
.only("profile__profile1", "location__location1")
),
list,
)
self.assertIsInstance(
list(
Request.objects.annotate(Count("items"))
.select_related("profile", "location")
.defer("request1", "request2", "request3", "request4")
),
list,
)
class DeferDeletionSignalsTests(TestCase):
senders = [Item, Proxy]
@classmethod
def setUpTestData(cls):
cls.item_pk = Item.objects.create(value=1).pk
def setUp(self):
self.pre_delete_senders = []
self.post_delete_senders = []
for sender in self.senders:
models.signals.pre_delete.connect(self.pre_delete_receiver, sender)
models.signals.post_delete.connect(self.post_delete_receiver, sender)
def tearDown(self):
for sender in self.senders:
models.signals.pre_delete.disconnect(self.pre_delete_receiver, sender)
models.signals.post_delete.disconnect(self.post_delete_receiver, sender)
def pre_delete_receiver(self, sender, **kwargs):
self.pre_delete_senders.append(sender)
def post_delete_receiver(self, sender, **kwargs):
self.post_delete_senders.append(sender)
def test_delete_defered_model(self):
Item.objects.only("value").get(pk=self.item_pk).delete()
self.assertEqual(self.pre_delete_senders, [Item])
self.assertEqual(self.post_delete_senders, [Item])
def test_delete_defered_proxy_model(self):
Proxy.objects.only("value").get(pk=self.item_pk).delete()
self.assertEqual(self.pre_delete_senders, [Proxy])
self.assertEqual(self.post_delete_senders, [Proxy])
|
a694e11fb4aeef9c709e692b6079396bcbbcfce803e12c9d891f92101b0969ff | """
Regression tests for defer() / only() behavior.
"""
from django.db import models
class Item(models.Model):
name = models.CharField(max_length=15)
text = models.TextField(default="xyzzy")
value = models.IntegerField()
other_value = models.IntegerField(default=0)
class RelatedItem(models.Model):
item = models.ForeignKey(Item, models.CASCADE)
class ProxyRelated(RelatedItem):
class Meta:
proxy = True
class Child(models.Model):
name = models.CharField(max_length=10)
value = models.IntegerField()
class Leaf(models.Model):
name = models.CharField(max_length=10)
child = models.ForeignKey(Child, models.CASCADE)
second_child = models.ForeignKey(
Child, models.SET_NULL, related_name="other", null=True
)
value = models.IntegerField(default=42)
class ResolveThis(models.Model):
num = models.FloatField()
name = models.CharField(max_length=16)
class Proxy(Item):
class Meta:
proxy = True
class SimpleItem(models.Model):
name = models.CharField(max_length=15)
value = models.IntegerField()
class Feature(models.Model):
item = models.ForeignKey(SimpleItem, models.CASCADE)
class SpecialFeature(models.Model):
feature = models.ForeignKey(Feature, models.CASCADE)
class OneToOneItem(models.Model):
item = models.OneToOneField(Item, models.CASCADE, related_name="one_to_one_item")
name = models.CharField(max_length=15)
class ItemAndSimpleItem(models.Model):
item = models.ForeignKey(Item, models.CASCADE)
simple = models.ForeignKey(SimpleItem, models.CASCADE)
class Profile(models.Model):
profile1 = models.CharField(max_length=255, default="profile1")
class Location(models.Model):
location1 = models.CharField(max_length=255, default="location1")
class Request(models.Model):
profile = models.ForeignKey(Profile, models.SET_NULL, null=True, blank=True)
location = models.ForeignKey(Location, models.CASCADE)
items = models.ManyToManyField(Item)
request1 = models.CharField(default="request1", max_length=255)
request2 = models.CharField(default="request2", max_length=255)
request3 = models.CharField(default="request3", max_length=255)
request4 = models.CharField(default="request4", max_length=255)
class Base(models.Model):
text = models.TextField()
class Derived(Base):
other_text = models.TextField()
|
3aa5a72558e5d84f73981d0d9d29521dfc56e0bb5dce29ba576042b8ba9eafa2 | import unittest
from django.test import TestCase
from .models import PersonWithCustomMaxLengths, PersonWithDefaultMaxLengths
class MaxLengthArgumentsTests(unittest.TestCase):
def verify_max_length(self, model, field, length):
self.assertEqual(model._meta.get_field(field).max_length, length)
def test_default_max_lengths(self):
self.verify_max_length(PersonWithDefaultMaxLengths, "email", 254)
self.verify_max_length(PersonWithDefaultMaxLengths, "vcard", 100)
self.verify_max_length(PersonWithDefaultMaxLengths, "homepage", 200)
self.verify_max_length(PersonWithDefaultMaxLengths, "avatar", 100)
def test_custom_max_lengths(self):
self.verify_max_length(PersonWithCustomMaxLengths, "email", 250)
self.verify_max_length(PersonWithCustomMaxLengths, "vcard", 250)
self.verify_max_length(PersonWithCustomMaxLengths, "homepage", 250)
self.verify_max_length(PersonWithCustomMaxLengths, "avatar", 250)
class MaxLengthORMTests(TestCase):
def test_custom_max_lengths(self):
args = {
"email": "[email protected]",
"vcard": "vcard",
"homepage": "http://example.com/",
"avatar": "me.jpg",
}
for field in ("email", "vcard", "homepage", "avatar"):
new_args = args.copy()
new_args[field] = (
"X" * 250
) # a value longer than any of the default fields could hold.
p = PersonWithCustomMaxLengths.objects.create(**new_args)
self.assertEqual(getattr(p, field), ("X" * 250))
|
64cb823b7af73b916fc24bd911151bac42a2b8bd15186113bb761038329e83b0 | import time
import unittest
from datetime import date, datetime
from django.core.exceptions import FieldError
from django.db import connection, models
from django.test import SimpleTestCase, TestCase, override_settings
from django.test.utils import register_lookup
from django.utils import timezone
from .models import Article, Author, MySQLUnixTimestamp
class Div3Lookup(models.Lookup):
lookup_name = "div3"
def as_sql(self, compiler, connection):
lhs, params = self.process_lhs(compiler, connection)
rhs, rhs_params = self.process_rhs(compiler, connection)
params.extend(rhs_params)
return "(%s) %%%% 3 = %s" % (lhs, rhs), params
def as_oracle(self, compiler, connection):
lhs, params = self.process_lhs(compiler, connection)
rhs, rhs_params = self.process_rhs(compiler, connection)
params.extend(rhs_params)
return "mod(%s, 3) = %s" % (lhs, rhs), params
class Div3Transform(models.Transform):
lookup_name = "div3"
def as_sql(self, compiler, connection):
lhs, lhs_params = compiler.compile(self.lhs)
return "(%s) %%%% 3" % lhs, lhs_params
def as_oracle(self, compiler, connection, **extra_context):
lhs, lhs_params = compiler.compile(self.lhs)
return "mod(%s, 3)" % lhs, lhs_params
class Div3BilateralTransform(Div3Transform):
bilateral = True
class Mult3BilateralTransform(models.Transform):
bilateral = True
lookup_name = "mult3"
def as_sql(self, compiler, connection):
lhs, lhs_params = compiler.compile(self.lhs)
return "3 * (%s)" % lhs, lhs_params
class LastDigitTransform(models.Transform):
lookup_name = "lastdigit"
def as_sql(self, compiler, connection):
lhs, lhs_params = compiler.compile(self.lhs)
return "SUBSTR(CAST(%s AS CHAR(2)), 2, 1)" % lhs, lhs_params
class UpperBilateralTransform(models.Transform):
bilateral = True
lookup_name = "upper"
def as_sql(self, compiler, connection):
lhs, lhs_params = compiler.compile(self.lhs)
return "UPPER(%s)" % lhs, lhs_params
class YearTransform(models.Transform):
# Use a name that avoids collision with the built-in year lookup.
lookup_name = "testyear"
def as_sql(self, compiler, connection):
lhs_sql, params = compiler.compile(self.lhs)
return connection.ops.date_extract_sql("year", lhs_sql), params
@property
def output_field(self):
return models.IntegerField()
@YearTransform.register_lookup
class YearExact(models.lookups.Lookup):
lookup_name = "exact"
def as_sql(self, compiler, connection):
# We will need to skip the extract part, and instead go
# directly with the originating field, that is self.lhs.lhs
lhs_sql, lhs_params = self.process_lhs(compiler, connection, self.lhs.lhs)
rhs_sql, rhs_params = self.process_rhs(compiler, connection)
# Note that we must be careful so that we have params in the
# same order as we have the parts in the SQL.
params = lhs_params + rhs_params + lhs_params + rhs_params
# We use PostgreSQL specific SQL here. Note that we must do the
# conversions in SQL instead of in Python to support F() references.
return (
"%(lhs)s >= (%(rhs)s || '-01-01')::date "
"AND %(lhs)s <= (%(rhs)s || '-12-31')::date"
% {"lhs": lhs_sql, "rhs": rhs_sql},
params,
)
@YearTransform.register_lookup
class YearLte(models.lookups.LessThanOrEqual):
"""
The purpose of this lookup is to efficiently compare the year of the field.
"""
def as_sql(self, compiler, connection):
# Skip the YearTransform above us (no possibility for efficient
# lookup otherwise).
real_lhs = self.lhs.lhs
lhs_sql, params = self.process_lhs(compiler, connection, real_lhs)
rhs_sql, rhs_params = self.process_rhs(compiler, connection)
params.extend(rhs_params)
# Build SQL where the integer year is concatenated with last month
# and day, then convert that to date. (We try to have SQL like:
# WHERE somecol <= '2013-12-31')
# but also make it work if the rhs_sql is field reference.
return "%s <= (%s || '-12-31')::date" % (lhs_sql, rhs_sql), params
class Exactly(models.lookups.Exact):
"""
This lookup is used to test lookup registration.
"""
lookup_name = "exactly"
def get_rhs_op(self, connection, rhs):
return connection.operators["exact"] % rhs
class SQLFuncMixin:
def as_sql(self, compiler, connection):
return "%s()" % self.name, []
@property
def output_field(self):
return CustomField()
class SQLFuncLookup(SQLFuncMixin, models.Lookup):
def __init__(self, name, *args, **kwargs):
super().__init__(*args, **kwargs)
self.name = name
class SQLFuncTransform(SQLFuncMixin, models.Transform):
def __init__(self, name, *args, **kwargs):
super().__init__(*args, **kwargs)
self.name = name
class SQLFuncFactory:
def __init__(self, key, name):
self.key = key
self.name = name
def __call__(self, *args, **kwargs):
if self.key == "lookupfunc":
return SQLFuncLookup(self.name, *args, **kwargs)
return SQLFuncTransform(self.name, *args, **kwargs)
class CustomField(models.TextField):
def get_lookup(self, lookup_name):
if lookup_name.startswith("lookupfunc_"):
key, name = lookup_name.split("_", 1)
return SQLFuncFactory(key, name)
return super().get_lookup(lookup_name)
def get_transform(self, lookup_name):
if lookup_name.startswith("transformfunc_"):
key, name = lookup_name.split("_", 1)
return SQLFuncFactory(key, name)
return super().get_transform(lookup_name)
class CustomModel(models.Model):
field = CustomField()
# We will register this class temporarily in the test method.
class InMonth(models.lookups.Lookup):
"""
InMonth matches if the column's month is the same as value's month.
"""
lookup_name = "inmonth"
def as_sql(self, compiler, connection):
lhs, lhs_params = self.process_lhs(compiler, connection)
rhs, rhs_params = self.process_rhs(compiler, connection)
# We need to be careful so that we get the params in right
# places.
params = lhs_params + rhs_params + lhs_params + rhs_params
return (
"%s >= date_trunc('month', %s) and "
"%s < date_trunc('month', %s) + interval '1 months'" % (lhs, rhs, lhs, rhs),
params,
)
class DateTimeTransform(models.Transform):
lookup_name = "as_datetime"
@property
def output_field(self):
return models.DateTimeField()
def as_sql(self, compiler, connection):
lhs, params = compiler.compile(self.lhs)
return "from_unixtime({})".format(lhs), params
class LookupTests(TestCase):
def test_custom_name_lookup(self):
a1 = Author.objects.create(name="a1", birthdate=date(1981, 2, 16))
Author.objects.create(name="a2", birthdate=date(2012, 2, 29))
with register_lookup(models.DateField, YearTransform), register_lookup(
models.DateField, YearTransform, lookup_name="justtheyear"
), register_lookup(YearTransform, Exactly), register_lookup(
YearTransform, Exactly, lookup_name="isactually"
):
qs1 = Author.objects.filter(birthdate__testyear__exactly=1981)
qs2 = Author.objects.filter(birthdate__justtheyear__isactually=1981)
self.assertSequenceEqual(qs1, [a1])
self.assertSequenceEqual(qs2, [a1])
def test_custom_exact_lookup_none_rhs(self):
"""
__exact=None is transformed to __isnull=True if a custom lookup class
with lookup_name != 'exact' is registered as the `exact` lookup.
"""
field = Author._meta.get_field("birthdate")
OldExactLookup = field.get_lookup("exact")
author = Author.objects.create(name="author", birthdate=None)
try:
field.register_lookup(Exactly, "exact")
self.assertEqual(Author.objects.get(birthdate__exact=None), author)
finally:
field.register_lookup(OldExactLookup, "exact")
def test_basic_lookup(self):
a1 = Author.objects.create(name="a1", age=1)
a2 = Author.objects.create(name="a2", age=2)
a3 = Author.objects.create(name="a3", age=3)
a4 = Author.objects.create(name="a4", age=4)
with register_lookup(models.IntegerField, Div3Lookup):
self.assertSequenceEqual(Author.objects.filter(age__div3=0), [a3])
self.assertSequenceEqual(
Author.objects.filter(age__div3=1).order_by("age"), [a1, a4]
)
self.assertSequenceEqual(Author.objects.filter(age__div3=2), [a2])
self.assertSequenceEqual(Author.objects.filter(age__div3=3), [])
@unittest.skipUnless(
connection.vendor == "postgresql", "PostgreSQL specific SQL used"
)
def test_birthdate_month(self):
a1 = Author.objects.create(name="a1", birthdate=date(1981, 2, 16))
a2 = Author.objects.create(name="a2", birthdate=date(2012, 2, 29))
a3 = Author.objects.create(name="a3", birthdate=date(2012, 1, 31))
a4 = Author.objects.create(name="a4", birthdate=date(2012, 3, 1))
with register_lookup(models.DateField, InMonth):
self.assertSequenceEqual(
Author.objects.filter(birthdate__inmonth=date(2012, 1, 15)), [a3]
)
self.assertSequenceEqual(
Author.objects.filter(birthdate__inmonth=date(2012, 2, 1)), [a2]
)
self.assertSequenceEqual(
Author.objects.filter(birthdate__inmonth=date(1981, 2, 28)), [a1]
)
self.assertSequenceEqual(
Author.objects.filter(birthdate__inmonth=date(2012, 3, 12)), [a4]
)
self.assertSequenceEqual(
Author.objects.filter(birthdate__inmonth=date(2012, 4, 1)), []
)
def test_div3_extract(self):
with register_lookup(models.IntegerField, Div3Transform):
a1 = Author.objects.create(name="a1", age=1)
a2 = Author.objects.create(name="a2", age=2)
a3 = Author.objects.create(name="a3", age=3)
a4 = Author.objects.create(name="a4", age=4)
baseqs = Author.objects.order_by("name")
self.assertSequenceEqual(baseqs.filter(age__div3=2), [a2])
self.assertSequenceEqual(baseqs.filter(age__div3__lte=3), [a1, a2, a3, a4])
self.assertSequenceEqual(baseqs.filter(age__div3__in=[0, 2]), [a2, a3])
self.assertSequenceEqual(baseqs.filter(age__div3__in=[2, 4]), [a2])
self.assertSequenceEqual(baseqs.filter(age__div3__gte=3), [])
self.assertSequenceEqual(
baseqs.filter(age__div3__range=(1, 2)), [a1, a2, a4]
)
def test_foreignobject_lookup_registration(self):
field = Article._meta.get_field("author")
with register_lookup(models.ForeignObject, Exactly):
self.assertIs(field.get_lookup("exactly"), Exactly)
# ForeignObject should ignore regular Field lookups
with register_lookup(models.Field, Exactly):
self.assertIsNone(field.get_lookup("exactly"))
def test_lookups_caching(self):
field = Article._meta.get_field("author")
# clear and re-cache
field.get_lookups.cache_clear()
self.assertNotIn("exactly", field.get_lookups())
# registration should bust the cache
with register_lookup(models.ForeignObject, Exactly):
# getting the lookups again should re-cache
self.assertIn("exactly", field.get_lookups())
class BilateralTransformTests(TestCase):
def test_bilateral_upper(self):
with register_lookup(models.CharField, UpperBilateralTransform):
author1 = Author.objects.create(name="Doe")
author2 = Author.objects.create(name="doe")
author3 = Author.objects.create(name="Foo")
self.assertCountEqual(
Author.objects.filter(name__upper="doe"),
[author1, author2],
)
self.assertSequenceEqual(
Author.objects.filter(name__upper__contains="f"),
[author3],
)
def test_bilateral_inner_qs(self):
with register_lookup(models.CharField, UpperBilateralTransform):
msg = "Bilateral transformations on nested querysets are not implemented."
with self.assertRaisesMessage(NotImplementedError, msg):
Author.objects.filter(
name__upper__in=Author.objects.values_list("name")
)
def test_bilateral_multi_value(self):
with register_lookup(models.CharField, UpperBilateralTransform):
Author.objects.bulk_create(
[
Author(name="Foo"),
Author(name="Bar"),
Author(name="Ray"),
]
)
self.assertQuerysetEqual(
Author.objects.filter(name__upper__in=["foo", "bar", "doe"]).order_by(
"name"
),
["Bar", "Foo"],
lambda a: a.name,
)
def test_div3_bilateral_extract(self):
with register_lookup(models.IntegerField, Div3BilateralTransform):
a1 = Author.objects.create(name="a1", age=1)
a2 = Author.objects.create(name="a2", age=2)
a3 = Author.objects.create(name="a3", age=3)
a4 = Author.objects.create(name="a4", age=4)
baseqs = Author.objects.order_by("name")
self.assertSequenceEqual(baseqs.filter(age__div3=2), [a2])
self.assertSequenceEqual(baseqs.filter(age__div3__lte=3), [a3])
self.assertSequenceEqual(baseqs.filter(age__div3__in=[0, 2]), [a2, a3])
self.assertSequenceEqual(baseqs.filter(age__div3__in=[2, 4]), [a1, a2, a4])
self.assertSequenceEqual(baseqs.filter(age__div3__gte=3), [a1, a2, a3, a4])
self.assertSequenceEqual(
baseqs.filter(age__div3__range=(1, 2)), [a1, a2, a4]
)
def test_bilateral_order(self):
with register_lookup(
models.IntegerField, Mult3BilateralTransform, Div3BilateralTransform
):
a1 = Author.objects.create(name="a1", age=1)
a2 = Author.objects.create(name="a2", age=2)
a3 = Author.objects.create(name="a3", age=3)
a4 = Author.objects.create(name="a4", age=4)
baseqs = Author.objects.order_by("name")
# mult3__div3 always leads to 0
self.assertSequenceEqual(
baseqs.filter(age__mult3__div3=42), [a1, a2, a3, a4]
)
self.assertSequenceEqual(baseqs.filter(age__div3__mult3=42), [a3])
def test_transform_order_by(self):
with register_lookup(models.IntegerField, LastDigitTransform):
a1 = Author.objects.create(name="a1", age=11)
a2 = Author.objects.create(name="a2", age=23)
a3 = Author.objects.create(name="a3", age=32)
a4 = Author.objects.create(name="a4", age=40)
qs = Author.objects.order_by("age__lastdigit")
self.assertSequenceEqual(qs, [a4, a1, a3, a2])
def test_bilateral_fexpr(self):
with register_lookup(models.IntegerField, Mult3BilateralTransform):
a1 = Author.objects.create(name="a1", age=1, average_rating=3.2)
a2 = Author.objects.create(name="a2", age=2, average_rating=0.5)
a3 = Author.objects.create(name="a3", age=3, average_rating=1.5)
a4 = Author.objects.create(name="a4", age=4)
baseqs = Author.objects.order_by("name")
self.assertSequenceEqual(
baseqs.filter(age__mult3=models.F("age")), [a1, a2, a3, a4]
)
# Same as age >= average_rating
self.assertSequenceEqual(
baseqs.filter(age__mult3__gte=models.F("average_rating")), [a2, a3]
)
@override_settings(USE_TZ=True)
class DateTimeLookupTests(TestCase):
@unittest.skipUnless(connection.vendor == "mysql", "MySQL specific SQL used")
def test_datetime_output_field(self):
with register_lookup(models.PositiveIntegerField, DateTimeTransform):
ut = MySQLUnixTimestamp.objects.create(timestamp=time.time())
y2k = timezone.make_aware(datetime(2000, 1, 1))
self.assertSequenceEqual(
MySQLUnixTimestamp.objects.filter(timestamp__as_datetime__gt=y2k), [ut]
)
class YearLteTests(TestCase):
@classmethod
def setUpTestData(cls):
cls.a1 = Author.objects.create(name="a1", birthdate=date(1981, 2, 16))
cls.a2 = Author.objects.create(name="a2", birthdate=date(2012, 2, 29))
cls.a3 = Author.objects.create(name="a3", birthdate=date(2012, 1, 31))
cls.a4 = Author.objects.create(name="a4", birthdate=date(2012, 3, 1))
def setUp(self):
models.DateField.register_lookup(YearTransform)
def tearDown(self):
models.DateField._unregister_lookup(YearTransform)
@unittest.skipUnless(
connection.vendor == "postgresql", "PostgreSQL specific SQL used"
)
def test_year_lte(self):
baseqs = Author.objects.order_by("name")
self.assertSequenceEqual(
baseqs.filter(birthdate__testyear__lte=2012),
[self.a1, self.a2, self.a3, self.a4],
)
self.assertSequenceEqual(
baseqs.filter(birthdate__testyear=2012), [self.a2, self.a3, self.a4]
)
self.assertNotIn("BETWEEN", str(baseqs.filter(birthdate__testyear=2012).query))
self.assertSequenceEqual(
baseqs.filter(birthdate__testyear__lte=2011), [self.a1]
)
# The non-optimized version works, too.
self.assertSequenceEqual(baseqs.filter(birthdate__testyear__lt=2012), [self.a1])
@unittest.skipUnless(
connection.vendor == "postgresql", "PostgreSQL specific SQL used"
)
def test_year_lte_fexpr(self):
self.a2.age = 2011
self.a2.save()
self.a3.age = 2012
self.a3.save()
self.a4.age = 2013
self.a4.save()
baseqs = Author.objects.order_by("name")
self.assertSequenceEqual(
baseqs.filter(birthdate__testyear__lte=models.F("age")), [self.a3, self.a4]
)
self.assertSequenceEqual(
baseqs.filter(birthdate__testyear__lt=models.F("age")), [self.a4]
)
def test_year_lte_sql(self):
# This test will just check the generated SQL for __lte. This
# doesn't require running on PostgreSQL and spots the most likely
# error - not running YearLte SQL at all.
baseqs = Author.objects.order_by("name")
self.assertIn(
"<= (2011 || ", str(baseqs.filter(birthdate__testyear__lte=2011).query)
)
self.assertIn("-12-31", str(baseqs.filter(birthdate__testyear__lte=2011).query))
def test_postgres_year_exact(self):
baseqs = Author.objects.order_by("name")
self.assertIn("= (2011 || ", str(baseqs.filter(birthdate__testyear=2011).query))
self.assertIn("-12-31", str(baseqs.filter(birthdate__testyear=2011).query))
def test_custom_implementation_year_exact(self):
try:
# Two ways to add a customized implementation for different backends:
# First is MonkeyPatch of the class.
def as_custom_sql(self, compiler, connection):
lhs_sql, lhs_params = self.process_lhs(
compiler, connection, self.lhs.lhs
)
rhs_sql, rhs_params = self.process_rhs(compiler, connection)
params = lhs_params + rhs_params + lhs_params + rhs_params
return (
"%(lhs)s >= "
"str_to_date(concat(%(rhs)s, '-01-01'), '%%%%Y-%%%%m-%%%%d') "
"AND %(lhs)s <= "
"str_to_date(concat(%(rhs)s, '-12-31'), '%%%%Y-%%%%m-%%%%d')"
% {"lhs": lhs_sql, "rhs": rhs_sql},
params,
)
setattr(YearExact, "as_" + connection.vendor, as_custom_sql)
self.assertIn(
"concat(", str(Author.objects.filter(birthdate__testyear=2012).query)
)
finally:
delattr(YearExact, "as_" + connection.vendor)
try:
# The other way is to subclass the original lookup and register the
# subclassed lookup instead of the original.
class CustomYearExact(YearExact):
# This method should be named "as_mysql" for MySQL,
# "as_postgresql" for postgres and so on, but as we don't know
# which DB we are running on, we need to use setattr.
def as_custom_sql(self, compiler, connection):
lhs_sql, lhs_params = self.process_lhs(
compiler, connection, self.lhs.lhs
)
rhs_sql, rhs_params = self.process_rhs(compiler, connection)
params = lhs_params + rhs_params + lhs_params + rhs_params
return (
"%(lhs)s >= "
"str_to_date(CONCAT(%(rhs)s, '-01-01'), '%%%%Y-%%%%m-%%%%d') "
"AND %(lhs)s <= "
"str_to_date(CONCAT(%(rhs)s, '-12-31'), '%%%%Y-%%%%m-%%%%d')"
% {"lhs": lhs_sql, "rhs": rhs_sql},
params,
)
setattr(
CustomYearExact,
"as_" + connection.vendor,
CustomYearExact.as_custom_sql,
)
YearTransform.register_lookup(CustomYearExact)
self.assertIn(
"CONCAT(", str(Author.objects.filter(birthdate__testyear=2012).query)
)
finally:
YearTransform._unregister_lookup(CustomYearExact)
YearTransform.register_lookup(YearExact)
class TrackCallsYearTransform(YearTransform):
# Use a name that avoids collision with the built-in year lookup.
lookup_name = "testyear"
call_order = []
def as_sql(self, compiler, connection):
lhs_sql, params = compiler.compile(self.lhs)
return connection.ops.date_extract_sql("year", lhs_sql), params
@property
def output_field(self):
return models.IntegerField()
def get_lookup(self, lookup_name):
self.call_order.append("lookup")
return super().get_lookup(lookup_name)
def get_transform(self, lookup_name):
self.call_order.append("transform")
return super().get_transform(lookup_name)
class LookupTransformCallOrderTests(SimpleTestCase):
def test_call_order(self):
with register_lookup(models.DateField, TrackCallsYearTransform):
# junk lookup - tries lookup, then transform, then fails
msg = (
"Unsupported lookup 'junk' for IntegerField or join on the field not "
"permitted."
)
with self.assertRaisesMessage(FieldError, msg):
Author.objects.filter(birthdate__testyear__junk=2012)
self.assertEqual(
TrackCallsYearTransform.call_order, ["lookup", "transform"]
)
TrackCallsYearTransform.call_order = []
# junk transform - tries transform only, then fails
with self.assertRaisesMessage(FieldError, msg):
Author.objects.filter(birthdate__testyear__junk__more_junk=2012)
self.assertEqual(TrackCallsYearTransform.call_order, ["transform"])
TrackCallsYearTransform.call_order = []
# Just getting the year (implied __exact) - lookup only
Author.objects.filter(birthdate__testyear=2012)
self.assertEqual(TrackCallsYearTransform.call_order, ["lookup"])
TrackCallsYearTransform.call_order = []
# Just getting the year (explicit __exact) - lookup only
Author.objects.filter(birthdate__testyear__exact=2012)
self.assertEqual(TrackCallsYearTransform.call_order, ["lookup"])
class CustomisedMethodsTests(SimpleTestCase):
def test_overridden_get_lookup(self):
q = CustomModel.objects.filter(field__lookupfunc_monkeys=3)
self.assertIn("monkeys()", str(q.query))
def test_overridden_get_transform(self):
q = CustomModel.objects.filter(field__transformfunc_banana=3)
self.assertIn("banana()", str(q.query))
def test_overridden_get_lookup_chain(self):
q = CustomModel.objects.filter(
field__transformfunc_banana__lookupfunc_elephants=3
)
self.assertIn("elephants()", str(q.query))
def test_overridden_get_transform_chain(self):
q = CustomModel.objects.filter(
field__transformfunc_banana__transformfunc_pear=3
)
self.assertIn("pear()", str(q.query))
class SubqueryTransformTests(TestCase):
def test_subquery_usage(self):
with register_lookup(models.IntegerField, Div3Transform):
Author.objects.create(name="a1", age=1)
a2 = Author.objects.create(name="a2", age=2)
Author.objects.create(name="a3", age=3)
Author.objects.create(name="a4", age=4)
qs = Author.objects.order_by("name").filter(
id__in=Author.objects.filter(age__div3=2)
)
self.assertSequenceEqual(qs, [a2])
|
e4450cdddb36b0cf3bb1e862bc608f613d22aed826631499d495e3ad89abfedf | from django.test import TestCase
from .models import Alarm
class TimeFieldLookupTests(TestCase):
@classmethod
def setUpTestData(self):
# Create a few Alarms
self.al1 = Alarm.objects.create(desc="Early", time="05:30")
self.al2 = Alarm.objects.create(desc="Late", time="10:00")
self.al3 = Alarm.objects.create(desc="Precise", time="12:34:56")
def test_hour_lookups(self):
self.assertSequenceEqual(
Alarm.objects.filter(time__hour=5),
[self.al1],
)
def test_minute_lookups(self):
self.assertSequenceEqual(
Alarm.objects.filter(time__minute=30),
[self.al1],
)
def test_second_lookups(self):
self.assertSequenceEqual(
Alarm.objects.filter(time__second=56),
[self.al3],
)
|
2e2682af6a61853c6b1601f242eba546448c767650ade865150d45b5065ab8e2 | 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()), "<Article: Article 2>")
self.assertEqual(repr(self.a2.get_next_by_pub_date()), "<Article: Article 3>")
self.assertEqual(
repr(self.a2.get_next_by_pub_date(headline__endswith="6")),
"<Article: Article 6>",
)
self.assertEqual(repr(self.a3.get_next_by_pub_date()), "<Article: Article 7>")
self.assertEqual(repr(self.a4.get_next_by_pub_date()), "<Article: Article 6>")
with self.assertRaises(Article.DoesNotExist):
self.a5.get_next_by_pub_date()
self.assertEqual(repr(self.a6.get_next_by_pub_date()), "<Article: Article 5>")
self.assertEqual(repr(self.a7.get_next_by_pub_date()), "<Article: Article 4>")
self.assertEqual(
repr(self.a7.get_previous_by_pub_date()), "<Article: Article 3>"
)
self.assertEqual(
repr(self.a6.get_previous_by_pub_date()), "<Article: Article 4>"
)
self.assertEqual(
repr(self.a5.get_previous_by_pub_date()), "<Article: Article 6>"
)
self.assertEqual(
repr(self.a4.get_previous_by_pub_date()), "<Article: Article 7>"
)
self.assertEqual(
repr(self.a3.get_previous_by_pub_date()), "<Article: Article 2>"
)
self.assertEqual(
repr(self.a2.get_previous_by_pub_date()), "<Article: Article 1>"
)
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"},
],
)
|
17e4cb35e0d03aac04e6f1131fb67680a0d1274840d8f078a78b3fa6a73eeb8d | """
The lookup API
This demonstrates features of the database API.
"""
from django.db import models
from django.db.models.lookups import IsNull
class Alarm(models.Model):
desc = models.CharField(max_length=100)
time = models.TimeField()
def __str__(self):
return "%s (%s)" % (self.time, self.desc)
class Author(models.Model):
name = models.CharField(max_length=100)
alias = models.CharField(max_length=50, null=True, blank=True)
class Meta:
ordering = ("name",)
class Article(models.Model):
headline = models.CharField(max_length=100)
pub_date = models.DateTimeField()
author = models.ForeignKey(Author, models.SET_NULL, blank=True, null=True)
slug = models.SlugField(unique=True, blank=True, null=True)
class Meta:
ordering = ("-pub_date", "headline")
def __str__(self):
return self.headline
class Tag(models.Model):
articles = models.ManyToManyField(Article)
name = models.CharField(max_length=100)
class Meta:
ordering = ("name",)
class NulledTextField(models.TextField):
def get_prep_value(self, value):
return None if value == "" else value
@NulledTextField.register_lookup
class NulledTransform(models.Transform):
lookup_name = "nulled"
template = "NULL"
@NulledTextField.register_lookup
class IsNullWithNoneAsRHS(IsNull):
lookup_name = "isnull_none_rhs"
can_use_none_as_rhs = True
class Season(models.Model):
year = models.PositiveSmallIntegerField()
gt = models.IntegerField(null=True, blank=True)
nulled_text_field = NulledTextField(null=True)
class Meta:
constraints = [
models.UniqueConstraint(fields=["year"], name="season_year_unique"),
]
def __str__(self):
return str(self.year)
class Game(models.Model):
season = models.ForeignKey(Season, models.CASCADE, related_name="games")
home = models.CharField(max_length=100)
away = models.CharField(max_length=100)
class Player(models.Model):
name = models.CharField(max_length=100)
games = models.ManyToManyField(Game, related_name="players")
class Product(models.Model):
name = models.CharField(max_length=80)
qty_target = models.DecimalField(max_digits=6, decimal_places=2)
class Stock(models.Model):
product = models.ForeignKey(Product, models.CASCADE)
short = models.BooleanField(default=False)
qty_available = models.DecimalField(max_digits=6, decimal_places=2)
class Freebie(models.Model):
gift_product = models.ForeignKey(Product, models.CASCADE)
stock_id = models.IntegerField(blank=True, null=True)
stock = models.ForeignObject(
Stock,
from_fields=["stock_id", "gift_product"],
to_fields=["id", "product"],
on_delete=models.CASCADE,
)
|
31a313f7eab22e1fb5a00bc8464c9a32778e7325186504f9b4ef53ad3e225260 | from datetime import datetime
from unittest import mock
from django.db.models import DateTimeField, Value
from django.db.models.lookups import Lookup, YearLookup
from django.test import SimpleTestCase
class CustomLookup(Lookup):
pass
class LookupTests(SimpleTestCase):
def test_equality(self):
lookup = Lookup(Value(1), Value(2))
self.assertEqual(lookup, lookup)
self.assertEqual(lookup, Lookup(lookup.lhs, lookup.rhs))
self.assertEqual(lookup, mock.ANY)
self.assertNotEqual(lookup, Lookup(lookup.lhs, Value(3)))
self.assertNotEqual(lookup, Lookup(Value(3), lookup.rhs))
self.assertNotEqual(lookup, CustomLookup(lookup.lhs, lookup.rhs))
def test_repr(self):
tests = [
(Lookup(Value(1), Value("a")), "Lookup(Value(1), Value('a'))"),
(
YearLookup(
Value(datetime(2010, 1, 1, 0, 0, 0)),
Value(datetime(2010, 1, 1, 23, 59, 59)),
),
"YearLookup("
"Value(datetime.datetime(2010, 1, 1, 0, 0)), "
"Value(datetime.datetime(2010, 1, 1, 23, 59, 59)))",
),
]
for lookup, expected in tests:
with self.subTest(lookup=lookup):
self.assertEqual(repr(lookup), expected)
def test_hash(self):
lookup = Lookup(Value(1), Value(2))
self.assertEqual(hash(lookup), hash(lookup))
self.assertEqual(hash(lookup), hash(Lookup(lookup.lhs, lookup.rhs)))
self.assertNotEqual(hash(lookup), hash(Lookup(lookup.lhs, Value(3))))
self.assertNotEqual(hash(lookup), hash(Lookup(Value(3), lookup.rhs)))
self.assertNotEqual(hash(lookup), hash(CustomLookup(lookup.lhs, lookup.rhs)))
class YearLookupTests(SimpleTestCase):
def test_get_bound_params(self):
look_up = YearLookup(
lhs=Value(datetime(2010, 1, 1, 0, 0, 0), output_field=DateTimeField()),
rhs=Value(datetime(2010, 1, 1, 23, 59, 59), output_field=DateTimeField()),
)
msg = "subclasses of YearLookup must provide a get_bound_params() method"
with self.assertRaisesMessage(NotImplementedError, msg):
look_up.get_bound_params(
datetime(2010, 1, 1, 0, 0, 0), datetime(2010, 1, 1, 23, 59, 59)
)
|
7df446a2d468de7441235ff856028bc765f2e2e05c17c97bca7074354d17e4a4 | from django.db.models import F, Sum
from django.test import TestCase
from .models import Product, Stock
class DecimalFieldLookupTests(TestCase):
@classmethod
def setUpTestData(cls):
cls.p1 = Product.objects.create(name="Product1", qty_target=10)
Stock.objects.create(product=cls.p1, qty_available=5)
Stock.objects.create(product=cls.p1, qty_available=6)
cls.p2 = Product.objects.create(name="Product2", qty_target=10)
Stock.objects.create(product=cls.p2, qty_available=5)
Stock.objects.create(product=cls.p2, qty_available=5)
cls.p3 = Product.objects.create(name="Product3", qty_target=10)
Stock.objects.create(product=cls.p3, qty_available=5)
Stock.objects.create(product=cls.p3, qty_available=4)
cls.queryset = Product.objects.annotate(
qty_available_sum=Sum("stock__qty_available"),
).annotate(qty_needed=F("qty_target") - F("qty_available_sum"))
def test_gt(self):
qs = self.queryset.filter(qty_needed__gt=0)
self.assertCountEqual(qs, [self.p3])
def test_gte(self):
qs = self.queryset.filter(qty_needed__gte=0)
self.assertCountEqual(qs, [self.p2, self.p3])
def test_lt(self):
qs = self.queryset.filter(qty_needed__lt=0)
self.assertCountEqual(qs, [self.p1])
def test_lte(self):
qs = self.queryset.filter(qty_needed__lte=0)
self.assertCountEqual(qs, [self.p1, self.p2])
|
74c609e7f6961ab98ca4de1045962f75139c4d8c82fc8d34e38c35c9fd412f8e | from django import forms
from django.forms.formsets import DELETION_FIELD_NAME, BaseFormSet
from django.forms.models import (
BaseModelFormSet,
inlineformset_factory,
modelform_factory,
modelformset_factory,
)
from django.forms.utils import ErrorDict, ErrorList
from django.test import TestCase
from .models import (
Host,
Manager,
Network,
ProfileNetwork,
Restaurant,
User,
UserPreferences,
UserProfile,
UserSite,
)
class InlineFormsetTests(TestCase):
def test_formset_over_to_field(self):
"""
A formset over a ForeignKey with a to_field can be saved.
"""
Form = modelform_factory(User, fields="__all__")
FormSet = inlineformset_factory(User, UserSite, fields="__all__")
# Instantiate the Form and FormSet to prove
# you can create a form with no data
form = Form()
form_set = FormSet(instance=User())
# Now create a new User and UserSite instance
data = {
"serial": "1",
"username": "apollo13",
"usersite_set-TOTAL_FORMS": "1",
"usersite_set-INITIAL_FORMS": "0",
"usersite_set-MAX_NUM_FORMS": "0",
"usersite_set-0-data": "10",
"usersite_set-0-user": "apollo13",
}
user = User()
form = Form(data)
if form.is_valid():
user = form.save()
else:
self.fail("Errors found on form:%s" % form_set)
form_set = FormSet(data, instance=user)
if form_set.is_valid():
form_set.save()
usersite = UserSite.objects.values()
self.assertEqual(usersite[0]["data"], 10)
self.assertEqual(usersite[0]["user_id"], "apollo13")
else:
self.fail("Errors found on formset:%s" % form_set.errors)
# Now update the UserSite instance
data = {
"usersite_set-TOTAL_FORMS": "1",
"usersite_set-INITIAL_FORMS": "1",
"usersite_set-MAX_NUM_FORMS": "0",
"usersite_set-0-id": str(usersite[0]["id"]),
"usersite_set-0-data": "11",
"usersite_set-0-user": "apollo13",
}
form_set = FormSet(data, instance=user)
if form_set.is_valid():
form_set.save()
usersite = UserSite.objects.values()
self.assertEqual(usersite[0]["data"], 11)
self.assertEqual(usersite[0]["user_id"], "apollo13")
else:
self.fail("Errors found on formset:%s" % form_set.errors)
# Now add a new UserSite instance
data = {
"usersite_set-TOTAL_FORMS": "2",
"usersite_set-INITIAL_FORMS": "1",
"usersite_set-MAX_NUM_FORMS": "0",
"usersite_set-0-id": str(usersite[0]["id"]),
"usersite_set-0-data": "11",
"usersite_set-0-user": "apollo13",
"usersite_set-1-data": "42",
"usersite_set-1-user": "apollo13",
}
form_set = FormSet(data, instance=user)
if form_set.is_valid():
form_set.save()
usersite = UserSite.objects.values().order_by("data")
self.assertEqual(usersite[0]["data"], 11)
self.assertEqual(usersite[0]["user_id"], "apollo13")
self.assertEqual(usersite[1]["data"], 42)
self.assertEqual(usersite[1]["user_id"], "apollo13")
else:
self.fail("Errors found on formset:%s" % form_set.errors)
def test_formset_over_inherited_model(self):
"""
A formset over a ForeignKey with a to_field can be saved.
"""
Form = modelform_factory(Restaurant, fields="__all__")
FormSet = inlineformset_factory(Restaurant, Manager, fields="__all__")
# Instantiate the Form and FormSet to prove
# you can create a form with no data
form = Form()
form_set = FormSet(instance=Restaurant())
# Now create a new Restaurant and Manager instance
data = {
"name": "Guido's House of Pasta",
"manager_set-TOTAL_FORMS": "1",
"manager_set-INITIAL_FORMS": "0",
"manager_set-MAX_NUM_FORMS": "0",
"manager_set-0-name": "Guido Van Rossum",
}
restaurant = User()
form = Form(data)
if form.is_valid():
restaurant = form.save()
else:
self.fail("Errors found on form:%s" % form_set)
form_set = FormSet(data, instance=restaurant)
if form_set.is_valid():
form_set.save()
manager = Manager.objects.values()
self.assertEqual(manager[0]["name"], "Guido Van Rossum")
else:
self.fail("Errors found on formset:%s" % form_set.errors)
# Now update the Manager instance
data = {
"manager_set-TOTAL_FORMS": "1",
"manager_set-INITIAL_FORMS": "1",
"manager_set-MAX_NUM_FORMS": "0",
"manager_set-0-id": str(manager[0]["id"]),
"manager_set-0-name": "Terry Gilliam",
}
form_set = FormSet(data, instance=restaurant)
if form_set.is_valid():
form_set.save()
manager = Manager.objects.values()
self.assertEqual(manager[0]["name"], "Terry Gilliam")
else:
self.fail("Errors found on formset:%s" % form_set.errors)
# Now add a new Manager instance
data = {
"manager_set-TOTAL_FORMS": "2",
"manager_set-INITIAL_FORMS": "1",
"manager_set-MAX_NUM_FORMS": "0",
"manager_set-0-id": str(manager[0]["id"]),
"manager_set-0-name": "Terry Gilliam",
"manager_set-1-name": "John Cleese",
}
form_set = FormSet(data, instance=restaurant)
if form_set.is_valid():
form_set.save()
manager = Manager.objects.values().order_by("name")
self.assertEqual(manager[0]["name"], "John Cleese")
self.assertEqual(manager[1]["name"], "Terry Gilliam")
else:
self.fail("Errors found on formset:%s" % form_set.errors)
def test_inline_model_with_to_field(self):
"""
#13794 --- An inline model with a to_field of a formset with instance
has working relations.
"""
FormSet = inlineformset_factory(User, UserSite, exclude=("is_superuser",))
user = User.objects.create(username="guido", serial=1337)
UserSite.objects.create(user=user, data=10)
formset = FormSet(instance=user)
# Testing the inline model's relation
self.assertEqual(formset[0].instance.user_id, "guido")
def test_inline_model_with_primary_to_field(self):
"""An inline model with a OneToOneField with to_field & primary key."""
FormSet = inlineformset_factory(
User, UserPreferences, exclude=("is_superuser",)
)
user = User.objects.create(username="guido", serial=1337)
UserPreferences.objects.create(user=user, favorite_number=10)
formset = FormSet(instance=user)
self.assertEqual(formset[0].fields["user"].initial, "guido")
def test_inline_model_with_to_field_to_rel(self):
"""
#13794 --- An inline model with a to_field to a related field of a
formset with instance has working relations.
"""
FormSet = inlineformset_factory(UserProfile, ProfileNetwork, exclude=[])
user = User.objects.create(username="guido", serial=1337, pk=1)
self.assertEqual(user.pk, 1)
profile = UserProfile.objects.create(user=user, about="about", pk=2)
self.assertEqual(profile.pk, 2)
ProfileNetwork.objects.create(profile=profile, network=10, identifier=10)
formset = FormSet(instance=profile)
# Testing the inline model's relation
self.assertEqual(formset[0].instance.profile_id, 1)
def test_formset_with_none_instance(self):
"A formset with instance=None can be created. Regression for #11872"
Form = modelform_factory(User, fields="__all__")
FormSet = inlineformset_factory(User, UserSite, fields="__all__")
# Instantiate the Form and FormSet to prove
# you can create a formset with an instance of None
Form(instance=None)
FormSet(instance=None)
def test_empty_fields_on_modelformset(self):
"""
No fields passed to modelformset_factory() should result in no fields
on returned forms except for the id (#14119).
"""
UserFormSet = modelformset_factory(User, fields=())
formset = UserFormSet()
for form in formset.forms:
self.assertIn("id", form.fields)
self.assertEqual(len(form.fields), 1)
def test_save_as_new_with_new_inlines(self):
"""
Existing and new inlines are saved with save_as_new.
Regression for #14938.
"""
efnet = Network.objects.create(name="EFNet")
host1 = Host.objects.create(hostname="irc.he.net", network=efnet)
HostFormSet = inlineformset_factory(Network, Host, fields="__all__")
# Add a new host, modify previous host, and save-as-new
data = {
"host_set-TOTAL_FORMS": "2",
"host_set-INITIAL_FORMS": "1",
"host_set-MAX_NUM_FORMS": "0",
"host_set-0-id": str(host1.id),
"host_set-0-hostname": "tranquility.hub.dal.net",
"host_set-1-hostname": "matrix.de.eu.dal.net",
}
# To save a formset as new, it needs a new hub instance
dalnet = Network.objects.create(name="DALnet")
formset = HostFormSet(data, instance=dalnet, save_as_new=True)
self.assertTrue(formset.is_valid())
formset.save()
self.assertQuerysetEqual(
dalnet.host_set.order_by("hostname"),
Host.objects.filter(
hostname__in=[
"matrix.de.eu.dal.net",
"tranquility.hub.dal.net",
]
).order_by("hostname"),
)
def test_initial_data(self):
user = User.objects.create(username="bibi", serial=1)
UserSite.objects.create(user=user, data=7)
FormSet = inlineformset_factory(User, UserSite, extra=2, fields="__all__")
formset = FormSet(instance=user, initial=[{"data": 41}, {"data": 42}])
self.assertEqual(formset.forms[0].initial["data"], 7)
self.assertEqual(formset.extra_forms[0].initial["data"], 41)
self.assertIn('value="42"', formset.extra_forms[1].as_p())
class FormsetTests(TestCase):
def test_error_class(self):
"""
Test the type of Formset and Form error attributes
"""
Formset = modelformset_factory(User, fields="__all__")
data = {
"form-TOTAL_FORMS": "2",
"form-INITIAL_FORMS": "0",
"form-MAX_NUM_FORMS": "0",
"form-0-id": "",
"form-0-username": "apollo13",
"form-0-serial": "1",
"form-1-id": "",
"form-1-username": "apollo13",
"form-1-serial": "2",
}
formset = Formset(data)
# check if the returned error classes are correct
# note: formset.errors returns a list as documented
self.assertIsInstance(formset.errors, list)
self.assertIsInstance(formset.non_form_errors(), ErrorList)
for form in formset.forms:
self.assertIsInstance(form.errors, ErrorDict)
self.assertIsInstance(form.non_field_errors(), ErrorList)
def test_initial_data(self):
User.objects.create(username="bibi", serial=1)
Formset = modelformset_factory(User, fields="__all__", extra=2)
formset = Formset(initial=[{"username": "apollo11"}, {"username": "apollo12"}])
self.assertEqual(formset.forms[0].initial["username"], "bibi")
self.assertEqual(formset.extra_forms[0].initial["username"], "apollo11")
self.assertIn('value="apollo12"', formset.extra_forms[1].as_p())
def test_extraneous_query_is_not_run(self):
Formset = modelformset_factory(Network, fields="__all__")
data = {
"test-TOTAL_FORMS": "1",
"test-INITIAL_FORMS": "0",
"test-MAX_NUM_FORMS": "",
"test-0-name": "Random Place",
}
with self.assertNumQueries(1):
formset = Formset(data, prefix="test")
formset.save()
class CustomWidget(forms.widgets.TextInput):
pass
class UserSiteForm(forms.ModelForm):
class Meta:
model = UserSite
fields = "__all__"
widgets = {
"id": CustomWidget,
"data": CustomWidget,
}
localized_fields = ("data",)
class Callback:
def __init__(self):
self.log = []
def __call__(self, db_field, **kwargs):
self.log.append((db_field, kwargs))
return db_field.formfield(**kwargs)
class FormfieldCallbackTests(TestCase):
"""
Regression for #13095 and #17683: Using base forms with widgets
defined in Meta should not raise errors and BaseModelForm should respect
the specified pk widget.
"""
def test_inlineformset_factory_default(self):
Formset = inlineformset_factory(
User, UserSite, form=UserSiteForm, fields="__all__"
)
form = Formset().forms[0]
self.assertIsInstance(form["id"].field.widget, CustomWidget)
self.assertIsInstance(form["data"].field.widget, CustomWidget)
self.assertFalse(form.fields["id"].localize)
self.assertTrue(form.fields["data"].localize)
def test_modelformset_factory_default(self):
Formset = modelformset_factory(UserSite, form=UserSiteForm)
form = Formset().forms[0]
self.assertIsInstance(form["id"].field.widget, CustomWidget)
self.assertIsInstance(form["data"].field.widget, CustomWidget)
self.assertFalse(form.fields["id"].localize)
self.assertTrue(form.fields["data"].localize)
def assertCallbackCalled(self, callback):
id_field, user_field, data_field = UserSite._meta.fields
expected_log = [
(id_field, {"widget": CustomWidget}),
(user_field, {}),
(data_field, {"widget": CustomWidget, "localize": True}),
]
self.assertEqual(callback.log, expected_log)
def test_inlineformset_custom_callback(self):
callback = Callback()
inlineformset_factory(
User,
UserSite,
form=UserSiteForm,
formfield_callback=callback,
fields="__all__",
)
self.assertCallbackCalled(callback)
def test_modelformset_custom_callback(self):
callback = Callback()
modelformset_factory(UserSite, form=UserSiteForm, formfield_callback=callback)
self.assertCallbackCalled(callback)
class BaseCustomDeleteFormSet(BaseFormSet):
"""
A formset mix-in that lets a form decide if it's to be deleted.
Works for BaseFormSets. Also works for ModelFormSets with #14099 fixed.
form.should_delete() is called. The formset delete field is also suppressed.
"""
def add_fields(self, form, index):
super().add_fields(form, index)
self.can_delete = True
if DELETION_FIELD_NAME in form.fields:
del form.fields[DELETION_FIELD_NAME]
def _should_delete_form(self, form):
return hasattr(form, "should_delete") and form.should_delete()
class FormfieldShouldDeleteFormTests(TestCase):
"""
BaseModelFormSet should use ModelFormSet method _should_delete_form.
"""
class BaseCustomDeleteModelFormSet(BaseModelFormSet, BaseCustomDeleteFormSet):
"""Model FormSet with CustomDelete MixIn"""
class CustomDeleteUserForm(forms.ModelForm):
"""A model form with a 'should_delete' method"""
class Meta:
model = User
fields = "__all__"
def should_delete(self):
"""Delete form if odd serial."""
return self.instance.serial % 2 != 0
NormalFormset = modelformset_factory(
User, form=CustomDeleteUserForm, can_delete=True
)
DeleteFormset = modelformset_factory(
User, form=CustomDeleteUserForm, formset=BaseCustomDeleteModelFormSet
)
data = {
"form-TOTAL_FORMS": "4",
"form-INITIAL_FORMS": "0",
"form-MAX_NUM_FORMS": "4",
"form-0-username": "John",
"form-0-serial": "1",
"form-1-username": "Paul",
"form-1-serial": "2",
"form-2-username": "George",
"form-2-serial": "3",
"form-3-username": "Ringo",
"form-3-serial": "5",
}
delete_all_ids = {
"form-0-DELETE": "1",
"form-1-DELETE": "1",
"form-2-DELETE": "1",
"form-3-DELETE": "1",
}
def test_init_database(self):
"""Add test data to database via formset"""
formset = self.NormalFormset(self.data)
self.assertTrue(formset.is_valid())
self.assertEqual(len(formset.save()), 4)
def test_no_delete(self):
"""Verify base formset doesn't modify database"""
# reload database
self.test_init_database()
# pass standard data dict & see none updated
data = dict(self.data)
data["form-INITIAL_FORMS"] = 4
data.update(
{"form-%d-id" % i: user.pk for i, user in enumerate(User.objects.all())}
)
formset = self.NormalFormset(data, queryset=User.objects.all())
self.assertTrue(formset.is_valid())
self.assertEqual(len(formset.save()), 0)
self.assertEqual(len(User.objects.all()), 4)
def test_all_delete(self):
"""Verify base formset honors DELETE field"""
# reload database
self.test_init_database()
# create data dict with all fields marked for deletion
data = dict(self.data)
data["form-INITIAL_FORMS"] = 4
data.update(
{"form-%d-id" % i: user.pk for i, user in enumerate(User.objects.all())}
)
data.update(self.delete_all_ids)
formset = self.NormalFormset(data, queryset=User.objects.all())
self.assertTrue(formset.is_valid())
self.assertEqual(len(formset.save()), 0)
self.assertEqual(len(User.objects.all()), 0)
def test_custom_delete(self):
"""Verify DeleteFormset ignores DELETE field and uses form method"""
# reload database
self.test_init_database()
# Create formset with custom Delete function
# create data dict with all fields marked for deletion
data = dict(self.data)
data["form-INITIAL_FORMS"] = 4
data.update(
{"form-%d-id" % i: user.pk for i, user in enumerate(User.objects.all())}
)
data.update(self.delete_all_ids)
formset = self.DeleteFormset(data, queryset=User.objects.all())
# Three with odd serial values were deleted.
self.assertTrue(formset.is_valid())
self.assertEqual(len(formset.save()), 0)
self.assertEqual(User.objects.count(), 1)
# No odd serial values left.
odd_serials = [user.serial for user in User.objects.all() if user.serial % 2]
self.assertEqual(len(odd_serials), 0)
class RedeleteTests(TestCase):
def test_resubmit(self):
u = User.objects.create(username="foo", serial=1)
us = UserSite.objects.create(user=u, data=7)
formset_cls = inlineformset_factory(User, UserSite, fields="__all__")
data = {
"serial": "1",
"username": "foo",
"usersite_set-TOTAL_FORMS": "1",
"usersite_set-INITIAL_FORMS": "1",
"usersite_set-MAX_NUM_FORMS": "1",
"usersite_set-0-id": str(us.pk),
"usersite_set-0-data": "7",
"usersite_set-0-user": "foo",
"usersite_set-0-DELETE": "1",
}
formset = formset_cls(data, instance=u)
self.assertTrue(formset.is_valid())
formset.save()
self.assertEqual(UserSite.objects.count(), 0)
formset = formset_cls(data, instance=u)
# Even if the "us" object isn't in the DB any more, the form
# validates.
self.assertTrue(formset.is_valid())
formset.save()
self.assertEqual(UserSite.objects.count(), 0)
def test_delete_already_deleted(self):
u = User.objects.create(username="foo", serial=1)
us = UserSite.objects.create(user=u, data=7)
formset_cls = inlineformset_factory(User, UserSite, fields="__all__")
data = {
"serial": "1",
"username": "foo",
"usersite_set-TOTAL_FORMS": "1",
"usersite_set-INITIAL_FORMS": "1",
"usersite_set-MAX_NUM_FORMS": "1",
"usersite_set-0-id": str(us.pk),
"usersite_set-0-data": "7",
"usersite_set-0-user": "foo",
"usersite_set-0-DELETE": "1",
}
formset = formset_cls(data, instance=u)
us.delete()
self.assertTrue(formset.is_valid())
formset.save()
self.assertEqual(UserSite.objects.count(), 0)
|
af8a97c0affbedfe82dbb30b64292d7792250db9ea8a44ef23126fba32a028c0 | from django.db import models
class User(models.Model):
username = models.CharField(max_length=12, unique=True)
serial = models.IntegerField()
class UserSite(models.Model):
user = models.ForeignKey(User, models.CASCADE, to_field="username")
data = models.IntegerField()
class UserProfile(models.Model):
user = models.ForeignKey(User, models.CASCADE, unique=True, to_field="username")
about = models.TextField()
class UserPreferences(models.Model):
user = models.OneToOneField(
User,
models.CASCADE,
to_field="username",
primary_key=True,
)
favorite_number = models.IntegerField()
class ProfileNetwork(models.Model):
profile = models.ForeignKey(UserProfile, models.CASCADE, to_field="user")
network = models.IntegerField()
identifier = models.IntegerField()
class Place(models.Model):
name = models.CharField(max_length=50)
class Restaurant(Place):
pass
class Manager(models.Model):
restaurant = models.ForeignKey(Restaurant, models.CASCADE)
name = models.CharField(max_length=50)
class Network(models.Model):
name = models.CharField(max_length=15)
class Host(models.Model):
network = models.ForeignKey(Network, models.CASCADE)
hostname = models.CharField(max_length=25)
def __str__(self):
return self.hostname
|
f3e6cc7eaf59273daa427792403d5ebfa0dd2d7725906d96d34f24d20a34d188 | from django.core.exceptions import FieldError
from django.test import TestCase
from .models import (
BigChild,
Child,
ChildProxy,
Primary,
RefreshPrimaryProxy,
Secondary,
ShadowChild,
)
class AssertionMixin:
def assert_delayed(self, obj, num):
"""
Instances with deferred fields look the same as normal instances when
we examine attribute values. Therefore, this method returns the number
of deferred fields on returned instances.
"""
count = len(obj.get_deferred_fields())
self.assertEqual(count, num)
class DeferTests(AssertionMixin, TestCase):
@classmethod
def setUpTestData(cls):
cls.s1 = Secondary.objects.create(first="x1", second="y1")
cls.p1 = Primary.objects.create(name="p1", value="xx", related=cls.s1)
def test_defer(self):
qs = Primary.objects.all()
self.assert_delayed(qs.defer("name")[0], 1)
self.assert_delayed(qs.defer("name").get(pk=self.p1.pk), 1)
self.assert_delayed(qs.defer("related__first")[0], 0)
self.assert_delayed(qs.defer("name").defer("value")[0], 2)
def test_only(self):
qs = Primary.objects.all()
self.assert_delayed(qs.only("name")[0], 2)
self.assert_delayed(qs.only("name").get(pk=self.p1.pk), 2)
self.assert_delayed(qs.only("name").only("value")[0], 2)
self.assert_delayed(qs.only("related__first")[0], 2)
# Using 'pk' with only() should result in 3 deferred fields, namely all
# of them except the model's primary key see #15494
self.assert_delayed(qs.only("pk")[0], 3)
# You can use 'pk' with reverse foreign key lookups.
# The related_id is always set even if it's not fetched from the DB,
# so pk and related_id are not deferred.
self.assert_delayed(self.s1.primary_set.only("pk")[0], 2)
def test_defer_only_chaining(self):
qs = Primary.objects.all()
self.assert_delayed(qs.only("name", "value").defer("name")[0], 2)
self.assert_delayed(qs.defer("name").only("value", "name")[0], 2)
self.assert_delayed(qs.defer("name").only("name").only("value")[0], 2)
self.assert_delayed(qs.defer("name").only("value")[0], 2)
self.assert_delayed(qs.only("name").defer("value")[0], 2)
self.assert_delayed(qs.only("name").defer("name").defer("value")[0], 1)
self.assert_delayed(qs.only("name").defer("name", "value")[0], 1)
def test_defer_only_clear(self):
qs = Primary.objects.all()
self.assert_delayed(qs.only("name").defer("name")[0], 0)
self.assert_delayed(qs.defer("name").only("name")[0], 0)
def test_defer_on_an_already_deferred_field(self):
qs = Primary.objects.all()
self.assert_delayed(qs.defer("name")[0], 1)
self.assert_delayed(qs.defer("name").defer("name")[0], 1)
def test_defer_none_to_clear_deferred_set(self):
qs = Primary.objects.all()
self.assert_delayed(qs.defer("name", "value")[0], 2)
self.assert_delayed(qs.defer(None)[0], 0)
self.assert_delayed(qs.only("name").defer(None)[0], 0)
def test_only_none_raises_error(self):
msg = "Cannot pass None as an argument to only()."
with self.assertRaisesMessage(TypeError, msg):
Primary.objects.only(None)
def test_defer_extra(self):
qs = Primary.objects.all()
self.assert_delayed(qs.defer("name").extra(select={"a": 1})[0], 1)
self.assert_delayed(qs.extra(select={"a": 1}).defer("name")[0], 1)
def test_defer_values_does_not_defer(self):
# User values() won't defer anything (you get the full list of
# dictionaries back), but it still works.
self.assertEqual(
Primary.objects.defer("name").values()[0],
{
"id": self.p1.id,
"name": "p1",
"value": "xx",
"related_id": self.s1.id,
},
)
def test_only_values_does_not_defer(self):
self.assertEqual(
Primary.objects.only("name").values()[0],
{
"id": self.p1.id,
"name": "p1",
"value": "xx",
"related_id": self.s1.id,
},
)
def test_get(self):
# Using defer() and only() with get() is also valid.
qs = Primary.objects.all()
self.assert_delayed(qs.defer("name").get(pk=self.p1.pk), 1)
self.assert_delayed(qs.only("name").get(pk=self.p1.pk), 2)
def test_defer_with_select_related(self):
obj = Primary.objects.select_related().defer(
"related__first", "related__second"
)[0]
self.assert_delayed(obj.related, 2)
self.assert_delayed(obj, 0)
def test_only_with_select_related(self):
obj = Primary.objects.select_related().only("related__first")[0]
self.assert_delayed(obj, 2)
self.assert_delayed(obj.related, 1)
self.assertEqual(obj.related_id, self.s1.pk)
self.assertEqual(obj.name, "p1")
def test_defer_select_related_raises_invalid_query(self):
msg = (
"Field Primary.related cannot be both deferred and traversed "
"using select_related at the same time."
)
with self.assertRaisesMessage(FieldError, msg):
Primary.objects.defer("related").select_related("related")[0]
def test_only_select_related_raises_invalid_query(self):
msg = (
"Field Primary.related cannot be both deferred and traversed using "
"select_related at the same time."
)
with self.assertRaisesMessage(FieldError, msg):
Primary.objects.only("name").select_related("related")[0]
def test_defer_foreign_keys_are_deferred_and_not_traversed(self):
# select_related() overrides defer().
with self.assertNumQueries(1):
obj = Primary.objects.defer("related").select_related()[0]
self.assert_delayed(obj, 1)
self.assertEqual(obj.related.id, self.s1.pk)
def test_saving_object_with_deferred_field(self):
# Saving models with deferred fields is possible (but inefficient,
# since every field has to be retrieved first).
Primary.objects.create(name="p2", value="xy", related=self.s1)
obj = Primary.objects.defer("value").get(name="p2")
obj.name = "a new name"
obj.save()
self.assertQuerysetEqual(
Primary.objects.all(),
[
"p1",
"a new name",
],
lambda p: p.name,
ordered=False,
)
def test_defer_baseclass_when_subclass_has_no_added_fields(self):
# Regression for #10572 - A subclass with no extra fields can defer
# fields from the base class
Child.objects.create(name="c1", value="foo", related=self.s1)
# You can defer a field on a baseclass when the subclass has no fields
obj = Child.objects.defer("value").get(name="c1")
self.assert_delayed(obj, 1)
self.assertEqual(obj.name, "c1")
self.assertEqual(obj.value, "foo")
def test_only_baseclass_when_subclass_has_no_added_fields(self):
# You can retrieve a single column on a base class with no fields
Child.objects.create(name="c1", value="foo", related=self.s1)
obj = Child.objects.only("name").get(name="c1")
# on an inherited model, its PK is also fetched, hence '3' deferred fields.
self.assert_delayed(obj, 3)
self.assertEqual(obj.name, "c1")
self.assertEqual(obj.value, "foo")
def test_defer_of_overridden_scalar(self):
ShadowChild.objects.create()
obj = ShadowChild.objects.defer("name").get()
self.assertEqual(obj.name, "adonis")
class BigChildDeferTests(AssertionMixin, TestCase):
@classmethod
def setUpTestData(cls):
cls.s1 = Secondary.objects.create(first="x1", second="y1")
BigChild.objects.create(name="b1", value="foo", related=cls.s1, other="bar")
def test_defer_baseclass_when_subclass_has_added_field(self):
# You can defer a field on a baseclass
obj = BigChild.objects.defer("value").get(name="b1")
self.assert_delayed(obj, 1)
self.assertEqual(obj.name, "b1")
self.assertEqual(obj.value, "foo")
self.assertEqual(obj.other, "bar")
def test_defer_subclass(self):
# You can defer a field on a subclass
obj = BigChild.objects.defer("other").get(name="b1")
self.assert_delayed(obj, 1)
self.assertEqual(obj.name, "b1")
self.assertEqual(obj.value, "foo")
self.assertEqual(obj.other, "bar")
def test_defer_subclass_both(self):
# Deferring fields from both superclass and subclass works.
obj = BigChild.objects.defer("other", "value").get(name="b1")
self.assert_delayed(obj, 2)
def test_only_baseclass_when_subclass_has_added_field(self):
# You can retrieve a single field on a baseclass
obj = BigChild.objects.only("name").get(name="b1")
# when inherited model, its PK is also fetched, hence '4' deferred fields.
self.assert_delayed(obj, 4)
self.assertEqual(obj.name, "b1")
self.assertEqual(obj.value, "foo")
self.assertEqual(obj.other, "bar")
def test_only_subclass(self):
# You can retrieve a single field on a subclass
obj = BigChild.objects.only("other").get(name="b1")
self.assert_delayed(obj, 4)
self.assertEqual(obj.name, "b1")
self.assertEqual(obj.value, "foo")
self.assertEqual(obj.other, "bar")
class TestDefer2(AssertionMixin, TestCase):
def test_defer_proxy(self):
"""
Ensure select_related together with only on a proxy model behaves
as expected. See #17876.
"""
related = Secondary.objects.create(first="x1", second="x2")
ChildProxy.objects.create(name="p1", value="xx", related=related)
children = ChildProxy.objects.select_related().only("id", "name")
self.assertEqual(len(children), 1)
child = children[0]
self.assert_delayed(child, 2)
self.assertEqual(child.name, "p1")
self.assertEqual(child.value, "xx")
def test_defer_inheritance_pk_chaining(self):
"""
When an inherited model is fetched from the DB, its PK is also fetched.
When getting the PK of the parent model it is useful to use the already
fetched parent model PK if it happens to be available.
"""
s1 = Secondary.objects.create(first="x1", second="y1")
bc = BigChild.objects.create(name="b1", value="foo", related=s1, other="bar")
bc_deferred = BigChild.objects.only("name").get(pk=bc.pk)
with self.assertNumQueries(0):
bc_deferred.id
self.assertEqual(bc_deferred.pk, bc_deferred.id)
def test_eq(self):
s1 = Secondary.objects.create(first="x1", second="y1")
s1_defer = Secondary.objects.only("pk").get(pk=s1.pk)
self.assertEqual(s1, s1_defer)
self.assertEqual(s1_defer, s1)
def test_refresh_not_loading_deferred_fields(self):
s = Secondary.objects.create()
rf = Primary.objects.create(name="foo", value="bar", related=s)
rf2 = Primary.objects.only("related", "value").get()
rf.name = "new foo"
rf.value = "new bar"
rf.save()
with self.assertNumQueries(1):
rf2.refresh_from_db()
self.assertEqual(rf2.value, "new bar")
with self.assertNumQueries(1):
self.assertEqual(rf2.name, "new foo")
def test_custom_refresh_on_deferred_loading(self):
s = Secondary.objects.create()
rf = RefreshPrimaryProxy.objects.create(name="foo", value="bar", related=s)
rf2 = RefreshPrimaryProxy.objects.only("related").get()
rf.name = "new foo"
rf.value = "new bar"
rf.save()
with self.assertNumQueries(1):
# Customized refresh_from_db() reloads all deferred fields on
# access of any of them.
self.assertEqual(rf2.name, "new foo")
self.assertEqual(rf2.value, "new bar")
|
0fbbe63817f9efce6bfcaa03e0c41deb710caedbfb5d4fc33bef044b63b3ccef | """
Tests for defer() and only().
"""
from django.db import models
class Secondary(models.Model):
first = models.CharField(max_length=50)
second = models.CharField(max_length=50)
class Primary(models.Model):
name = models.CharField(max_length=50)
value = models.CharField(max_length=50)
related = models.ForeignKey(Secondary, models.CASCADE)
def __str__(self):
return self.name
class Child(Primary):
pass
class BigChild(Primary):
other = models.CharField(max_length=50)
class ChildProxy(Child):
class Meta:
proxy = True
class RefreshPrimaryProxy(Primary):
class Meta:
proxy = True
def refresh_from_db(self, using=None, fields=None, **kwargs):
# Reloads all deferred fields if any of the fields is deferred.
if fields is not None:
fields = set(fields)
deferred_fields = self.get_deferred_fields()
if fields.intersection(deferred_fields):
fields = fields.union(deferred_fields)
super().refresh_from_db(using, fields, **kwargs)
class ShadowParent(models.Model):
"""
ShadowParent declares a scalar, rather than a field. When this is
overridden, the field value, rather than the scalar value must still be
used when the field is deferred.
"""
name = "aphrodite"
class ShadowChild(ShadowParent):
name = models.CharField(default="adonis", max_length=6)
|
7cef5beb44e4e0946eea249fa25627a46ca528e64fd277a9eea427a06b0264ab | import copy
import json
import os
import pickle
import unittest
import uuid
from django.core.exceptions import DisallowedRedirect
from django.core.serializers.json import DjangoJSONEncoder
from django.core.signals import request_finished
from django.db import close_old_connections
from django.http import (
BadHeaderError,
HttpResponse,
HttpResponseNotAllowed,
HttpResponseNotModified,
HttpResponsePermanentRedirect,
HttpResponseRedirect,
JsonResponse,
QueryDict,
SimpleCookie,
StreamingHttpResponse,
parse_cookie,
)
from django.test import SimpleTestCase
from django.utils.functional import lazystr
class QueryDictTests(SimpleTestCase):
def test_create_with_no_args(self):
self.assertEqual(QueryDict(), QueryDict(""))
def test_missing_key(self):
q = QueryDict()
with self.assertRaises(KeyError):
q.__getitem__("foo")
def test_immutability(self):
q = QueryDict()
with self.assertRaises(AttributeError):
q.__setitem__("something", "bar")
with self.assertRaises(AttributeError):
q.setlist("foo", ["bar"])
with self.assertRaises(AttributeError):
q.appendlist("foo", ["bar"])
with self.assertRaises(AttributeError):
q.update({"foo": "bar"})
with self.assertRaises(AttributeError):
q.pop("foo")
with self.assertRaises(AttributeError):
q.popitem()
with self.assertRaises(AttributeError):
q.clear()
def test_immutable_get_with_default(self):
q = QueryDict()
self.assertEqual(q.get("foo", "default"), "default")
def test_immutable_basic_operations(self):
q = QueryDict()
self.assertEqual(q.getlist("foo"), [])
self.assertNotIn("foo", q)
self.assertEqual(list(q), [])
self.assertEqual(list(q.items()), [])
self.assertEqual(list(q.lists()), [])
self.assertEqual(list(q.keys()), [])
self.assertEqual(list(q.values()), [])
self.assertEqual(len(q), 0)
self.assertEqual(q.urlencode(), "")
def test_single_key_value(self):
"""Test QueryDict with one key/value pair"""
q = QueryDict("foo=bar")
self.assertEqual(q["foo"], "bar")
with self.assertRaises(KeyError):
q.__getitem__("bar")
with self.assertRaises(AttributeError):
q.__setitem__("something", "bar")
self.assertEqual(q.get("foo", "default"), "bar")
self.assertEqual(q.get("bar", "default"), "default")
self.assertEqual(q.getlist("foo"), ["bar"])
self.assertEqual(q.getlist("bar"), [])
with self.assertRaises(AttributeError):
q.setlist("foo", ["bar"])
with self.assertRaises(AttributeError):
q.appendlist("foo", ["bar"])
self.assertIn("foo", q)
self.assertNotIn("bar", q)
self.assertEqual(list(q), ["foo"])
self.assertEqual(list(q.items()), [("foo", "bar")])
self.assertEqual(list(q.lists()), [("foo", ["bar"])])
self.assertEqual(list(q.keys()), ["foo"])
self.assertEqual(list(q.values()), ["bar"])
self.assertEqual(len(q), 1)
with self.assertRaises(AttributeError):
q.update({"foo": "bar"})
with self.assertRaises(AttributeError):
q.pop("foo")
with self.assertRaises(AttributeError):
q.popitem()
with self.assertRaises(AttributeError):
q.clear()
with self.assertRaises(AttributeError):
q.setdefault("foo", "bar")
self.assertEqual(q.urlencode(), "foo=bar")
def test_urlencode(self):
q = QueryDict(mutable=True)
q["next"] = "/a&b/"
self.assertEqual(q.urlencode(), "next=%2Fa%26b%2F")
self.assertEqual(q.urlencode(safe="/"), "next=/a%26b/")
q = QueryDict(mutable=True)
q["next"] = "/t\xebst&key/"
self.assertEqual(q.urlencode(), "next=%2Ft%C3%ABst%26key%2F")
self.assertEqual(q.urlencode(safe="/"), "next=/t%C3%ABst%26key/")
def test_urlencode_int(self):
# Normally QueryDict doesn't contain non-string values but lazily
# written tests may make that mistake.
q = QueryDict(mutable=True)
q["a"] = 1
self.assertEqual(q.urlencode(), "a=1")
def test_mutable_copy(self):
"""A copy of a QueryDict is mutable."""
q = QueryDict().copy()
with self.assertRaises(KeyError):
q.__getitem__("foo")
q["name"] = "john"
self.assertEqual(q["name"], "john")
def test_mutable_delete(self):
q = QueryDict(mutable=True)
q["name"] = "john"
del q["name"]
self.assertNotIn("name", q)
def test_basic_mutable_operations(self):
q = QueryDict(mutable=True)
q["name"] = "john"
self.assertEqual(q.get("foo", "default"), "default")
self.assertEqual(q.get("name", "default"), "john")
self.assertEqual(q.getlist("name"), ["john"])
self.assertEqual(q.getlist("foo"), [])
q.setlist("foo", ["bar", "baz"])
self.assertEqual(q.get("foo", "default"), "baz")
self.assertEqual(q.getlist("foo"), ["bar", "baz"])
q.appendlist("foo", "another")
self.assertEqual(q.getlist("foo"), ["bar", "baz", "another"])
self.assertEqual(q["foo"], "another")
self.assertIn("foo", q)
self.assertCountEqual(q, ["foo", "name"])
self.assertCountEqual(q.items(), [("foo", "another"), ("name", "john")])
self.assertCountEqual(
q.lists(), [("foo", ["bar", "baz", "another"]), ("name", ["john"])]
)
self.assertCountEqual(q.keys(), ["foo", "name"])
self.assertCountEqual(q.values(), ["another", "john"])
q.update({"foo": "hello"})
self.assertEqual(q["foo"], "hello")
self.assertEqual(q.get("foo", "not available"), "hello")
self.assertEqual(q.getlist("foo"), ["bar", "baz", "another", "hello"])
self.assertEqual(q.pop("foo"), ["bar", "baz", "another", "hello"])
self.assertEqual(q.pop("foo", "not there"), "not there")
self.assertEqual(q.get("foo", "not there"), "not there")
self.assertEqual(q.setdefault("foo", "bar"), "bar")
self.assertEqual(q["foo"], "bar")
self.assertEqual(q.getlist("foo"), ["bar"])
self.assertIn(q.urlencode(), ["foo=bar&name=john", "name=john&foo=bar"])
q.clear()
self.assertEqual(len(q), 0)
def test_multiple_keys(self):
"""Test QueryDict with two key/value pairs with same keys."""
q = QueryDict("vote=yes&vote=no")
self.assertEqual(q["vote"], "no")
with self.assertRaises(AttributeError):
q.__setitem__("something", "bar")
self.assertEqual(q.get("vote", "default"), "no")
self.assertEqual(q.get("foo", "default"), "default")
self.assertEqual(q.getlist("vote"), ["yes", "no"])
self.assertEqual(q.getlist("foo"), [])
with self.assertRaises(AttributeError):
q.setlist("foo", ["bar", "baz"])
with self.assertRaises(AttributeError):
q.setlist("foo", ["bar", "baz"])
with self.assertRaises(AttributeError):
q.appendlist("foo", ["bar"])
self.assertIn("vote", q)
self.assertNotIn("foo", q)
self.assertEqual(list(q), ["vote"])
self.assertEqual(list(q.items()), [("vote", "no")])
self.assertEqual(list(q.lists()), [("vote", ["yes", "no"])])
self.assertEqual(list(q.keys()), ["vote"])
self.assertEqual(list(q.values()), ["no"])
self.assertEqual(len(q), 1)
with self.assertRaises(AttributeError):
q.update({"foo": "bar"})
with self.assertRaises(AttributeError):
q.pop("foo")
with self.assertRaises(AttributeError):
q.popitem()
with self.assertRaises(AttributeError):
q.clear()
with self.assertRaises(AttributeError):
q.setdefault("foo", "bar")
with self.assertRaises(AttributeError):
q.__delitem__("vote")
def test_pickle(self):
q = QueryDict()
q1 = pickle.loads(pickle.dumps(q, 2))
self.assertEqual(q, q1)
q = QueryDict("a=b&c=d")
q1 = pickle.loads(pickle.dumps(q, 2))
self.assertEqual(q, q1)
q = QueryDict("a=b&c=d&a=1")
q1 = pickle.loads(pickle.dumps(q, 2))
self.assertEqual(q, q1)
def test_update_from_querydict(self):
"""Regression test for #8278: QueryDict.update(QueryDict)"""
x = QueryDict("a=1&a=2", mutable=True)
y = QueryDict("a=3&a=4")
x.update(y)
self.assertEqual(x.getlist("a"), ["1", "2", "3", "4"])
def test_non_default_encoding(self):
"""#13572 - QueryDict with a non-default encoding"""
q = QueryDict("cur=%A4", encoding="iso-8859-15")
self.assertEqual(q.encoding, "iso-8859-15")
self.assertEqual(list(q.items()), [("cur", "€")])
self.assertEqual(q.urlencode(), "cur=%A4")
q = q.copy()
self.assertEqual(q.encoding, "iso-8859-15")
self.assertEqual(list(q.items()), [("cur", "€")])
self.assertEqual(q.urlencode(), "cur=%A4")
self.assertEqual(copy.copy(q).encoding, "iso-8859-15")
self.assertEqual(copy.deepcopy(q).encoding, "iso-8859-15")
def test_querydict_fromkeys(self):
self.assertEqual(
QueryDict.fromkeys(["key1", "key2", "key3"]), QueryDict("key1&key2&key3")
)
def test_fromkeys_with_nonempty_value(self):
self.assertEqual(
QueryDict.fromkeys(["key1", "key2", "key3"], value="val"),
QueryDict("key1=val&key2=val&key3=val"),
)
def test_fromkeys_is_immutable_by_default(self):
# Match behavior of __init__() which is also immutable by default.
q = QueryDict.fromkeys(["key1", "key2", "key3"])
with self.assertRaisesMessage(
AttributeError, "This QueryDict instance is immutable"
):
q["key4"] = "nope"
def test_fromkeys_mutable_override(self):
q = QueryDict.fromkeys(["key1", "key2", "key3"], mutable=True)
q["key4"] = "yep"
self.assertEqual(q, QueryDict("key1&key2&key3&key4=yep"))
def test_duplicates_in_fromkeys_iterable(self):
self.assertEqual(QueryDict.fromkeys("xyzzy"), QueryDict("x&y&z&z&y"))
def test_fromkeys_with_nondefault_encoding(self):
key_utf16 = b"\xff\xfe\x8e\x02\xdd\x01\x9e\x02"
value_utf16 = b"\xff\xfe\xdd\x01n\x00l\x00P\x02\x8c\x02"
q = QueryDict.fromkeys([key_utf16], value=value_utf16, encoding="utf-16")
expected = QueryDict("", mutable=True)
expected["ʎǝʞ"] = "ǝnlɐʌ"
self.assertEqual(q, expected)
def test_fromkeys_empty_iterable(self):
self.assertEqual(QueryDict.fromkeys([]), QueryDict(""))
def test_fromkeys_noniterable(self):
with self.assertRaises(TypeError):
QueryDict.fromkeys(0)
class HttpResponseTests(SimpleTestCase):
def test_headers_type(self):
r = HttpResponse()
# ASCII strings or bytes values are converted to strings.
r.headers["key"] = "test"
self.assertEqual(r.headers["key"], "test")
r.headers["key"] = b"test"
self.assertEqual(r.headers["key"], "test")
self.assertIn(b"test", r.serialize_headers())
# Non-ASCII values are serialized to Latin-1.
r.headers["key"] = "café"
self.assertIn("café".encode("latin-1"), r.serialize_headers())
# Other Unicode values are MIME-encoded (there's no way to pass them as
# bytes).
r.headers["key"] = "†"
self.assertEqual(r.headers["key"], "=?utf-8?b?4oCg?=")
self.assertIn(b"=?utf-8?b?4oCg?=", r.serialize_headers())
# The response also converts string or bytes keys to strings, but requires
# them to contain ASCII
r = HttpResponse()
del r.headers["Content-Type"]
r.headers["foo"] = "bar"
headers = list(r.headers.items())
self.assertEqual(len(headers), 1)
self.assertEqual(headers[0], ("foo", "bar"))
r = HttpResponse()
del r.headers["Content-Type"]
r.headers[b"foo"] = "bar"
headers = list(r.headers.items())
self.assertEqual(len(headers), 1)
self.assertEqual(headers[0], ("foo", "bar"))
self.assertIsInstance(headers[0][0], str)
r = HttpResponse()
with self.assertRaises(UnicodeError):
r.headers.__setitem__("føø", "bar")
with self.assertRaises(UnicodeError):
r.headers.__setitem__("føø".encode(), "bar")
def test_long_line(self):
# Bug #20889: long lines trigger newlines to be added to headers
# (which is not allowed due to bug #10188)
h = HttpResponse()
f = b"zzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzz a\xcc\x88"
f = f.decode("utf-8")
h.headers["Content-Disposition"] = 'attachment; filename="%s"' % f
# This one is triggering https://bugs.python.org/issue20747, that is Python
# will itself insert a newline in the header
h.headers[
"Content-Disposition"
] = 'attachment; filename="EdelRot_Blu\u0308te (3)-0.JPG"'
def test_newlines_in_headers(self):
# Bug #10188: Do not allow newlines in headers (CR or LF)
r = HttpResponse()
with self.assertRaises(BadHeaderError):
r.headers.__setitem__("test\rstr", "test")
with self.assertRaises(BadHeaderError):
r.headers.__setitem__("test\nstr", "test")
def test_dict_behavior(self):
"""
Test for bug #14020: Make HttpResponse.get work like dict.get
"""
r = HttpResponse()
self.assertIsNone(r.get("test"))
def test_non_string_content(self):
# Bug 16494: HttpResponse should behave consistently with non-strings
r = HttpResponse(12345)
self.assertEqual(r.content, b"12345")
# test content via property
r = HttpResponse()
r.content = 12345
self.assertEqual(r.content, b"12345")
def test_memoryview_content(self):
r = HttpResponse(memoryview(b"memoryview"))
self.assertEqual(r.content, b"memoryview")
def test_iter_content(self):
r = HttpResponse(["abc", "def", "ghi"])
self.assertEqual(r.content, b"abcdefghi")
# test iter content via property
r = HttpResponse()
r.content = ["idan", "alex", "jacob"]
self.assertEqual(r.content, b"idanalexjacob")
r = HttpResponse()
r.content = [1, 2, 3]
self.assertEqual(r.content, b"123")
# test odd inputs
r = HttpResponse()
r.content = ["1", "2", 3, "\u079e"]
# '\xde\x9e' == unichr(1950).encode()
self.assertEqual(r.content, b"123\xde\x9e")
# .content can safely be accessed multiple times.
r = HttpResponse(iter(["hello", "world"]))
self.assertEqual(r.content, r.content)
self.assertEqual(r.content, b"helloworld")
# __iter__ can safely be called multiple times (#20187).
self.assertEqual(b"".join(r), b"helloworld")
self.assertEqual(b"".join(r), b"helloworld")
# Accessing .content still works.
self.assertEqual(r.content, b"helloworld")
# Accessing .content also works if the response was iterated first.
r = HttpResponse(iter(["hello", "world"]))
self.assertEqual(b"".join(r), b"helloworld")
self.assertEqual(r.content, b"helloworld")
# Additional content can be written to the response.
r = HttpResponse(iter(["hello", "world"]))
self.assertEqual(r.content, b"helloworld")
r.write("!")
self.assertEqual(r.content, b"helloworld!")
def test_iterator_isnt_rewound(self):
# Regression test for #13222
r = HttpResponse("abc")
i = iter(r)
self.assertEqual(list(i), [b"abc"])
self.assertEqual(list(i), [])
def test_lazy_content(self):
r = HttpResponse(lazystr("helloworld"))
self.assertEqual(r.content, b"helloworld")
def test_file_interface(self):
r = HttpResponse()
r.write(b"hello")
self.assertEqual(r.tell(), 5)
r.write("привет")
self.assertEqual(r.tell(), 17)
r = HttpResponse(["abc"])
r.write("def")
self.assertEqual(r.tell(), 6)
self.assertEqual(r.content, b"abcdef")
# with Content-Encoding header
r = HttpResponse()
r.headers["Content-Encoding"] = "winning"
r.write(b"abc")
r.write(b"def")
self.assertEqual(r.content, b"abcdef")
def test_stream_interface(self):
r = HttpResponse("asdf")
self.assertEqual(r.getvalue(), b"asdf")
r = HttpResponse()
self.assertIs(r.writable(), True)
r.writelines(["foo\n", "bar\n", "baz\n"])
self.assertEqual(r.content, b"foo\nbar\nbaz\n")
def test_unsafe_redirect(self):
bad_urls = [
'data:text/html,<script>window.alert("xss")</script>',
"mailto:[email protected]",
"file:///etc/passwd",
]
for url in bad_urls:
with self.assertRaises(DisallowedRedirect):
HttpResponseRedirect(url)
with self.assertRaises(DisallowedRedirect):
HttpResponsePermanentRedirect(url)
def test_header_deletion(self):
r = HttpResponse("hello")
r.headers["X-Foo"] = "foo"
del r.headers["X-Foo"]
self.assertNotIn("X-Foo", r.headers)
# del doesn't raise a KeyError on nonexistent headers.
del r.headers["X-Foo"]
def test_instantiate_with_headers(self):
r = HttpResponse("hello", headers={"X-Foo": "foo"})
self.assertEqual(r.headers["X-Foo"], "foo")
self.assertEqual(r.headers["x-foo"], "foo")
def test_content_type(self):
r = HttpResponse("hello", content_type="application/json")
self.assertEqual(r.headers["Content-Type"], "application/json")
def test_content_type_headers(self):
r = HttpResponse("hello", headers={"Content-Type": "application/json"})
self.assertEqual(r.headers["Content-Type"], "application/json")
def test_content_type_mutually_exclusive(self):
msg = (
"'headers' must not contain 'Content-Type' when the "
"'content_type' parameter is provided."
)
with self.assertRaisesMessage(ValueError, msg):
HttpResponse(
"hello",
content_type="application/json",
headers={"Content-Type": "text/csv"},
)
class HttpResponseSubclassesTests(SimpleTestCase):
def test_redirect(self):
response = HttpResponseRedirect("/redirected/")
self.assertEqual(response.status_code, 302)
# Standard HttpResponse init args can be used
response = HttpResponseRedirect(
"/redirected/",
content="The resource has temporarily moved",
content_type="text/html",
)
self.assertContains(
response, "The resource has temporarily moved", status_code=302
)
self.assertEqual(response.url, response.headers["Location"])
def test_redirect_lazy(self):
"""Make sure HttpResponseRedirect works with lazy strings."""
r = HttpResponseRedirect(lazystr("/redirected/"))
self.assertEqual(r.url, "/redirected/")
def test_redirect_repr(self):
response = HttpResponseRedirect("/redirected/")
expected = (
'<HttpResponseRedirect status_code=302, "text/html; charset=utf-8", '
'url="/redirected/">'
)
self.assertEqual(repr(response), expected)
def test_invalid_redirect_repr(self):
"""
If HttpResponseRedirect raises DisallowedRedirect, its __repr__()
should work (in the debug view, for example).
"""
response = HttpResponseRedirect.__new__(HttpResponseRedirect)
with self.assertRaisesMessage(
DisallowedRedirect, "Unsafe redirect to URL with protocol 'ssh'"
):
HttpResponseRedirect.__init__(response, "ssh://foo")
expected = (
'<HttpResponseRedirect status_code=302, "text/html; charset=utf-8", '
'url="ssh://foo">'
)
self.assertEqual(repr(response), expected)
def test_not_modified(self):
response = HttpResponseNotModified()
self.assertEqual(response.status_code, 304)
# 304 responses should not have content/content-type
with self.assertRaises(AttributeError):
response.content = "Hello dear"
self.assertNotIn("content-type", response)
def test_not_modified_repr(self):
response = HttpResponseNotModified()
self.assertEqual(repr(response), "<HttpResponseNotModified status_code=304>")
def test_not_allowed(self):
response = HttpResponseNotAllowed(["GET"])
self.assertEqual(response.status_code, 405)
# Standard HttpResponse init args can be used
response = HttpResponseNotAllowed(
["GET"], content="Only the GET method is allowed", content_type="text/html"
)
self.assertContains(response, "Only the GET method is allowed", status_code=405)
def test_not_allowed_repr(self):
response = HttpResponseNotAllowed(["GET", "OPTIONS"], content_type="text/plain")
expected = (
'<HttpResponseNotAllowed [GET, OPTIONS] status_code=405, "text/plain">'
)
self.assertEqual(repr(response), expected)
def test_not_allowed_repr_no_content_type(self):
response = HttpResponseNotAllowed(("GET", "POST"))
del response.headers["Content-Type"]
self.assertEqual(
repr(response), "<HttpResponseNotAllowed [GET, POST] status_code=405>"
)
class JsonResponseTests(SimpleTestCase):
def test_json_response_non_ascii(self):
data = {"key": "łóżko"}
response = JsonResponse(data)
self.assertEqual(json.loads(response.content.decode()), data)
def test_json_response_raises_type_error_with_default_setting(self):
with self.assertRaisesMessage(
TypeError,
"In order to allow non-dict objects to be serialized set the "
"safe parameter to False",
):
JsonResponse([1, 2, 3])
def test_json_response_text(self):
response = JsonResponse("foobar", safe=False)
self.assertEqual(json.loads(response.content.decode()), "foobar")
def test_json_response_list(self):
response = JsonResponse(["foo", "bar"], safe=False)
self.assertEqual(json.loads(response.content.decode()), ["foo", "bar"])
def test_json_response_uuid(self):
u = uuid.uuid4()
response = JsonResponse(u, safe=False)
self.assertEqual(json.loads(response.content.decode()), str(u))
def test_json_response_custom_encoder(self):
class CustomDjangoJSONEncoder(DjangoJSONEncoder):
def encode(self, o):
return json.dumps({"foo": "bar"})
response = JsonResponse({}, encoder=CustomDjangoJSONEncoder)
self.assertEqual(json.loads(response.content.decode()), {"foo": "bar"})
def test_json_response_passing_arguments_to_json_dumps(self):
response = JsonResponse({"foo": "bar"}, json_dumps_params={"indent": 2})
self.assertEqual(response.content.decode(), '{\n "foo": "bar"\n}')
class StreamingHttpResponseTests(SimpleTestCase):
def test_streaming_response(self):
r = StreamingHttpResponse(iter(["hello", "world"]))
# iterating over the response itself yields bytestring chunks.
chunks = list(r)
self.assertEqual(chunks, [b"hello", b"world"])
for chunk in chunks:
self.assertIsInstance(chunk, bytes)
# and the response can only be iterated once.
self.assertEqual(list(r), [])
# even when a sequence that can be iterated many times, like a list,
# is given as content.
r = StreamingHttpResponse(["abc", "def"])
self.assertEqual(list(r), [b"abc", b"def"])
self.assertEqual(list(r), [])
# iterating over strings still yields bytestring chunks.
r.streaming_content = iter(["hello", "café"])
chunks = list(r)
# '\xc3\xa9' == unichr(233).encode()
self.assertEqual(chunks, [b"hello", b"caf\xc3\xa9"])
for chunk in chunks:
self.assertIsInstance(chunk, bytes)
# streaming responses don't have a `content` attribute.
self.assertFalse(hasattr(r, "content"))
# and you can't accidentally assign to a `content` attribute.
with self.assertRaises(AttributeError):
r.content = "xyz"
# but they do have a `streaming_content` attribute.
self.assertTrue(hasattr(r, "streaming_content"))
# that exists so we can check if a response is streaming, and wrap or
# replace the content iterator.
r.streaming_content = iter(["abc", "def"])
r.streaming_content = (chunk.upper() for chunk in r.streaming_content)
self.assertEqual(list(r), [b"ABC", b"DEF"])
# coercing a streaming response to bytes doesn't return a complete HTTP
# message like a regular response does. it only gives us the headers.
r = StreamingHttpResponse(iter(["hello", "world"]))
self.assertEqual(bytes(r), b"Content-Type: text/html; charset=utf-8")
# and this won't consume its content.
self.assertEqual(list(r), [b"hello", b"world"])
# additional content cannot be written to the response.
r = StreamingHttpResponse(iter(["hello", "world"]))
with self.assertRaises(Exception):
r.write("!")
# and we can't tell the current position.
with self.assertRaises(Exception):
r.tell()
r = StreamingHttpResponse(iter(["hello", "world"]))
self.assertEqual(r.getvalue(), b"helloworld")
def test_repr(self):
r = StreamingHttpResponse(iter(["hello", "café"]))
self.assertEqual(
repr(r),
'<StreamingHttpResponse status_code=200, "text/html; charset=utf-8">',
)
class FileCloseTests(SimpleTestCase):
def setUp(self):
# Disable the request_finished signal during this test
# to avoid interfering with the database connection.
request_finished.disconnect(close_old_connections)
def tearDown(self):
request_finished.connect(close_old_connections)
def test_response(self):
filename = os.path.join(os.path.dirname(__file__), "abc.txt")
# file isn't closed until we close the response.
file1 = open(filename)
r = HttpResponse(file1)
self.assertTrue(file1.closed)
r.close()
# when multiple file are assigned as content, make sure they are all
# closed with the response.
file1 = open(filename)
file2 = open(filename)
r = HttpResponse(file1)
r.content = file2
self.assertTrue(file1.closed)
self.assertTrue(file2.closed)
def test_streaming_response(self):
filename = os.path.join(os.path.dirname(__file__), "abc.txt")
# file isn't closed until we close the response.
file1 = open(filename)
r = StreamingHttpResponse(file1)
self.assertFalse(file1.closed)
r.close()
self.assertTrue(file1.closed)
# when multiple file are assigned as content, make sure they are all
# closed with the response.
file1 = open(filename)
file2 = open(filename)
r = StreamingHttpResponse(file1)
r.streaming_content = file2
self.assertFalse(file1.closed)
self.assertFalse(file2.closed)
r.close()
self.assertTrue(file1.closed)
self.assertTrue(file2.closed)
class CookieTests(unittest.TestCase):
def test_encode(self):
"""Semicolons and commas are encoded."""
c = SimpleCookie()
c["test"] = "An,awkward;value"
self.assertNotIn(";", c.output().rstrip(";")) # IE compat
self.assertNotIn(",", c.output().rstrip(";")) # Safari compat
def test_decode(self):
"""Semicolons and commas are decoded."""
c = SimpleCookie()
c["test"] = "An,awkward;value"
c2 = SimpleCookie()
c2.load(c.output()[12:])
self.assertEqual(c["test"].value, c2["test"].value)
c3 = parse_cookie(c.output()[12:])
self.assertEqual(c["test"].value, c3["test"])
def test_nonstandard_keys(self):
"""
A single non-standard cookie name doesn't affect all cookies (#13007).
"""
self.assertIn("good_cookie", parse_cookie("good_cookie=yes;bad:cookie=yes"))
def test_repeated_nonstandard_keys(self):
"""
A repeated non-standard name doesn't affect all cookies (#15852).
"""
self.assertIn("good_cookie", parse_cookie("a:=b; a:=c; good_cookie=yes"))
def test_python_cookies(self):
"""
Test cases copied from Python's Lib/test/test_http_cookies.py
"""
self.assertEqual(
parse_cookie("chips=ahoy; vienna=finger"),
{"chips": "ahoy", "vienna": "finger"},
)
# Here parse_cookie() differs from Python's cookie parsing in that it
# treats all semicolons as delimiters, even within quotes.
self.assertEqual(
parse_cookie('keebler="E=mc2; L=\\"Loves\\"; fudge=\\012;"'),
{"keebler": '"E=mc2', "L": '\\"Loves\\"', "fudge": "\\012", "": '"'},
)
# Illegal cookies that have an '=' char in an unquoted value.
self.assertEqual(parse_cookie("keebler=E=mc2"), {"keebler": "E=mc2"})
# Cookies with ':' character in their name.
self.assertEqual(
parse_cookie("key:term=value:term"), {"key:term": "value:term"}
)
# Cookies with '[' and ']'.
self.assertEqual(
parse_cookie("a=b; c=[; d=r; f=h"), {"a": "b", "c": "[", "d": "r", "f": "h"}
)
def test_cookie_edgecases(self):
# Cookies that RFC6265 allows.
self.assertEqual(
parse_cookie("a=b; Domain=example.com"), {"a": "b", "Domain": "example.com"}
)
# parse_cookie() has historically kept only the last cookie with the
# same name.
self.assertEqual(parse_cookie("a=b; h=i; a=c"), {"a": "c", "h": "i"})
def test_invalid_cookies(self):
"""
Cookie strings that go against RFC6265 but browsers will send if set
via document.cookie.
"""
# Chunks without an equals sign appear as unnamed values per
# https://bugzilla.mozilla.org/show_bug.cgi?id=169091
self.assertIn(
"django_language", parse_cookie("abc=def; unnamed; django_language=en")
)
# Even a double quote may be an unnamed value.
self.assertEqual(parse_cookie('a=b; "; c=d'), {"a": "b", "": '"', "c": "d"})
# Spaces in names and values, and an equals sign in values.
self.assertEqual(
parse_cookie("a b c=d e = f; gh=i"), {"a b c": "d e = f", "gh": "i"}
)
# More characters the spec forbids.
self.assertEqual(
parse_cookie('a b,c<>@:/[]?{}=d " =e,f g'),
{"a b,c<>@:/[]?{}": 'd " =e,f g'},
)
# Unicode characters. The spec only allows ASCII.
self.assertEqual(
parse_cookie("saint=André Bessette"), {"saint": "André Bessette"}
)
# Browsers don't send extra whitespace or semicolons in Cookie headers,
# but parse_cookie() should parse whitespace the same way
# document.cookie parses whitespace.
self.assertEqual(
parse_cookie(" = b ; ; = ; c = ; "), {"": "b", "c": ""}
)
def test_samesite(self):
c = SimpleCookie("name=value; samesite=lax; httponly")
self.assertEqual(c["name"]["samesite"], "lax")
self.assertIn("SameSite=lax", c.output())
def test_httponly_after_load(self):
c = SimpleCookie()
c.load("name=val")
c["name"]["httponly"] = True
self.assertTrue(c["name"]["httponly"])
def test_load_dict(self):
c = SimpleCookie()
c.load({"name": "val"})
self.assertEqual(c["name"].value, "val")
def test_pickle(self):
rawdata = 'Customer="WILE_E_COYOTE"; Path=/acme; Version=1'
expected_output = "Set-Cookie: %s" % rawdata
C = SimpleCookie()
C.load(rawdata)
self.assertEqual(C.output(), expected_output)
for proto in range(pickle.HIGHEST_PROTOCOL + 1):
C1 = pickle.loads(pickle.dumps(C, protocol=proto))
self.assertEqual(C1.output(), expected_output)
class HttpResponseHeadersTestCase(SimpleTestCase):
"""Headers by treating HttpResponse like a dictionary."""
def test_headers(self):
response = HttpResponse()
response["X-Foo"] = "bar"
self.assertEqual(response["X-Foo"], "bar")
self.assertEqual(response.headers["X-Foo"], "bar")
self.assertIn("X-Foo", response)
self.assertIs(response.has_header("X-Foo"), True)
del response["X-Foo"]
self.assertNotIn("X-Foo", response)
self.assertNotIn("X-Foo", response.headers)
# del doesn't raise a KeyError on nonexistent headers.
del response["X-Foo"]
def test_headers_as_iterable_of_tuple_pairs(self):
response = HttpResponse(headers=(("X-Foo", "bar"),))
self.assertEqual(response["X-Foo"], "bar")
def test_headers_bytestring(self):
response = HttpResponse()
response["X-Foo"] = b"bar"
self.assertEqual(response["X-Foo"], "bar")
self.assertEqual(response.headers["X-Foo"], "bar")
def test_newlines_in_headers(self):
response = HttpResponse()
with self.assertRaises(BadHeaderError):
response["test\rstr"] = "test"
with self.assertRaises(BadHeaderError):
response["test\nstr"] = "test"
|
a6ce28236cae61f688a7e931f05609c3ffc91b0341b6f8f177d8d0450d5a5452 | import os
import sys
from unittest import mock, skipIf
from asgiref.sync import async_to_sync
from django.core.cache import DEFAULT_CACHE_ALIAS, caches
from django.core.exceptions import SynchronousOnlyOperation
from django.test import SimpleTestCase
from django.utils.asyncio import async_unsafe
from .models import SimpleModel
@skipIf(
sys.platform == "win32" and (3, 8, 0) < sys.version_info < (3, 8, 1),
"https://bugs.python.org/issue38563",
)
class CacheTest(SimpleTestCase):
def test_caches_local(self):
@async_to_sync
async def async_cache():
return caches[DEFAULT_CACHE_ALIAS]
cache_1 = async_cache()
cache_2 = async_cache()
self.assertIs(cache_1, cache_2)
@skipIf(
sys.platform == "win32" and (3, 8, 0) < sys.version_info < (3, 8, 1),
"https://bugs.python.org/issue38563",
)
class DatabaseConnectionTest(SimpleTestCase):
"""A database connection cannot be used in an async context."""
async def test_get_async_connection(self):
with self.assertRaises(SynchronousOnlyOperation):
list(SimpleModel.objects.all())
@skipIf(
sys.platform == "win32" and (3, 8, 0) < sys.version_info < (3, 8, 1),
"https://bugs.python.org/issue38563",
)
class AsyncUnsafeTest(SimpleTestCase):
"""
async_unsafe decorator should work correctly and returns the correct
message.
"""
@async_unsafe
def dangerous_method(self):
return True
async def test_async_unsafe(self):
# async_unsafe decorator catches bad access and returns the right
# message.
msg = (
"You cannot call this from an async context - use a thread or "
"sync_to_async."
)
with self.assertRaisesMessage(SynchronousOnlyOperation, msg):
self.dangerous_method()
@mock.patch.dict(os.environ, {"DJANGO_ALLOW_ASYNC_UNSAFE": "true"})
@async_to_sync # mock.patch() is not async-aware.
async def test_async_unsafe_suppressed(self):
# Decorator doesn't trigger check when the environment variable to
# suppress it is set.
try:
self.dangerous_method()
except SynchronousOnlyOperation:
self.fail("SynchronousOnlyOperation should not be raised.")
|
2780d12bf46a690e6c1f92085ed444cf1a0b8469731f695954760a7987fdce46 | from operator import attrgetter
from django.core.exceptions import FieldError, ValidationError
from django.db import connection, models
from django.db.models.query_utils import DeferredAttribute
from django.test import SimpleTestCase, TestCase
from django.test.utils import CaptureQueriesContext, isolate_apps
from .models import (
Base,
Chef,
CommonInfo,
GrandChild,
GrandParent,
ItalianRestaurant,
MixinModel,
Parent,
ParkingLot,
Place,
Post,
Restaurant,
Student,
SubBase,
Supplier,
Title,
Worker,
)
class ModelInheritanceTests(TestCase):
def test_abstract(self):
# The Student and Worker models both have 'name' and 'age' fields on
# them and inherit the __str__() method, just as with normal Python
# subclassing. This is useful if you want to factor out common
# information for programming purposes, but still completely
# independent separate models at the database level.
w1 = Worker.objects.create(name="Fred", age=35, job="Quarry worker")
Worker.objects.create(name="Barney", age=34, job="Quarry worker")
s = Student.objects.create(name="Pebbles", age=5, school_class="1B")
self.assertEqual(str(w1), "Worker Fred")
self.assertEqual(str(s), "Student Pebbles")
# The children inherit the Meta class of their parents (if they don't
# specify their own).
self.assertSequenceEqual(
Worker.objects.values("name"),
[
{"name": "Barney"},
{"name": "Fred"},
],
)
# Since Student does not subclass CommonInfo's Meta, it has the effect
# of completely overriding it. So ordering by name doesn't take place
# for Students.
self.assertEqual(Student._meta.ordering, [])
# However, the CommonInfo class cannot be used as a normal model (it
# doesn't exist as a model).
with self.assertRaisesMessage(
AttributeError, "'CommonInfo' has no attribute 'objects'"
):
CommonInfo.objects.all()
def test_reverse_relation_for_different_hierarchy_tree(self):
# Even though p.supplier for a Place 'p' (a parent of a Supplier), a
# Restaurant object cannot access that reverse relation, since it's not
# part of the Place-Supplier Hierarchy.
self.assertQuerysetEqual(Place.objects.filter(supplier__name="foo"), [])
msg = (
"Cannot resolve keyword 'supplier' into field. Choices are: "
"address, chef, chef_id, id, italianrestaurant, lot, name, "
"place_ptr, place_ptr_id, provider, rating, serves_hot_dogs, serves_pizza"
)
with self.assertRaisesMessage(FieldError, msg):
Restaurant.objects.filter(supplier__name="foo")
def test_model_with_distinct_accessors(self):
# The Post model has distinct accessors for the Comment and Link models.
post = Post.objects.create(title="Lorem Ipsum")
post.attached_comment_set.create(content="Save $ on V1agr@", is_spam=True)
post.attached_link_set.create(
content="The web framework for perfections with deadlines.",
url="http://www.djangoproject.com/",
)
# The Post model doesn't have an attribute called
# 'attached_%(class)s_set'.
msg = "'Post' object has no attribute 'attached_%(class)s_set'"
with self.assertRaisesMessage(AttributeError, msg):
getattr(post, "attached_%(class)s_set")
def test_model_with_distinct_related_query_name(self):
self.assertQuerysetEqual(
Post.objects.filter(attached_model_inheritance_comments__is_spam=True), []
)
# The Post model doesn't have a related query accessor based on
# related_name (attached_comment_set).
msg = "Cannot resolve keyword 'attached_comment_set' into field."
with self.assertRaisesMessage(FieldError, msg):
Post.objects.filter(attached_comment_set__is_spam=True)
def test_meta_fields_and_ordering(self):
# Make sure Restaurant and ItalianRestaurant have the right fields in
# the right order.
self.assertEqual(
[f.name for f in Restaurant._meta.fields],
[
"id",
"name",
"address",
"place_ptr",
"rating",
"serves_hot_dogs",
"serves_pizza",
"chef",
],
)
self.assertEqual(
[f.name for f in ItalianRestaurant._meta.fields],
[
"id",
"name",
"address",
"place_ptr",
"rating",
"serves_hot_dogs",
"serves_pizza",
"chef",
"restaurant_ptr",
"serves_gnocchi",
],
)
self.assertEqual(Restaurant._meta.ordering, ["-rating"])
def test_custompk_m2m(self):
b = Base.objects.create()
b.titles.add(Title.objects.create(title="foof"))
s = SubBase.objects.create(sub_id=b.id)
b = Base.objects.get(pk=s.id)
self.assertNotEqual(b.pk, s.pk)
# Low-level test for related_val
self.assertEqual(s.titles.related_val, (s.id,))
# Higher level test for correct query values (title foof not
# accidentally found).
self.assertQuerysetEqual(s.titles.all(), [])
def test_update_parent_filtering(self):
"""
Updating a field of a model subclass doesn't issue an UPDATE
query constrained by an inner query (#10399).
"""
supplier = Supplier.objects.create(
name="Central market",
address="610 some street",
)
# Capture the expected query in a database agnostic way
with CaptureQueriesContext(connection) as captured_queries:
Place.objects.filter(pk=supplier.pk).update(name=supplier.name)
expected_sql = captured_queries[0]["sql"]
# Capture the queries executed when a subclassed model instance is saved.
with CaptureQueriesContext(connection) as captured_queries:
supplier.save(update_fields=("name",))
for query in captured_queries:
sql = query["sql"]
if "UPDATE" in sql:
self.assertEqual(expected_sql, sql)
def test_create_child_no_update(self):
"""Creating a child with non-abstract parents only issues INSERTs."""
def a():
GrandChild.objects.create(
email="[email protected]",
first_name="grand",
last_name="parent",
)
def b():
GrandChild().save()
for i, test in enumerate([a, b]):
with self.subTest(i=i), self.assertNumQueries(4), CaptureQueriesContext(
connection
) as queries:
test()
for query in queries:
sql = query["sql"]
self.assertIn("INSERT INTO", sql, sql)
def test_eq(self):
# Equality doesn't transfer in multitable inheritance.
self.assertNotEqual(Place(id=1), Restaurant(id=1))
self.assertNotEqual(Restaurant(id=1), Place(id=1))
def test_mixin_init(self):
m = MixinModel()
self.assertEqual(m.other_attr, 1)
@isolate_apps("model_inheritance")
def test_abstract_parent_link(self):
class A(models.Model):
pass
class B(A):
a = models.OneToOneField("A", parent_link=True, on_delete=models.CASCADE)
class Meta:
abstract = True
class C(B):
pass
self.assertIs(C._meta.parents[A], C._meta.get_field("a"))
@isolate_apps("model_inheritance")
def test_init_subclass(self):
saved_kwargs = {}
class A(models.Model):
def __init_subclass__(cls, **kwargs):
super().__init_subclass__()
saved_kwargs.update(kwargs)
kwargs = {"x": 1, "y": 2, "z": 3}
class B(A, **kwargs):
pass
self.assertEqual(saved_kwargs, kwargs)
@isolate_apps("model_inheritance")
def test_set_name(self):
class ClassAttr:
called = None
def __set_name__(self_, owner, name):
self.assertIsNone(self_.called)
self_.called = (owner, name)
class A(models.Model):
attr = ClassAttr()
self.assertEqual(A.attr.called, (A, "attr"))
def test_inherited_ordering_pk_desc(self):
p1 = Parent.objects.create(first_name="Joe", email="[email protected]")
p2 = Parent.objects.create(first_name="Jon", email="[email protected]")
expected_order_by_sql = "ORDER BY %s.%s DESC" % (
connection.ops.quote_name(Parent._meta.db_table),
connection.ops.quote_name(Parent._meta.get_field("grandparent_ptr").column),
)
qs = Parent.objects.all()
self.assertSequenceEqual(qs, [p2, p1])
self.assertIn(expected_order_by_sql, str(qs.query))
def test_queryset_class_getitem(self):
self.assertIs(models.QuerySet[Post], models.QuerySet)
self.assertIs(models.QuerySet[Post, Post], models.QuerySet)
self.assertIs(models.QuerySet[Post, int, str], models.QuerySet)
def test_shadow_parent_attribute_with_field(self):
class ScalarParent(models.Model):
foo = 1
class ScalarOverride(ScalarParent):
foo = models.IntegerField()
self.assertEqual(type(ScalarOverride.foo), DeferredAttribute)
def test_shadow_parent_property_with_field(self):
class PropertyParent(models.Model):
@property
def foo(self):
pass
class PropertyOverride(PropertyParent):
foo = models.IntegerField()
self.assertEqual(type(PropertyOverride.foo), DeferredAttribute)
def test_shadow_parent_method_with_field(self):
class MethodParent(models.Model):
def foo(self):
pass
class MethodOverride(MethodParent):
foo = models.IntegerField()
self.assertEqual(type(MethodOverride.foo), DeferredAttribute)
class ModelInheritanceDataTests(TestCase):
@classmethod
def setUpTestData(cls):
cls.restaurant = Restaurant.objects.create(
name="Demon Dogs",
address="944 W. Fullerton",
serves_hot_dogs=True,
serves_pizza=False,
rating=2,
)
chef = Chef.objects.create(name="Albert")
cls.italian_restaurant = ItalianRestaurant.objects.create(
name="Ristorante Miron",
address="1234 W. Ash",
serves_hot_dogs=False,
serves_pizza=False,
serves_gnocchi=True,
rating=4,
chef=chef,
)
def test_filter_inherited_model(self):
self.assertQuerysetEqual(
ItalianRestaurant.objects.filter(address="1234 W. Ash"),
[
"Ristorante Miron",
],
attrgetter("name"),
)
def test_update_inherited_model(self):
self.italian_restaurant.address = "1234 W. Elm"
self.italian_restaurant.save()
self.assertQuerysetEqual(
ItalianRestaurant.objects.filter(address="1234 W. Elm"),
[
"Ristorante Miron",
],
attrgetter("name"),
)
def test_parent_fields_available_for_filtering_in_child_model(self):
# Parent fields can be used directly in filters on the child model.
self.assertQuerysetEqual(
Restaurant.objects.filter(name="Demon Dogs"),
[
"Demon Dogs",
],
attrgetter("name"),
)
self.assertQuerysetEqual(
ItalianRestaurant.objects.filter(address="1234 W. Ash"),
[
"Ristorante Miron",
],
attrgetter("name"),
)
def test_filter_on_parent_returns_object_of_parent_type(self):
# Filters against the parent model return objects of the parent's type.
p = Place.objects.get(name="Demon Dogs")
self.assertIs(type(p), Place)
def test_parent_child_one_to_one_link(self):
# Since the parent and child are linked by an automatically created
# OneToOneField, you can get from the parent to the child by using the
# child's name.
self.assertEqual(
Place.objects.get(name="Demon Dogs").restaurant,
Restaurant.objects.get(name="Demon Dogs"),
)
self.assertEqual(
Place.objects.get(name="Ristorante Miron").restaurant.italianrestaurant,
ItalianRestaurant.objects.get(name="Ristorante Miron"),
)
self.assertEqual(
Restaurant.objects.get(name="Ristorante Miron").italianrestaurant,
ItalianRestaurant.objects.get(name="Ristorante Miron"),
)
def test_parent_child_one_to_one_link_on_nonrelated_objects(self):
# This won't work because the Demon Dogs restaurant is not an Italian
# restaurant.
with self.assertRaises(ItalianRestaurant.DoesNotExist):
Place.objects.get(name="Demon Dogs").restaurant.italianrestaurant
def test_inherited_does_not_exist_exception(self):
# An ItalianRestaurant which does not exist is also a Place which does
# not exist.
with self.assertRaises(Place.DoesNotExist):
ItalianRestaurant.objects.get(name="The Noodle Void")
def test_inherited_multiple_objects_returned_exception(self):
# MultipleObjectsReturned is also inherited.
with self.assertRaises(Place.MultipleObjectsReturned):
Restaurant.objects.get()
def test_related_objects_for_inherited_models(self):
# Related objects work just as they normally do.
s1 = Supplier.objects.create(name="Joe's Chickens", address="123 Sesame St")
s1.customers.set([self.restaurant, self.italian_restaurant])
s2 = Supplier.objects.create(name="Luigi's Pasta", address="456 Sesame St")
s2.customers.set([self.italian_restaurant])
# This won't work because the Place we select is not a Restaurant (it's
# a Supplier).
p = Place.objects.get(name="Joe's Chickens")
with self.assertRaises(Restaurant.DoesNotExist):
p.restaurant
self.assertEqual(p.supplier, s1)
self.assertQuerysetEqual(
self.italian_restaurant.provider.order_by("-name"),
["Luigi's Pasta", "Joe's Chickens"],
attrgetter("name"),
)
self.assertQuerysetEqual(
Restaurant.objects.filter(provider__name__contains="Chickens"),
[
"Ristorante Miron",
"Demon Dogs",
],
attrgetter("name"),
)
self.assertQuerysetEqual(
ItalianRestaurant.objects.filter(provider__name__contains="Chickens"),
[
"Ristorante Miron",
],
attrgetter("name"),
)
ParkingLot.objects.create(name="Main St", address="111 Main St", main_site=s1)
ParkingLot.objects.create(
name="Well Lit", address="124 Sesame St", main_site=self.italian_restaurant
)
self.assertEqual(
Restaurant.objects.get(lot__name="Well Lit").name, "Ristorante Miron"
)
def test_update_works_on_parent_and_child_models_at_once(self):
# The update() command can update fields in parent and child classes at
# once (although it executed multiple SQL queries to do so).
rows = Restaurant.objects.filter(
serves_hot_dogs=True, name__contains="D"
).update(name="Demon Puppies", serves_hot_dogs=False)
self.assertEqual(rows, 1)
r1 = Restaurant.objects.get(pk=self.restaurant.pk)
self.assertFalse(r1.serves_hot_dogs)
self.assertEqual(r1.name, "Demon Puppies")
def test_values_works_on_parent_model_fields(self):
# The values() command also works on fields from parent models.
self.assertSequenceEqual(
ItalianRestaurant.objects.values("name", "rating"),
[
{"rating": 4, "name": "Ristorante Miron"},
],
)
def test_select_related_works_on_parent_model_fields(self):
# select_related works with fields from the parent object as if they
# were a normal part of the model.
self.assertNumQueries(2, lambda: ItalianRestaurant.objects.all()[0].chef)
self.assertNumQueries(
1, lambda: ItalianRestaurant.objects.select_related("chef")[0].chef
)
def test_select_related_defer(self):
"""
#23370 - Should be able to defer child fields when using
select_related() from parent to child.
"""
qs = (
Restaurant.objects.select_related("italianrestaurant")
.defer("italianrestaurant__serves_gnocchi")
.order_by("rating")
)
# The field was actually deferred
with self.assertNumQueries(2):
objs = list(qs.all())
self.assertTrue(objs[1].italianrestaurant.serves_gnocchi)
# Model fields where assigned correct values
self.assertEqual(qs[0].name, "Demon Dogs")
self.assertEqual(qs[0].rating, 2)
self.assertEqual(qs[1].italianrestaurant.name, "Ristorante Miron")
self.assertEqual(qs[1].italianrestaurant.rating, 4)
def test_parent_cache_reuse(self):
place = Place.objects.create()
GrandChild.objects.create(place=place)
grand_parent = GrandParent.objects.latest("pk")
with self.assertNumQueries(1):
self.assertEqual(grand_parent.place, place)
parent = grand_parent.parent
with self.assertNumQueries(0):
self.assertEqual(parent.place, place)
child = parent.child
with self.assertNumQueries(0):
self.assertEqual(child.place, place)
grandchild = child.grandchild
with self.assertNumQueries(0):
self.assertEqual(grandchild.place, place)
def test_update_query_counts(self):
"""
Update queries do not generate unnecessary queries (#18304).
"""
with self.assertNumQueries(3):
self.italian_restaurant.save()
def test_filter_inherited_on_null(self):
# Refs #12567
Supplier.objects.create(
name="Central market",
address="610 some street",
)
self.assertQuerysetEqual(
Place.objects.filter(supplier__isnull=False),
[
"Central market",
],
attrgetter("name"),
)
self.assertQuerysetEqual(
Place.objects.filter(supplier__isnull=True).order_by("name"),
[
"Demon Dogs",
"Ristorante Miron",
],
attrgetter("name"),
)
def test_exclude_inherited_on_null(self):
# Refs #12567
Supplier.objects.create(
name="Central market",
address="610 some street",
)
self.assertQuerysetEqual(
Place.objects.exclude(supplier__isnull=False).order_by("name"),
[
"Demon Dogs",
"Ristorante Miron",
],
attrgetter("name"),
)
self.assertQuerysetEqual(
Place.objects.exclude(supplier__isnull=True),
[
"Central market",
],
attrgetter("name"),
)
@isolate_apps("model_inheritance", "model_inheritance.tests")
class InheritanceSameModelNameTests(SimpleTestCase):
def test_abstract_fk_related_name(self):
related_name = "%(app_label)s_%(class)s_references"
class Referenced(models.Model):
class Meta:
app_label = "model_inheritance"
class AbstractReferent(models.Model):
reference = models.ForeignKey(
Referenced, models.CASCADE, related_name=related_name
)
class Meta:
app_label = "model_inheritance"
abstract = True
class Referent(AbstractReferent):
class Meta:
app_label = "model_inheritance"
LocalReferent = Referent
class Referent(AbstractReferent):
class Meta:
app_label = "tests"
ForeignReferent = Referent
self.assertFalse(hasattr(Referenced, related_name))
self.assertIs(
Referenced.model_inheritance_referent_references.field.model, LocalReferent
)
self.assertIs(Referenced.tests_referent_references.field.model, ForeignReferent)
class InheritanceUniqueTests(TestCase):
@classmethod
def setUpTestData(cls):
cls.grand_parent = GrandParent.objects.create(
email="[email protected]",
first_name="grand",
last_name="parent",
)
def test_unique(self):
grand_child = GrandChild(
email=self.grand_parent.email,
first_name="grand",
last_name="child",
)
msg = "Grand parent with this Email already exists."
with self.assertRaisesMessage(ValidationError, msg):
grand_child.validate_unique()
def test_unique_together(self):
grand_child = GrandChild(
email="[email protected]",
first_name=self.grand_parent.first_name,
last_name=self.grand_parent.last_name,
)
msg = "Grand parent with this First name and Last name already exists."
with self.assertRaisesMessage(ValidationError, msg):
grand_child.validate_unique()
|
4aab659df0d123b18520a5b5f36d8bb241dd7eab4870a8e4d1dcde489d6375b4 | """
XX. Model inheritance
Model inheritance exists in two varieties:
- abstract base classes which are a way of specifying common
information inherited by the subclasses. They don't exist as a separate
model.
- non-abstract base classes (the default), which are models in their own
right with their own database tables and everything. Their subclasses
have references back to them, created automatically.
Both styles are demonstrated here.
"""
from django.db import models
#
# Abstract base classes
#
class CommonInfo(models.Model):
name = models.CharField(max_length=50)
age = models.PositiveIntegerField()
class Meta:
abstract = True
ordering = ["name"]
def __str__(self):
return "%s %s" % (self.__class__.__name__, self.name)
class Worker(CommonInfo):
job = models.CharField(max_length=50)
class Student(CommonInfo):
school_class = models.CharField(max_length=10)
class Meta:
pass
#
# Abstract base classes with related models
#
class Post(models.Model):
title = models.CharField(max_length=50)
class Attachment(models.Model):
post = models.ForeignKey(
Post,
models.CASCADE,
related_name="attached_%(class)s_set",
related_query_name="attached_%(app_label)s_%(class)ss",
)
content = models.TextField()
class Meta:
abstract = True
class Comment(Attachment):
is_spam = models.BooleanField(default=False)
class Link(Attachment):
url = models.URLField()
#
# Multi-table inheritance
#
class Chef(models.Model):
name = models.CharField(max_length=50)
class Place(models.Model):
name = models.CharField(max_length=50)
address = models.CharField(max_length=80)
class Rating(models.Model):
rating = models.IntegerField(null=True, blank=True)
class Meta:
abstract = True
ordering = ["-rating"]
class Restaurant(Place, Rating):
serves_hot_dogs = models.BooleanField(default=False)
serves_pizza = models.BooleanField(default=False)
chef = models.ForeignKey(Chef, models.SET_NULL, null=True, blank=True)
class Meta(Rating.Meta):
db_table = "my_restaurant"
class ItalianRestaurant(Restaurant):
serves_gnocchi = models.BooleanField(default=False)
class Supplier(Place):
customers = models.ManyToManyField(Restaurant, related_name="provider")
class ParkingLot(Place):
# An explicit link to the parent (we can control the attribute name).
parent = models.OneToOneField(
Place, models.CASCADE, primary_key=True, parent_link=True
)
main_site = models.ForeignKey(Place, models.CASCADE, related_name="lot")
#
# Abstract base classes with related models where the sub-class has the
# same name in a different app and inherits from the same abstract base
# class.
# NOTE: The actual API tests for the following classes are in
# model_inheritance_same_model_name/models.py - They are defined
# here in order to have the name conflict between apps
#
class Title(models.Model):
title = models.CharField(max_length=50)
class NamedURL(models.Model):
title = models.ForeignKey(
Title, models.CASCADE, related_name="attached_%(app_label)s_%(class)s_set"
)
url = models.URLField()
class Meta:
abstract = True
class Mixin:
def __init__(self):
self.other_attr = 1
super().__init__()
class MixinModel(models.Model, Mixin):
pass
class Base(models.Model):
titles = models.ManyToManyField(Title)
class SubBase(Base):
sub_id = models.IntegerField(primary_key=True)
class GrandParent(models.Model):
first_name = models.CharField(max_length=80)
last_name = models.CharField(max_length=80)
email = models.EmailField(unique=True)
place = models.ForeignKey(Place, models.CASCADE, null=True, related_name="+")
class Meta:
# Ordering used by test_inherited_ordering_pk_desc.
ordering = ["-pk"]
unique_together = ("first_name", "last_name")
class Parent(GrandParent):
pass
class Child(Parent):
pass
class GrandChild(Child):
pass
|
11a8eb3706768f619b74c272f1affcc523224f2a2c96121e5cc1565d3e627263 | from django.contrib.contenttypes.fields import GenericForeignKey, GenericRelation
from django.contrib.contenttypes.models import ContentType
from django.core.checks import Error
from django.core.exceptions import FieldDoesNotExist, FieldError
from django.db import models
from django.test import SimpleTestCase
from django.test.utils import isolate_apps
@isolate_apps("model_inheritance")
class AbstractInheritanceTests(SimpleTestCase):
def test_single_parent(self):
class AbstractBase(models.Model):
name = models.CharField(max_length=30)
class Meta:
abstract = True
class AbstractDescendant(AbstractBase):
name = models.CharField(max_length=50)
class Meta:
abstract = True
class DerivedChild(AbstractBase):
name = models.CharField(max_length=50)
class DerivedGrandChild(AbstractDescendant):
pass
self.assertEqual(AbstractDescendant._meta.get_field("name").max_length, 50)
self.assertEqual(DerivedChild._meta.get_field("name").max_length, 50)
self.assertEqual(DerivedGrandChild._meta.get_field("name").max_length, 50)
def test_multiple_inheritance_allows_inherited_field(self):
"""
Single layer multiple inheritance is as expected, deriving the
inherited field from the first base.
"""
class ParentA(models.Model):
name = models.CharField(max_length=255)
class Meta:
abstract = True
class ParentB(models.Model):
name = models.IntegerField()
class Meta:
abstract = True
class Child(ParentA, ParentB):
pass
self.assertEqual(Child.check(), [])
inherited_field = Child._meta.get_field("name")
self.assertIsInstance(inherited_field, models.CharField)
self.assertEqual(inherited_field.max_length, 255)
def test_diamond_shaped_multiple_inheritance_is_depth_first(self):
"""
In contrast to standard Python MRO, resolution of inherited fields is
strictly depth-first, rather than breadth-first in diamond-shaped cases.
This is because a copy of the parent field descriptor is placed onto
the model class in ModelBase.__new__(), rather than the attribute
lookup going via bases. (It only **looks** like inheritance.)
Here, Child inherits name from Root, rather than ParentB.
"""
class Root(models.Model):
name = models.CharField(max_length=255)
class Meta:
abstract = True
class ParentA(Root):
class Meta:
abstract = True
class ParentB(Root):
name = models.IntegerField()
class Meta:
abstract = True
class Child(ParentA, ParentB):
pass
self.assertEqual(Child.check(), [])
inherited_field = Child._meta.get_field("name")
self.assertIsInstance(inherited_field, models.CharField)
self.assertEqual(inherited_field.max_length, 255)
def test_target_field_may_be_pushed_down(self):
"""
Where the Child model needs to inherit a field from a different base
than that given by depth-first resolution, the target field can be
**pushed down** by being re-declared.
"""
class Root(models.Model):
name = models.CharField(max_length=255)
class Meta:
abstract = True
class ParentA(Root):
class Meta:
abstract = True
class ParentB(Root):
name = models.IntegerField()
class Meta:
abstract = True
class Child(ParentA, ParentB):
name = models.IntegerField()
self.assertEqual(Child.check(), [])
inherited_field = Child._meta.get_field("name")
self.assertIsInstance(inherited_field, models.IntegerField)
def test_multiple_inheritance_cannot_shadow_concrete_inherited_field(self):
class ConcreteParent(models.Model):
name = models.CharField(max_length=255)
class AbstractParent(models.Model):
name = models.IntegerField()
class Meta:
abstract = True
class FirstChild(ConcreteParent, AbstractParent):
pass
class AnotherChild(AbstractParent, ConcreteParent):
pass
self.assertIsInstance(FirstChild._meta.get_field("name"), models.CharField)
self.assertEqual(
AnotherChild.check(),
[
Error(
"The field 'name' clashes with the field 'name' "
"from model 'model_inheritance.concreteparent'.",
obj=AnotherChild._meta.get_field("name"),
id="models.E006",
)
],
)
def test_virtual_field(self):
class RelationModel(models.Model):
content_type = models.ForeignKey(ContentType, models.CASCADE)
object_id = models.PositiveIntegerField()
content_object = GenericForeignKey("content_type", "object_id")
class RelatedModelAbstract(models.Model):
field = GenericRelation(RelationModel)
class Meta:
abstract = True
class ModelAbstract(models.Model):
field = models.CharField(max_length=100)
class Meta:
abstract = True
class OverrideRelatedModelAbstract(RelatedModelAbstract):
field = models.CharField(max_length=100)
class ExtendModelAbstract(ModelAbstract):
field = GenericRelation(RelationModel)
self.assertIsInstance(
OverrideRelatedModelAbstract._meta.get_field("field"), models.CharField
)
self.assertIsInstance(
ExtendModelAbstract._meta.get_field("field"), GenericRelation
)
def test_cannot_override_indirect_abstract_field(self):
class AbstractBase(models.Model):
name = models.CharField(max_length=30)
class Meta:
abstract = True
class ConcreteDescendant(AbstractBase):
pass
msg = (
"Local field 'name' in class 'Descendant' clashes with field of "
"the same name from base class 'ConcreteDescendant'."
)
with self.assertRaisesMessage(FieldError, msg):
class Descendant(ConcreteDescendant):
name = models.IntegerField()
def test_override_field_with_attr(self):
class AbstractBase(models.Model):
first_name = models.CharField(max_length=50)
last_name = models.CharField(max_length=50)
middle_name = models.CharField(max_length=30)
full_name = models.CharField(max_length=150)
class Meta:
abstract = True
class Descendant(AbstractBase):
middle_name = None
def full_name(self):
return self.first_name + self.last_name
msg = "Descendant has no field named %r"
with self.assertRaisesMessage(FieldDoesNotExist, msg % "middle_name"):
Descendant._meta.get_field("middle_name")
with self.assertRaisesMessage(FieldDoesNotExist, msg % "full_name"):
Descendant._meta.get_field("full_name")
def test_overriding_field_removed_by_concrete_model(self):
class AbstractModel(models.Model):
foo = models.CharField(max_length=30)
class Meta:
abstract = True
class RemovedAbstractModelField(AbstractModel):
foo = None
class OverrideRemovedFieldByConcreteModel(RemovedAbstractModelField):
foo = models.CharField(max_length=50)
self.assertEqual(
OverrideRemovedFieldByConcreteModel._meta.get_field("foo").max_length, 50
)
def test_shadowed_fkey_id(self):
class Foo(models.Model):
pass
class AbstractBase(models.Model):
foo = models.ForeignKey(Foo, models.CASCADE)
class Meta:
abstract = True
class Descendant(AbstractBase):
foo_id = models.IntegerField()
self.assertEqual(
Descendant.check(),
[
Error(
"The field 'foo_id' clashes with the field 'foo' "
"from model 'model_inheritance.descendant'.",
obj=Descendant._meta.get_field("foo_id"),
id="models.E006",
)
],
)
def test_shadow_related_name_when_set_to_none(self):
class AbstractBase(models.Model):
bar = models.IntegerField()
class Meta:
abstract = True
class Foo(AbstractBase):
bar = None
foo = models.IntegerField()
class Bar(models.Model):
bar = models.ForeignKey(Foo, models.CASCADE, related_name="bar")
self.assertEqual(Bar.check(), [])
def test_reverse_foreign_key(self):
class AbstractBase(models.Model):
foo = models.CharField(max_length=100)
class Meta:
abstract = True
class Descendant(AbstractBase):
pass
class Foo(models.Model):
foo = models.ForeignKey(Descendant, models.CASCADE, related_name="foo")
self.assertEqual(
Foo._meta.get_field("foo").check(),
[
Error(
"Reverse accessor 'Descendant.foo' for "
"'model_inheritance.Foo.foo' clashes with field name "
"'model_inheritance.Descendant.foo'.",
hint=(
"Rename field 'model_inheritance.Descendant.foo', or "
"add/change a related_name argument to the definition "
"for field 'model_inheritance.Foo.foo'."
),
obj=Foo._meta.get_field("foo"),
id="fields.E302",
),
Error(
"Reverse query name for 'model_inheritance.Foo.foo' "
"clashes with field name "
"'model_inheritance.Descendant.foo'.",
hint=(
"Rename field 'model_inheritance.Descendant.foo', or "
"add/change a related_name argument to the definition "
"for field 'model_inheritance.Foo.foo'."
),
obj=Foo._meta.get_field("foo"),
id="fields.E303",
),
],
)
def test_multi_inheritance_field_clashes(self):
class AbstractBase(models.Model):
name = models.CharField(max_length=30)
class Meta:
abstract = True
class ConcreteBase(AbstractBase):
pass
class AbstractDescendant(ConcreteBase):
class Meta:
abstract = True
class ConcreteDescendant(AbstractDescendant):
name = models.CharField(max_length=100)
self.assertEqual(
ConcreteDescendant.check(),
[
Error(
"The field 'name' clashes with the field 'name' from "
"model 'model_inheritance.concretebase'.",
obj=ConcreteDescendant._meta.get_field("name"),
id="models.E006",
)
],
)
def test_override_one2one_relation_auto_field_clashes(self):
class ConcreteParent(models.Model):
name = models.CharField(max_length=255)
class AbstractParent(models.Model):
name = models.IntegerField()
class Meta:
abstract = True
msg = (
"Auto-generated field 'concreteparent_ptr' in class 'Descendant' "
"for parent_link to base class 'ConcreteParent' clashes with "
"declared field of the same name."
)
with self.assertRaisesMessage(FieldError, msg):
class Descendant(ConcreteParent, AbstractParent):
concreteparent_ptr = models.CharField(max_length=30)
def test_abstract_model_with_regular_python_mixin_mro(self):
class AbstractModel(models.Model):
name = models.CharField(max_length=255)
age = models.IntegerField()
class Meta:
abstract = True
class Mixin:
age = None
class Mixin2:
age = 2
class DescendantMixin(Mixin):
pass
class ConcreteModel(models.Model):
foo = models.IntegerField()
class ConcreteModel2(ConcreteModel):
age = models.SmallIntegerField()
def fields(model):
if not hasattr(model, "_meta"):
return []
return [(f.name, f.__class__) for f in model._meta.get_fields()]
model_dict = {"__module__": "model_inheritance"}
model1 = type("Model1", (AbstractModel, Mixin), model_dict.copy())
model2 = type("Model2", (Mixin2, AbstractModel), model_dict.copy())
model3 = type("Model3", (DescendantMixin, AbstractModel), model_dict.copy())
model4 = type("Model4", (Mixin2, Mixin, AbstractModel), model_dict.copy())
model5 = type(
"Model5", (Mixin2, ConcreteModel2, Mixin, AbstractModel), model_dict.copy()
)
self.assertEqual(
fields(model1),
[
("id", models.AutoField),
("name", models.CharField),
("age", models.IntegerField),
],
)
self.assertEqual(
fields(model2), [("id", models.AutoField), ("name", models.CharField)]
)
self.assertEqual(getattr(model2, "age"), 2)
self.assertEqual(
fields(model3), [("id", models.AutoField), ("name", models.CharField)]
)
self.assertEqual(
fields(model4), [("id", models.AutoField), ("name", models.CharField)]
)
self.assertEqual(getattr(model4, "age"), 2)
self.assertEqual(
fields(model5),
[
("id", models.AutoField),
("foo", models.IntegerField),
("concretemodel_ptr", models.OneToOneField),
("age", models.SmallIntegerField),
("concretemodel2_ptr", models.OneToOneField),
("name", models.CharField),
],
)
|
5bdb06128dfb020a31fc0cfa678277c5add19a13b51b952c79b5fa38d326c751 | from django.contrib import admin
from django.contrib.admin.options import ModelAdmin
from django.contrib.auth.models import User
from django.db.models import F
from django.test import RequestFactory, TestCase
from .models import (
Band,
DynOrderingBandAdmin,
Song,
SongInlineDefaultOrdering,
SongInlineNewOrdering,
)
class MockRequest:
pass
class MockSuperUser:
def has_perm(self, perm, obj=None):
return True
def has_module_perms(self, module):
return True
request = MockRequest()
request.user = MockSuperUser()
site = admin.AdminSite()
class TestAdminOrdering(TestCase):
"""
Let's make sure that ModelAdmin.get_queryset uses the ordering we define
in ModelAdmin rather that ordering defined in the model's inner Meta
class.
"""
request_factory = RequestFactory()
@classmethod
def setUpTestData(cls):
Band.objects.bulk_create(
[
Band(name="Aerosmith", bio="", rank=3),
Band(name="Radiohead", bio="", rank=1),
Band(name="Van Halen", bio="", rank=2),
]
)
def test_default_ordering(self):
"""
The default ordering should be by name, as specified in the inner Meta
class.
"""
ma = ModelAdmin(Band, site)
names = [b.name for b in ma.get_queryset(request)]
self.assertEqual(["Aerosmith", "Radiohead", "Van Halen"], names)
def test_specified_ordering(self):
"""
Let's use a custom ModelAdmin that changes the ordering, and make sure
it actually changes.
"""
class BandAdmin(ModelAdmin):
ordering = ("rank",) # default ordering is ('name',)
ma = BandAdmin(Band, site)
names = [b.name for b in ma.get_queryset(request)]
self.assertEqual(["Radiohead", "Van Halen", "Aerosmith"], names)
def test_specified_ordering_by_f_expression(self):
class BandAdmin(ModelAdmin):
ordering = (F("rank").desc(nulls_last=True),)
band_admin = BandAdmin(Band, site)
names = [b.name for b in band_admin.get_queryset(request)]
self.assertEqual(["Aerosmith", "Van Halen", "Radiohead"], names)
def test_dynamic_ordering(self):
"""
Let's use a custom ModelAdmin that changes the ordering dynamically.
"""
super_user = User.objects.create(username="admin", is_superuser=True)
other_user = User.objects.create(username="other")
request = self.request_factory.get("/")
request.user = super_user
ma = DynOrderingBandAdmin(Band, site)
names = [b.name for b in ma.get_queryset(request)]
self.assertEqual(["Radiohead", "Van Halen", "Aerosmith"], names)
request.user = other_user
names = [b.name for b in ma.get_queryset(request)]
self.assertEqual(["Aerosmith", "Radiohead", "Van Halen"], names)
class TestInlineModelAdminOrdering(TestCase):
"""
Let's make sure that InlineModelAdmin.get_queryset uses the ordering we
define in InlineModelAdmin.
"""
@classmethod
def setUpTestData(cls):
cls.band = Band.objects.create(name="Aerosmith", bio="", rank=3)
Song.objects.bulk_create(
[
Song(band=cls.band, name="Pink", duration=235),
Song(band=cls.band, name="Dude (Looks Like a Lady)", duration=264),
Song(band=cls.band, name="Jaded", duration=214),
]
)
def test_default_ordering(self):
"""
The default ordering should be by name, as specified in the inner Meta
class.
"""
inline = SongInlineDefaultOrdering(self.band, site)
names = [s.name for s in inline.get_queryset(request)]
self.assertEqual(["Dude (Looks Like a Lady)", "Jaded", "Pink"], names)
def test_specified_ordering(self):
"""
Let's check with ordering set to something different than the default.
"""
inline = SongInlineNewOrdering(self.band, site)
names = [s.name for s in inline.get_queryset(request)]
self.assertEqual(["Jaded", "Pink", "Dude (Looks Like a Lady)"], names)
class TestRelatedFieldsAdminOrdering(TestCase):
@classmethod
def setUpTestData(cls):
cls.b1 = Band.objects.create(name="Pink Floyd", bio="", rank=1)
cls.b2 = Band.objects.create(name="Foo Fighters", bio="", rank=5)
def setUp(self):
# we need to register a custom ModelAdmin (instead of just using
# ModelAdmin) because the field creator tries to find the ModelAdmin
# for the related model
class SongAdmin(admin.ModelAdmin):
pass
site.register(Song, SongAdmin)
def tearDown(self):
site.unregister(Song)
if Band in site._registry:
site.unregister(Band)
def check_ordering_of_field_choices(self, correct_ordering):
fk_field = site._registry[Song].formfield_for_foreignkey(
Song.band.field, request=None
)
m2m_field = site._registry[Song].formfield_for_manytomany(
Song.other_interpreters.field, request=None
)
self.assertEqual(list(fk_field.queryset), correct_ordering)
self.assertEqual(list(m2m_field.queryset), correct_ordering)
def test_no_admin_fallback_to_model_ordering(self):
# should be ordered by name (as defined by the model)
self.check_ordering_of_field_choices([self.b2, self.b1])
def test_admin_with_no_ordering_fallback_to_model_ordering(self):
class NoOrderingBandAdmin(admin.ModelAdmin):
pass
site.register(Band, NoOrderingBandAdmin)
# should be ordered by name (as defined by the model)
self.check_ordering_of_field_choices([self.b2, self.b1])
def test_admin_ordering_beats_model_ordering(self):
class StaticOrderingBandAdmin(admin.ModelAdmin):
ordering = ("rank",)
site.register(Band, StaticOrderingBandAdmin)
# should be ordered by rank (defined by the ModelAdmin)
self.check_ordering_of_field_choices([self.b1, self.b2])
def test_custom_queryset_still_wins(self):
"""Custom queryset has still precedence (#21405)"""
class SongAdmin(admin.ModelAdmin):
# Exclude one of the two Bands from the querysets
def formfield_for_foreignkey(self, db_field, request, **kwargs):
if db_field.name == "band":
kwargs["queryset"] = Band.objects.filter(rank__gt=2)
return super().formfield_for_foreignkey(db_field, request, **kwargs)
def formfield_for_manytomany(self, db_field, request, **kwargs):
if db_field.name == "other_interpreters":
kwargs["queryset"] = Band.objects.filter(rank__gt=2)
return super().formfield_for_foreignkey(db_field, request, **kwargs)
class StaticOrderingBandAdmin(admin.ModelAdmin):
ordering = ("rank",)
site.unregister(Song)
site.register(Song, SongAdmin)
site.register(Band, StaticOrderingBandAdmin)
self.check_ordering_of_field_choices([self.b2])
|
27ea6004c6d5b404a31da7677d5617bc84de2daf7d13e5e4487a73ad1281c9e9 | from django.contrib import admin
from django.db import models
class Band(models.Model):
name = models.CharField(max_length=100)
bio = models.TextField()
rank = models.IntegerField()
class Meta:
ordering = ("name",)
class Song(models.Model):
band = models.ForeignKey(Band, models.CASCADE)
name = models.CharField(max_length=100)
duration = models.IntegerField()
other_interpreters = models.ManyToManyField(Band, related_name="covers")
class Meta:
ordering = ("name",)
class SongInlineDefaultOrdering(admin.StackedInline):
model = Song
class SongInlineNewOrdering(admin.StackedInline):
model = Song
ordering = ("duration",)
class DynOrderingBandAdmin(admin.ModelAdmin):
def get_ordering(self, request):
if request.user.is_superuser:
return ["rank"]
else:
return ["name"]
|
0cbf026459802951e447a46c96493206ec49a1b6b4cf06512d8054f25500403a | import sys
import unittest
from unittest import mock
from django import __version__
from django.core.management import CommandError, call_command
from django.test import SimpleTestCase
from django.test.utils import captured_stdin, captured_stdout
class ShellCommandTestCase(SimpleTestCase):
script_globals = 'print("__name__" in globals())'
script_with_inline_function = (
"import django\ndef f():\n print(django.__version__)\nf()"
)
def test_command_option(self):
with self.assertLogs("test", "INFO") as cm:
call_command(
"shell",
command=(
"import django; from logging import getLogger; "
'getLogger("test").info(django.__version__)'
),
)
self.assertEqual(cm.records[0].getMessage(), __version__)
def test_command_option_globals(self):
with captured_stdout() as stdout:
call_command("shell", command=self.script_globals)
self.assertEqual(stdout.getvalue().strip(), "True")
def test_command_option_inline_function_call(self):
with captured_stdout() as stdout:
call_command("shell", command=self.script_with_inline_function)
self.assertEqual(stdout.getvalue().strip(), __version__)
@unittest.skipIf(
sys.platform == "win32", "Windows select() doesn't support file descriptors."
)
@mock.patch("django.core.management.commands.shell.select")
def test_stdin_read(self, select):
with captured_stdin() as stdin, captured_stdout() as stdout:
stdin.write("print(100)\n")
stdin.seek(0)
call_command("shell")
self.assertEqual(stdout.getvalue().strip(), "100")
@unittest.skipIf(
sys.platform == "win32",
"Windows select() doesn't support file descriptors.",
)
@mock.patch("django.core.management.commands.shell.select") # [1]
def test_stdin_read_globals(self, select):
with captured_stdin() as stdin, captured_stdout() as stdout:
stdin.write(self.script_globals)
stdin.seek(0)
call_command("shell")
self.assertEqual(stdout.getvalue().strip(), "True")
@unittest.skipIf(
sys.platform == "win32",
"Windows select() doesn't support file descriptors.",
)
@mock.patch("django.core.management.commands.shell.select") # [1]
def test_stdin_read_inline_function_call(self, select):
with captured_stdin() as stdin, captured_stdout() as stdout:
stdin.write(self.script_with_inline_function)
stdin.seek(0)
call_command("shell")
self.assertEqual(stdout.getvalue().strip(), __version__)
@mock.patch("django.core.management.commands.shell.select.select") # [1]
@mock.patch.dict("sys.modules", {"IPython": None})
def test_shell_with_ipython_not_installed(self, select):
select.return_value = ([], [], [])
with self.assertRaisesMessage(
CommandError, "Couldn't import ipython interface."
):
call_command("shell", interface="ipython")
@mock.patch("django.core.management.commands.shell.select.select") # [1]
@mock.patch.dict("sys.modules", {"bpython": None})
def test_shell_with_bpython_not_installed(self, select):
select.return_value = ([], [], [])
with self.assertRaisesMessage(
CommandError, "Couldn't import bpython interface."
):
call_command("shell", interface="bpython")
# [1] Patch select to prevent tests failing when when the test suite is run
# in parallel mode. The tests are run in a subprocess and the subprocess's
# stdin is closed and replaced by /dev/null. Reading from /dev/null always
# returns EOF and so select always shows that sys.stdin is ready to read.
# This causes problems because of the call to select.select() toward the
# end of shell's handle() method.
|
892befbc04224d6ba2480c8d26db0644aa2cd8b1c9dfafa6dacb2290cdbcdcfa | from django.forms.models import ModelForm, inlineformset_factory
from django.test import TestCase, skipUnlessDBFeature
from .models import Child, Parent, Poem, Poet, School
class DeletionTests(TestCase):
def test_deletion(self):
PoemFormSet = inlineformset_factory(
Poet, Poem, can_delete=True, fields="__all__"
)
poet = Poet.objects.create(name="test")
poem = poet.poem_set.create(name="test poem")
data = {
"poem_set-TOTAL_FORMS": "1",
"poem_set-INITIAL_FORMS": "1",
"poem_set-MAX_NUM_FORMS": "0",
"poem_set-0-id": str(poem.pk),
"poem_set-0-poet": str(poet.pk),
"poem_set-0-name": "test",
"poem_set-0-DELETE": "on",
}
formset = PoemFormSet(data, instance=poet)
formset.save()
self.assertTrue(formset.is_valid())
self.assertEqual(Poem.objects.count(), 0)
def test_add_form_deletion_when_invalid(self):
"""
Make sure that an add form that is filled out, but marked for deletion
doesn't cause validation errors.
"""
PoemFormSet = inlineformset_factory(
Poet, Poem, can_delete=True, fields="__all__"
)
poet = Poet.objects.create(name="test")
data = {
"poem_set-TOTAL_FORMS": "1",
"poem_set-INITIAL_FORMS": "0",
"poem_set-MAX_NUM_FORMS": "0",
"poem_set-0-id": "",
"poem_set-0-poem": "1",
"poem_set-0-name": "x" * 1000,
}
formset = PoemFormSet(data, instance=poet)
# Make sure this form doesn't pass validation.
self.assertIs(formset.is_valid(), False)
self.assertEqual(Poem.objects.count(), 0)
# Then make sure that it *does* pass validation and delete the object,
# even though the data isn't actually valid.
data["poem_set-0-DELETE"] = "on"
formset = PoemFormSet(data, instance=poet)
self.assertIs(formset.is_valid(), True)
formset.save()
self.assertEqual(Poem.objects.count(), 0)
def test_change_form_deletion_when_invalid(self):
"""
Make sure that a change form that is filled out, but marked for deletion
doesn't cause validation errors.
"""
PoemFormSet = inlineformset_factory(
Poet, Poem, can_delete=True, fields="__all__"
)
poet = Poet.objects.create(name="test")
poem = poet.poem_set.create(name="test poem")
data = {
"poem_set-TOTAL_FORMS": "1",
"poem_set-INITIAL_FORMS": "1",
"poem_set-MAX_NUM_FORMS": "0",
"poem_set-0-id": str(poem.id),
"poem_set-0-poem": str(poem.id),
"poem_set-0-name": "x" * 1000,
}
formset = PoemFormSet(data, instance=poet)
# Make sure this form doesn't pass validation.
self.assertIs(formset.is_valid(), False)
self.assertEqual(Poem.objects.count(), 1)
# Then make sure that it *does* pass validation and delete the object,
# even though the data isn't actually valid.
data["poem_set-0-DELETE"] = "on"
formset = PoemFormSet(data, instance=poet)
self.assertIs(formset.is_valid(), True)
formset.save()
self.assertEqual(Poem.objects.count(), 0)
def test_save_new(self):
"""
Make sure inlineformsets respect commit=False
regression for #10750
"""
# exclude some required field from the forms
ChildFormSet = inlineformset_factory(
School, Child, exclude=["father", "mother"]
)
school = School.objects.create(name="test")
mother = Parent.objects.create(name="mother")
father = Parent.objects.create(name="father")
data = {
"child_set-TOTAL_FORMS": "1",
"child_set-INITIAL_FORMS": "0",
"child_set-MAX_NUM_FORMS": "0",
"child_set-0-name": "child",
}
formset = ChildFormSet(data, instance=school)
self.assertIs(formset.is_valid(), True)
objects = formset.save(commit=False)
for obj in objects:
obj.mother = mother
obj.father = father
obj.save()
self.assertEqual(school.child_set.count(), 1)
class InlineFormsetFactoryTest(TestCase):
def test_inline_formset_factory(self):
"""
These should both work without a problem.
"""
inlineformset_factory(Parent, Child, fk_name="mother", fields="__all__")
inlineformset_factory(Parent, Child, fk_name="father", fields="__all__")
def test_exception_on_unspecified_foreign_key(self):
"""
Child has two ForeignKeys to Parent, so if we don't specify which one
to use for the inline formset, we should get an exception.
"""
msg = (
"'inline_formsets.Child' has more than one ForeignKey to "
"'inline_formsets.Parent'."
)
with self.assertRaisesMessage(ValueError, msg):
inlineformset_factory(Parent, Child)
def test_fk_name_not_foreign_key_field_from_child(self):
"""
If we specify fk_name, but it isn't a ForeignKey from the child model
to the parent model, we should get an exception.
"""
msg = "fk_name 'school' is not a ForeignKey to 'inline_formsets.Parent'."
with self.assertRaisesMessage(ValueError, msg):
inlineformset_factory(Parent, Child, fk_name="school")
def test_non_foreign_key_field(self):
"""
If the field specified in fk_name is not a ForeignKey, we should get an
exception.
"""
with self.assertRaisesMessage(
ValueError, "'inline_formsets.Child' has no field named 'test'."
):
inlineformset_factory(Parent, Child, fk_name="test")
def test_any_iterable_allowed_as_argument_to_exclude(self):
# Regression test for #9171.
inlineformset_factory(Parent, Child, exclude=["school"], fk_name="mother")
inlineformset_factory(Parent, Child, exclude=("school",), fk_name="mother")
@skipUnlessDBFeature("allows_auto_pk_0")
def test_zero_primary_key(self):
# Regression test for #21472
poet = Poet.objects.create(id=0, name="test")
poet.poem_set.create(name="test poem")
PoemFormSet = inlineformset_factory(Poet, Poem, fields="__all__", extra=0)
formset = PoemFormSet(None, instance=poet)
self.assertEqual(len(formset.forms), 1)
def test_unsaved_fk_validate_unique(self):
poet = Poet(name="unsaved")
PoemFormSet = inlineformset_factory(Poet, Poem, fields=["name"])
data = {
"poem_set-TOTAL_FORMS": "2",
"poem_set-INITIAL_FORMS": "0",
"poem_set-MAX_NUM_FORMS": "2",
"poem_set-0-name": "Poem",
"poem_set-1-name": "Poem",
}
formset = PoemFormSet(data, instance=poet)
self.assertFalse(formset.is_valid())
self.assertEqual(
formset.non_form_errors(), ["Please correct the duplicate data for name."]
)
def test_fk_not_duplicated_in_form_fields(self):
"""
A foreign key name isn't duplicated in form._meta fields (#21332).
"""
poet = Poet.objects.create(name="test")
poet.poem_set.create(name="first test poem")
poet.poem_set.create(name="second test poem")
poet.poem_set.create(name="third test poem")
PoemFormSet = inlineformset_factory(Poet, Poem, fields=("name",), extra=0)
formset = PoemFormSet(None, instance=poet)
self.assertEqual(len(formset.forms), 3)
self.assertEqual(["name", "poet"], PoemFormSet.form._meta.fields)
def test_fk_in_all_formset_forms(self):
"""
A foreign key field is in Meta for all forms in the formset (#26538).
"""
class PoemModelForm(ModelForm):
def __init__(self, *args, **kwargs):
assert "poet" in self._meta.fields
super().__init__(*args, **kwargs)
poet = Poet.objects.create(name="test")
poet.poem_set.create(name="first test poem")
poet.poem_set.create(name="second test poem")
PoemFormSet = inlineformset_factory(
Poet, Poem, form=PoemModelForm, fields=("name",), extra=0
)
formset = PoemFormSet(None, instance=poet)
formset.forms # Trigger form instantiation to run the assert above.
|
e885f81d2b9f3048acf4d2b3322db0d2d4f35194b12ade670d75aaa3511baffb | from django.db import models
class School(models.Model):
name = models.CharField(max_length=100)
class Parent(models.Model):
name = models.CharField(max_length=100)
class Child(models.Model):
mother = models.ForeignKey(Parent, models.CASCADE, related_name="mothers_children")
father = models.ForeignKey(Parent, models.CASCADE, related_name="fathers_children")
school = models.ForeignKey(School, models.CASCADE)
name = models.CharField(max_length=100)
class Poet(models.Model):
name = models.CharField(max_length=100)
def __str__(self):
return self.name
class Poem(models.Model):
poet = models.ForeignKey(Poet, models.CASCADE)
name = models.CharField(max_length=100)
class Meta:
unique_together = ("poet", "name")
def __str__(self):
return self.name
|
ed22c87e403009bedd86499cec68ed9c339f4d3ef8f9f87b90e80832518f524c | from unittest import mock
from django.apps.registry import Apps
from django.db import models
from django.db.models import signals
from django.dispatch import receiver
from django.test import SimpleTestCase, TestCase
from django.test.utils import isolate_apps
from .models import Author, Book, Car, Page, Person
class BaseSignalSetup:
def setUp(self):
# Save up the number of connected signals so that we can check at the
# end that all the signals we register get properly unregistered (#9989)
self.pre_signals = (
len(signals.pre_save.receivers),
len(signals.post_save.receivers),
len(signals.pre_delete.receivers),
len(signals.post_delete.receivers),
)
def tearDown(self):
# All our signals got disconnected properly.
post_signals = (
len(signals.pre_save.receivers),
len(signals.post_save.receivers),
len(signals.pre_delete.receivers),
len(signals.post_delete.receivers),
)
self.assertEqual(self.pre_signals, post_signals)
class SignalTests(BaseSignalSetup, TestCase):
def test_model_pre_init_and_post_init(self):
data = []
def pre_init_callback(sender, args, **kwargs):
data.append(kwargs["kwargs"])
signals.pre_init.connect(pre_init_callback)
def post_init_callback(sender, instance, **kwargs):
data.append(instance)
signals.post_init.connect(post_init_callback)
p1 = Person(first_name="John", last_name="Doe")
self.assertEqual(data, [{}, p1])
def test_save_signals(self):
data = []
def pre_save_handler(signal, sender, instance, **kwargs):
data.append((instance, sender, kwargs.get("raw", False)))
def post_save_handler(signal, sender, instance, **kwargs):
data.append(
(instance, sender, kwargs.get("created"), kwargs.get("raw", False))
)
signals.pre_save.connect(pre_save_handler, weak=False)
signals.post_save.connect(post_save_handler, weak=False)
try:
p1 = Person.objects.create(first_name="John", last_name="Smith")
self.assertEqual(
data,
[
(p1, Person, False),
(p1, Person, True, False),
],
)
data[:] = []
p1.first_name = "Tom"
p1.save()
self.assertEqual(
data,
[
(p1, Person, False),
(p1, Person, False, False),
],
)
data[:] = []
# Calling an internal method purely so that we can trigger a "raw" save.
p1.save_base(raw=True)
self.assertEqual(
data,
[
(p1, Person, True),
(p1, Person, False, True),
],
)
data[:] = []
p2 = Person(first_name="James", last_name="Jones")
p2.id = 99999
p2.save()
self.assertEqual(
data,
[
(p2, Person, False),
(p2, Person, True, False),
],
)
data[:] = []
p2.id = 99998
p2.save()
self.assertEqual(
data,
[
(p2, Person, False),
(p2, Person, True, False),
],
)
# The sender should stay the same when using defer().
data[:] = []
p3 = Person.objects.defer("first_name").get(pk=p1.pk)
p3.last_name = "Reese"
p3.save()
self.assertEqual(
data,
[
(p3, Person, False),
(p3, Person, False, False),
],
)
finally:
signals.pre_save.disconnect(pre_save_handler)
signals.post_save.disconnect(post_save_handler)
def test_delete_signals(self):
data = []
def pre_delete_handler(signal, sender, instance, origin, **kwargs):
data.append((instance, sender, instance.id is None, origin))
# #8285: signals can be any callable
class PostDeleteHandler:
def __init__(self, data):
self.data = data
def __call__(self, signal, sender, instance, origin, **kwargs):
self.data.append((instance, sender, instance.id is None, origin))
post_delete_handler = PostDeleteHandler(data)
signals.pre_delete.connect(pre_delete_handler, weak=False)
signals.post_delete.connect(post_delete_handler, weak=False)
try:
p1 = Person.objects.create(first_name="John", last_name="Smith")
p1.delete()
self.assertEqual(
data,
[
(p1, Person, False, p1),
(p1, Person, False, p1),
],
)
data[:] = []
p2 = Person(first_name="James", last_name="Jones")
p2.id = 99999
p2.save()
p2.id = 99998
p2.save()
p2.delete()
self.assertEqual(
data,
[
(p2, Person, False, p2),
(p2, Person, False, p2),
],
)
data[:] = []
self.assertQuerysetEqual(
Person.objects.all(),
[
"James Jones",
],
str,
)
finally:
signals.pre_delete.disconnect(pre_delete_handler)
signals.post_delete.disconnect(post_delete_handler)
def test_delete_signals_origin_model(self):
data = []
def pre_delete_handler(signal, sender, instance, origin, **kwargs):
data.append((sender, origin))
def post_delete_handler(signal, sender, instance, origin, **kwargs):
data.append((sender, origin))
person = Person.objects.create(first_name="John", last_name="Smith")
book = Book.objects.create(name="Rayuela")
Page.objects.create(text="Page 1", book=book)
Page.objects.create(text="Page 2", book=book)
signals.pre_delete.connect(pre_delete_handler, weak=False)
signals.post_delete.connect(post_delete_handler, weak=False)
try:
# Instance deletion.
person.delete()
self.assertEqual(data, [(Person, person), (Person, person)])
data[:] = []
# Cascade deletion.
book.delete()
self.assertEqual(
data,
[
(Page, book),
(Page, book),
(Book, book),
(Page, book),
(Page, book),
(Book, book),
],
)
finally:
signals.pre_delete.disconnect(pre_delete_handler)
signals.post_delete.disconnect(post_delete_handler)
def test_delete_signals_origin_queryset(self):
data = []
def pre_delete_handler(signal, sender, instance, origin, **kwargs):
data.append((sender, origin))
def post_delete_handler(signal, sender, instance, origin, **kwargs):
data.append((sender, origin))
Person.objects.create(first_name="John", last_name="Smith")
book = Book.objects.create(name="Rayuela")
Page.objects.create(text="Page 1", book=book)
Page.objects.create(text="Page 2", book=book)
signals.pre_delete.connect(pre_delete_handler, weak=False)
signals.post_delete.connect(post_delete_handler, weak=False)
try:
# Queryset deletion.
qs = Person.objects.all()
qs.delete()
self.assertEqual(data, [(Person, qs), (Person, qs)])
data[:] = []
# Cascade deletion.
qs = Book.objects.all()
qs.delete()
self.assertEqual(
data,
[
(Page, qs),
(Page, qs),
(Book, qs),
(Page, qs),
(Page, qs),
(Book, qs),
],
)
finally:
signals.pre_delete.disconnect(pre_delete_handler)
signals.post_delete.disconnect(post_delete_handler)
def test_decorators(self):
data = []
@receiver(signals.pre_save, weak=False)
def decorated_handler(signal, sender, instance, **kwargs):
data.append(instance)
@receiver(signals.pre_save, sender=Car, weak=False)
def decorated_handler_with_sender_arg(signal, sender, instance, **kwargs):
data.append(instance)
try:
c1 = Car.objects.create(make="Volkswagen", model="Passat")
self.assertEqual(data, [c1, c1])
finally:
signals.pre_save.disconnect(decorated_handler)
signals.pre_save.disconnect(decorated_handler_with_sender_arg, sender=Car)
def test_save_and_delete_signals_with_m2m(self):
data = []
def pre_save_handler(signal, sender, instance, **kwargs):
data.append("pre_save signal, %s" % instance)
if kwargs.get("raw"):
data.append("Is raw")
def post_save_handler(signal, sender, instance, **kwargs):
data.append("post_save signal, %s" % instance)
if "created" in kwargs:
if kwargs["created"]:
data.append("Is created")
else:
data.append("Is updated")
if kwargs.get("raw"):
data.append("Is raw")
def pre_delete_handler(signal, sender, instance, **kwargs):
data.append("pre_delete signal, %s" % instance)
data.append("instance.id is not None: %s" % (instance.id is not None))
def post_delete_handler(signal, sender, instance, **kwargs):
data.append("post_delete signal, %s" % instance)
data.append("instance.id is not None: %s" % (instance.id is not None))
signals.pre_save.connect(pre_save_handler, weak=False)
signals.post_save.connect(post_save_handler, weak=False)
signals.pre_delete.connect(pre_delete_handler, weak=False)
signals.post_delete.connect(post_delete_handler, weak=False)
try:
a1 = Author.objects.create(name="Neal Stephenson")
self.assertEqual(
data,
[
"pre_save signal, Neal Stephenson",
"post_save signal, Neal Stephenson",
"Is created",
],
)
data[:] = []
b1 = Book.objects.create(name="Snow Crash")
self.assertEqual(
data,
[
"pre_save signal, Snow Crash",
"post_save signal, Snow Crash",
"Is created",
],
)
data[:] = []
# Assigning and removing to/from m2m shouldn't generate an m2m signal.
b1.authors.set([a1])
self.assertEqual(data, [])
b1.authors.set([])
self.assertEqual(data, [])
finally:
signals.pre_save.disconnect(pre_save_handler)
signals.post_save.disconnect(post_save_handler)
signals.pre_delete.disconnect(pre_delete_handler)
signals.post_delete.disconnect(post_delete_handler)
def test_disconnect_in_dispatch(self):
"""
Signals that disconnect when being called don't mess future
dispatching.
"""
class Handler:
def __init__(self, param):
self.param = param
self._run = False
def __call__(self, signal, sender, **kwargs):
self._run = True
signal.disconnect(receiver=self, sender=sender)
a, b = Handler(1), Handler(2)
signals.post_save.connect(a, sender=Person, weak=False)
signals.post_save.connect(b, sender=Person, weak=False)
Person.objects.create(first_name="John", last_name="Smith")
self.assertTrue(a._run)
self.assertTrue(b._run)
self.assertEqual(signals.post_save.receivers, [])
@mock.patch("weakref.ref")
def test_lazy_model_signal(self, ref):
def callback(sender, args, **kwargs):
pass
signals.pre_init.connect(callback)
signals.pre_init.disconnect(callback)
self.assertTrue(ref.called)
ref.reset_mock()
signals.pre_init.connect(callback, weak=False)
signals.pre_init.disconnect(callback)
ref.assert_not_called()
@isolate_apps("signals", kwarg_name="apps")
def test_disconnect_model(self, apps):
received = []
def receiver(**kwargs):
received.append(kwargs)
class Created(models.Model):
pass
signals.post_init.connect(receiver, sender=Created, apps=apps)
try:
self.assertIs(
signals.post_init.disconnect(receiver, sender=Created, apps=apps),
True,
)
self.assertIs(
signals.post_init.disconnect(receiver, sender=Created, apps=apps),
False,
)
Created()
self.assertEqual(received, [])
finally:
signals.post_init.disconnect(receiver, sender=Created)
class LazyModelRefTests(BaseSignalSetup, SimpleTestCase):
def setUp(self):
super().setUp()
self.received = []
def receiver(self, **kwargs):
self.received.append(kwargs)
def test_invalid_sender_model_name(self):
msg = (
"Invalid model reference 'invalid'. String model references must be of the "
"form 'app_label.ModelName'."
)
with self.assertRaisesMessage(ValueError, msg):
signals.post_init.connect(self.receiver, sender="invalid")
def test_already_loaded_model(self):
signals.post_init.connect(self.receiver, sender="signals.Book", weak=False)
try:
instance = Book()
self.assertEqual(
self.received,
[{"signal": signals.post_init, "sender": Book, "instance": instance}],
)
finally:
signals.post_init.disconnect(self.receiver, sender=Book)
@isolate_apps("signals", kwarg_name="apps")
def test_not_loaded_model(self, apps):
signals.post_init.connect(
self.receiver, sender="signals.Created", weak=False, apps=apps
)
try:
class Created(models.Model):
pass
instance = Created()
self.assertEqual(
self.received,
[
{
"signal": signals.post_init,
"sender": Created,
"instance": instance,
}
],
)
finally:
signals.post_init.disconnect(self.receiver, sender=Created)
@isolate_apps("signals", kwarg_name="apps")
def test_disconnect_registered_model(self, apps):
received = []
def receiver(**kwargs):
received.append(kwargs)
class Created(models.Model):
pass
signals.post_init.connect(receiver, sender="signals.Created", apps=apps)
try:
self.assertIsNone(
signals.post_init.disconnect(
receiver, sender="signals.Created", apps=apps
)
)
self.assertIsNone(
signals.post_init.disconnect(
receiver, sender="signals.Created", apps=apps
)
)
Created()
self.assertEqual(received, [])
finally:
signals.post_init.disconnect(receiver, sender="signals.Created")
@isolate_apps("signals", kwarg_name="apps")
def test_disconnect_unregistered_model(self, apps):
received = []
def receiver(**kwargs):
received.append(kwargs)
signals.post_init.connect(receiver, sender="signals.Created", apps=apps)
try:
self.assertIsNone(
signals.post_init.disconnect(
receiver, sender="signals.Created", apps=apps
)
)
self.assertIsNone(
signals.post_init.disconnect(
receiver, sender="signals.Created", apps=apps
)
)
class Created(models.Model):
pass
Created()
self.assertEqual(received, [])
finally:
signals.post_init.disconnect(receiver, sender="signals.Created")
def test_register_model_class_senders_immediately(self):
"""
Model signals registered with model classes as senders don't use the
Apps.lazy_model_operation() mechanism.
"""
# Book isn't registered with apps2, so it will linger in
# apps2._pending_operations if ModelSignal does the wrong thing.
apps2 = Apps()
signals.post_init.connect(self.receiver, sender=Book, apps=apps2)
self.assertEqual(list(apps2._pending_operations), [])
|
80e758b1c80b52a141c08adfd12f72b99c518f80835eccbc1e688c5eff63fd36 | from django.contrib import admin
from django.contrib.admin.decorators import register
from django.contrib.admin.sites import site
from django.core.exceptions import ImproperlyConfigured
from django.test import SimpleTestCase
from .models import Location, Person, Place, Traveler
class NameAdmin(admin.ModelAdmin):
list_display = ["name"]
save_on_top = True
class CustomSite(admin.AdminSite):
pass
class TestRegistration(SimpleTestCase):
def setUp(self):
self.site = admin.AdminSite()
def test_bare_registration(self):
self.site.register(Person)
self.assertIsInstance(self.site._registry[Person], admin.ModelAdmin)
self.site.unregister(Person)
self.assertEqual(self.site._registry, {})
def test_registration_with_model_admin(self):
self.site.register(Person, NameAdmin)
self.assertIsInstance(self.site._registry[Person], NameAdmin)
self.site.unregister(Person)
self.assertEqual(self.site._registry, {})
def test_prevent_double_registration(self):
self.site.register(Person)
msg = "The model Person is already registered in app 'admin_registration'."
with self.assertRaisesMessage(admin.sites.AlreadyRegistered, msg):
self.site.register(Person)
def test_prevent_double_registration_for_custom_admin(self):
class PersonAdmin(admin.ModelAdmin):
pass
self.site.register(Person, PersonAdmin)
msg = (
"The model Person is already registered with "
"'admin_registration.PersonAdmin'."
)
with self.assertRaisesMessage(admin.sites.AlreadyRegistered, msg):
self.site.register(Person, PersonAdmin)
def test_unregister_unregistered_model(self):
msg = "The model Person is not registered"
with self.assertRaisesMessage(admin.sites.NotRegistered, msg):
self.site.unregister(Person)
def test_registration_with_star_star_options(self):
self.site.register(Person, search_fields=["name"])
self.assertEqual(self.site._registry[Person].search_fields, ["name"])
def test_star_star_overrides(self):
self.site.register(
Person, NameAdmin, search_fields=["name"], list_display=["__str__"]
)
self.assertEqual(self.site._registry[Person].search_fields, ["name"])
self.assertEqual(self.site._registry[Person].list_display, ["__str__"])
self.assertTrue(self.site._registry[Person].save_on_top)
def test_iterable_registration(self):
self.site.register([Person, Place], search_fields=["name"])
self.assertIsInstance(self.site._registry[Person], admin.ModelAdmin)
self.assertEqual(self.site._registry[Person].search_fields, ["name"])
self.assertIsInstance(self.site._registry[Place], admin.ModelAdmin)
self.assertEqual(self.site._registry[Place].search_fields, ["name"])
self.site.unregister([Person, Place])
self.assertEqual(self.site._registry, {})
def test_abstract_model(self):
"""
Exception is raised when trying to register an abstract model.
Refs #12004.
"""
msg = "The model Location is abstract, so it cannot be registered with admin."
with self.assertRaisesMessage(ImproperlyConfigured, msg):
self.site.register(Location)
def test_is_registered_model(self):
"Checks for registered models should return true."
self.site.register(Person)
self.assertTrue(self.site.is_registered(Person))
def test_is_registered_not_registered_model(self):
"Checks for unregistered models should return false."
self.assertFalse(self.site.is_registered(Person))
class TestRegistrationDecorator(SimpleTestCase):
"""
Tests the register decorator in admin.decorators
For clarity:
@register(Person)
class AuthorAdmin(ModelAdmin):
pass
is functionally equal to (the way it is written in these tests):
AuthorAdmin = register(Person)(AuthorAdmin)
"""
def setUp(self):
self.default_site = site
self.custom_site = CustomSite()
def test_basic_registration(self):
register(Person)(NameAdmin)
self.assertIsInstance(self.default_site._registry[Person], admin.ModelAdmin)
self.default_site.unregister(Person)
def test_custom_site_registration(self):
register(Person, site=self.custom_site)(NameAdmin)
self.assertIsInstance(self.custom_site._registry[Person], admin.ModelAdmin)
def test_multiple_registration(self):
register(Traveler, Place)(NameAdmin)
self.assertIsInstance(self.default_site._registry[Traveler], admin.ModelAdmin)
self.default_site.unregister(Traveler)
self.assertIsInstance(self.default_site._registry[Place], admin.ModelAdmin)
self.default_site.unregister(Place)
def test_wrapped_class_not_a_model_admin(self):
with self.assertRaisesMessage(
ValueError, "Wrapped class must subclass ModelAdmin."
):
register(Person)(CustomSite)
def test_custom_site_not_an_admin_site(self):
with self.assertRaisesMessage(ValueError, "site must subclass AdminSite"):
register(Person, site=Traveler)(NameAdmin)
def test_empty_models_list_registration_fails(self):
with self.assertRaisesMessage(
ValueError, "At least one model must be passed to register."
):
register()(NameAdmin)
|
3f1b63f19b820ac87e5bb41433406547fb20baca2be09ad0675f8e026056459a | from operator import attrgetter
from django.db import models
from django.test import SimpleTestCase, TestCase
from django.test.utils import isolate_apps
from .base_tests import BaseOrderWithRespectToTests
from .models import Answer, Dimension, Entity, Post, Question
class OrderWithRespectToBaseTests(BaseOrderWithRespectToTests, TestCase):
Answer = Answer
Post = Post
Question = Question
class OrderWithRespectToTests(SimpleTestCase):
@isolate_apps("order_with_respect_to")
def test_duplicate_order_field(self):
class Bar(models.Model):
class Meta:
app_label = "order_with_respect_to"
class Foo(models.Model):
bar = models.ForeignKey(Bar, models.CASCADE)
order = models.OrderWrt()
class Meta:
order_with_respect_to = "bar"
app_label = "order_with_respect_to"
count = 0
for field in Foo._meta.local_fields:
if isinstance(field, models.OrderWrt):
count += 1
self.assertEqual(count, 1)
class TestOrderWithRespectToOneToOnePK(TestCase):
def test_set_order(self):
e = Entity.objects.create()
d = Dimension.objects.create(entity=e)
c1 = d.component_set.create()
c2 = d.component_set.create()
d.set_component_order([c1.id, c2.id])
self.assertQuerysetEqual(
d.component_set.all(), [c1.id, c2.id], attrgetter("pk")
)
|
2aa1ce2b03f1e9f2a176cf9c15cdc6de6f37e65bf03c1981f5da28de256b9d0f | """
Tests for the order_with_respect_to Meta attribute.
"""
from django.db import models
class Question(models.Model):
text = models.CharField(max_length=200)
class Answer(models.Model):
text = models.CharField(max_length=200)
question = models.ForeignKey(Question, models.CASCADE)
class Meta:
order_with_respect_to = "question"
def __str__(self):
return self.text
class Post(models.Model):
title = models.CharField(max_length=200)
parent = models.ForeignKey(
"self", models.SET_NULL, related_name="children", null=True
)
class Meta:
order_with_respect_to = "parent"
def __str__(self):
return self.title
# order_with_respect_to points to a model with a OneToOneField primary key.
class Entity(models.Model):
pass
class Dimension(models.Model):
entity = models.OneToOneField("Entity", primary_key=True, on_delete=models.CASCADE)
class Component(models.Model):
dimension = models.ForeignKey("Dimension", on_delete=models.CASCADE)
class Meta:
order_with_respect_to = "dimension"
|
2b9d3c08544eb298a9a23d4ef58c80a4e189eaf542a430cb8c730469dd8bd035 | """
The tests are shared with contenttypes_tests and so shouldn't import or
reference any models directly. Subclasses should inherit django.test.TestCase.
"""
from operator import attrgetter
class BaseOrderWithRespectToTests:
databases = {"default", "other"}
# Hook to allow subclasses to run these tests with alternate models.
Answer = None
Post = None
Question = None
@classmethod
def setUpTestData(cls):
cls.q1 = cls.Question.objects.create(
text="Which Beatle starts with the letter 'R'?"
)
cls.Answer.objects.create(text="John", question=cls.q1)
cls.Answer.objects.create(text="Paul", question=cls.q1)
cls.Answer.objects.create(text="George", question=cls.q1)
cls.Answer.objects.create(text="Ringo", question=cls.q1)
def test_default_to_insertion_order(self):
# Answers will always be ordered in the order they were inserted.
self.assertQuerysetEqual(
self.q1.answer_set.all(),
[
"John",
"Paul",
"George",
"Ringo",
],
attrgetter("text"),
)
def test_previous_and_next_in_order(self):
# We can retrieve the answers related to a particular object, in the
# order they were created, once we have a particular object.
a1 = self.q1.answer_set.all()[0]
self.assertEqual(a1.text, "John")
self.assertEqual(a1.get_next_in_order().text, "Paul")
a2 = list(self.q1.answer_set.all())[-1]
self.assertEqual(a2.text, "Ringo")
self.assertEqual(a2.get_previous_in_order().text, "George")
def test_item_ordering(self):
# We can retrieve the ordering of the queryset from a particular item.
a1 = self.q1.answer_set.all()[1]
id_list = [o.pk for o in self.q1.answer_set.all()]
self.assertSequenceEqual(a1.question.get_answer_order(), id_list)
# It doesn't matter which answer we use to check the order, it will
# always be the same.
a2 = self.Answer.objects.create(text="Number five", question=self.q1)
self.assertEqual(
list(a1.question.get_answer_order()), list(a2.question.get_answer_order())
)
def test_set_order_unrelated_object(self):
"""An answer that's not related isn't updated."""
q = self.Question.objects.create(text="other")
a = self.Answer.objects.create(text="Number five", question=q)
self.q1.set_answer_order([o.pk for o in self.q1.answer_set.all()] + [a.pk])
self.assertEqual(self.Answer.objects.get(pk=a.pk)._order, 0)
def test_change_ordering(self):
# The ordering can be altered
a = self.Answer.objects.create(text="Number five", question=self.q1)
# Swap the last two items in the order list
id_list = [o.pk for o in self.q1.answer_set.all()]
x = id_list.pop()
id_list.insert(-1, x)
# By default, the ordering is different from the swapped version
self.assertNotEqual(list(a.question.get_answer_order()), id_list)
# Change the ordering to the swapped version -
# this changes the ordering of the queryset.
a.question.set_answer_order(id_list)
self.assertQuerysetEqual(
self.q1.answer_set.all(),
["John", "Paul", "George", "Number five", "Ringo"],
attrgetter("text"),
)
def test_recursive_ordering(self):
p1 = self.Post.objects.create(title="1")
p2 = self.Post.objects.create(title="2")
p1_1 = self.Post.objects.create(title="1.1", parent=p1)
p1_2 = self.Post.objects.create(title="1.2", parent=p1)
self.Post.objects.create(title="2.1", parent=p2)
p1_3 = self.Post.objects.create(title="1.3", parent=p1)
self.assertSequenceEqual(p1.get_post_order(), [p1_1.pk, p1_2.pk, p1_3.pk])
def test_delete_and_insert(self):
q1 = self.Question.objects.create(text="What is your favorite color?")
q2 = self.Question.objects.create(text="What color is it?")
a1 = self.Answer.objects.create(text="Blue", question=q1)
a2 = self.Answer.objects.create(text="Red", question=q1)
a3 = self.Answer.objects.create(text="Green", question=q1)
a4 = self.Answer.objects.create(text="Yellow", question=q1)
self.assertSequenceEqual(q1.answer_set.all(), [a1, a2, a3, a4])
a3.question = q2
a3.save()
a1.delete()
new_answer = self.Answer.objects.create(text="Black", question=q1)
self.assertSequenceEqual(q1.answer_set.all(), [a2, a4, new_answer])
def test_database_routing(self):
class WriteToOtherRouter:
def db_for_write(self, model, **hints):
return "other"
with self.settings(DATABASE_ROUTERS=[WriteToOtherRouter()]):
with self.assertNumQueries(0, using="default"), self.assertNumQueries(
1,
using="other",
):
self.q1.set_answer_order([3, 1, 2, 4])
|
1019a54992cd5ad440cc3d360749ff2c2fbd2b70623360f34074ed713c46e29b | from django.db import DEFAULT_DB_ALIAS
class TestRouter:
"""
Vaguely behave like primary/replica, but the databases aren't assumed to
propagate changes.
"""
def db_for_read(self, model, instance=None, **hints):
if instance:
return instance._state.db or "other"
return "other"
def db_for_write(self, model, **hints):
return DEFAULT_DB_ALIAS
def allow_relation(self, obj1, obj2, **hints):
return obj1._state.db in ("default", "other") and obj2._state.db in (
"default",
"other",
)
def allow_migrate(self, db, app_label, **hints):
return True
class AuthRouter:
"""
Control all database operations on models in the contrib.auth application.
"""
def db_for_read(self, model, **hints):
"Point all read operations on auth models to 'default'"
if model._meta.app_label == "auth":
# We use default here to ensure we can tell the difference
# between a read request and a write request for Auth objects
return "default"
return None
def db_for_write(self, model, **hints):
"Point all operations on auth models to 'other'"
if model._meta.app_label == "auth":
return "other"
return None
def allow_relation(self, obj1, obj2, **hints):
"Allow any relation if a model in Auth is involved"
return obj1._meta.app_label == "auth" or obj2._meta.app_label == "auth" or None
def allow_migrate(self, db, app_label, **hints):
"Make sure the auth app only appears on the 'other' db"
if app_label == "auth":
return db == "other"
return None
class WriteRouter:
# A router that only expresses an opinion on writes
def db_for_write(self, model, **hints):
return "writer"
|
a3da2fb114198ac531de3e60d665c3bb2b0e7d09668b481a5cb80450568f2731 | import datetime
import pickle
from io import StringIO
from operator import attrgetter
from unittest.mock import Mock
from django.contrib.auth.models import User
from django.contrib.contenttypes.models import ContentType
from django.core import management
from django.db import DEFAULT_DB_ALIAS, router, transaction
from django.db.models import signals
from django.db.utils import ConnectionRouter
from django.test import SimpleTestCase, TestCase, override_settings
from .models import Book, Person, Pet, Review, UserProfile
from .routers import AuthRouter, TestRouter, WriteRouter
class QueryTestCase(TestCase):
databases = {"default", "other"}
def test_db_selection(self):
"Querysets will use the default database by default"
self.assertEqual(Book.objects.db, DEFAULT_DB_ALIAS)
self.assertEqual(Book.objects.all().db, DEFAULT_DB_ALIAS)
self.assertEqual(Book.objects.using("other").db, "other")
self.assertEqual(Book.objects.db_manager("other").db, "other")
self.assertEqual(Book.objects.db_manager("other").all().db, "other")
def test_default_creation(self):
"Objects created on the default database don't leak onto other databases"
# Create a book on the default database using create()
Book.objects.create(title="Pro Django", published=datetime.date(2008, 12, 16))
# Create a book on the default database using a save
dive = Book()
dive.title = "Dive into Python"
dive.published = datetime.date(2009, 5, 4)
dive.save()
# Book exists on the default database, but not on other database
try:
Book.objects.get(title="Pro Django")
Book.objects.using("default").get(title="Pro Django")
except Book.DoesNotExist:
self.fail('"Pro Django" should exist on default database')
with self.assertRaises(Book.DoesNotExist):
Book.objects.using("other").get(title="Pro Django")
try:
Book.objects.get(title="Dive into Python")
Book.objects.using("default").get(title="Dive into Python")
except Book.DoesNotExist:
self.fail('"Dive into Python" should exist on default database')
with self.assertRaises(Book.DoesNotExist):
Book.objects.using("other").get(title="Dive into Python")
def test_other_creation(self):
"Objects created on another database don't leak onto the default database"
# Create a book on the second database
Book.objects.using("other").create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
# Create a book on the default database using a save
dive = Book()
dive.title = "Dive into Python"
dive.published = datetime.date(2009, 5, 4)
dive.save(using="other")
# Book exists on the default database, but not on other database
try:
Book.objects.using("other").get(title="Pro Django")
except Book.DoesNotExist:
self.fail('"Pro Django" should exist on other database')
with self.assertRaises(Book.DoesNotExist):
Book.objects.get(title="Pro Django")
with self.assertRaises(Book.DoesNotExist):
Book.objects.using("default").get(title="Pro Django")
try:
Book.objects.using("other").get(title="Dive into Python")
except Book.DoesNotExist:
self.fail('"Dive into Python" should exist on other database')
with self.assertRaises(Book.DoesNotExist):
Book.objects.get(title="Dive into Python")
with self.assertRaises(Book.DoesNotExist):
Book.objects.using("default").get(title="Dive into Python")
def test_refresh(self):
dive = Book(title="Dive into Python", published=datetime.date(2009, 5, 4))
dive.save(using="other")
dive2 = Book.objects.using("other").get()
dive2.title = "Dive into Python (on default)"
dive2.save(using="default")
dive.refresh_from_db()
self.assertEqual(dive.title, "Dive into Python")
dive.refresh_from_db(using="default")
self.assertEqual(dive.title, "Dive into Python (on default)")
self.assertEqual(dive._state.db, "default")
def test_refresh_router_instance_hint(self):
router = Mock()
router.db_for_read.return_value = None
book = Book.objects.create(
title="Dive Into Python", published=datetime.date(1957, 10, 12)
)
with self.settings(DATABASE_ROUTERS=[router]):
book.refresh_from_db()
router.db_for_read.assert_called_once_with(Book, instance=book)
def test_basic_queries(self):
"Queries are constrained to a single database"
dive = Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
dive = Book.objects.using("other").get(published=datetime.date(2009, 5, 4))
self.assertEqual(dive.title, "Dive into Python")
with self.assertRaises(Book.DoesNotExist):
Book.objects.using("default").get(published=datetime.date(2009, 5, 4))
dive = Book.objects.using("other").get(title__icontains="dive")
self.assertEqual(dive.title, "Dive into Python")
with self.assertRaises(Book.DoesNotExist):
Book.objects.using("default").get(title__icontains="dive")
dive = Book.objects.using("other").get(title__iexact="dive INTO python")
self.assertEqual(dive.title, "Dive into Python")
with self.assertRaises(Book.DoesNotExist):
Book.objects.using("default").get(title__iexact="dive INTO python")
dive = Book.objects.using("other").get(published__year=2009)
self.assertEqual(dive.title, "Dive into Python")
self.assertEqual(dive.published, datetime.date(2009, 5, 4))
with self.assertRaises(Book.DoesNotExist):
Book.objects.using("default").get(published__year=2009)
years = Book.objects.using("other").dates("published", "year")
self.assertEqual([o.year for o in years], [2009])
years = Book.objects.using("default").dates("published", "year")
self.assertEqual([o.year for o in years], [])
months = Book.objects.using("other").dates("published", "month")
self.assertEqual([o.month for o in months], [5])
months = Book.objects.using("default").dates("published", "month")
self.assertEqual([o.month for o in months], [])
def test_m2m_separation(self):
"M2M fields are constrained to a single database"
# Create a book and author on the default database
pro = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
marty = Person.objects.create(name="Marty Alchin")
# Create a book and author on the other database
dive = Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
mark = Person.objects.using("other").create(name="Mark Pilgrim")
# Save the author relations
pro.authors.set([marty])
dive.authors.set([mark])
# Inspect the m2m tables directly.
# There should be 1 entry in each database
self.assertEqual(Book.authors.through.objects.using("default").count(), 1)
self.assertEqual(Book.authors.through.objects.using("other").count(), 1)
# Queries work across m2m joins
self.assertEqual(
list(
Book.objects.using("default")
.filter(authors__name="Marty Alchin")
.values_list("title", flat=True)
),
["Pro Django"],
)
self.assertEqual(
list(
Book.objects.using("other")
.filter(authors__name="Marty Alchin")
.values_list("title", flat=True)
),
[],
)
self.assertEqual(
list(
Book.objects.using("default")
.filter(authors__name="Mark Pilgrim")
.values_list("title", flat=True)
),
[],
)
self.assertEqual(
list(
Book.objects.using("other")
.filter(authors__name="Mark Pilgrim")
.values_list("title", flat=True)
),
["Dive into Python"],
)
# Reget the objects to clear caches
dive = Book.objects.using("other").get(title="Dive into Python")
mark = Person.objects.using("other").get(name="Mark Pilgrim")
# Retrieve related object by descriptor. Related objects should be
# database-bound.
self.assertEqual(
list(dive.authors.values_list("name", flat=True)), ["Mark Pilgrim"]
)
self.assertEqual(
list(mark.book_set.values_list("title", flat=True)),
["Dive into Python"],
)
def test_m2m_forward_operations(self):
"M2M forward manipulations are all constrained to a single DB"
# Create a book and author on the other database
dive = Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
mark = Person.objects.using("other").create(name="Mark Pilgrim")
# Save the author relations
dive.authors.set([mark])
# Add a second author
john = Person.objects.using("other").create(name="John Smith")
self.assertEqual(
list(
Book.objects.using("other")
.filter(authors__name="John Smith")
.values_list("title", flat=True)
),
[],
)
dive.authors.add(john)
self.assertEqual(
list(
Book.objects.using("other")
.filter(authors__name="Mark Pilgrim")
.values_list("title", flat=True)
),
["Dive into Python"],
)
self.assertEqual(
list(
Book.objects.using("other")
.filter(authors__name="John Smith")
.values_list("title", flat=True)
),
["Dive into Python"],
)
# Remove the second author
dive.authors.remove(john)
self.assertEqual(
list(
Book.objects.using("other")
.filter(authors__name="Mark Pilgrim")
.values_list("title", flat=True)
),
["Dive into Python"],
)
self.assertEqual(
list(
Book.objects.using("other")
.filter(authors__name="John Smith")
.values_list("title", flat=True)
),
[],
)
# Clear all authors
dive.authors.clear()
self.assertEqual(
list(
Book.objects.using("other")
.filter(authors__name="Mark Pilgrim")
.values_list("title", flat=True)
),
[],
)
self.assertEqual(
list(
Book.objects.using("other")
.filter(authors__name="John Smith")
.values_list("title", flat=True)
),
[],
)
# Create an author through the m2m interface
dive.authors.create(name="Jane Brown")
self.assertEqual(
list(
Book.objects.using("other")
.filter(authors__name="Mark Pilgrim")
.values_list("title", flat=True)
),
[],
)
self.assertEqual(
list(
Book.objects.using("other")
.filter(authors__name="Jane Brown")
.values_list("title", flat=True)
),
["Dive into Python"],
)
def test_m2m_reverse_operations(self):
"M2M reverse manipulations are all constrained to a single DB"
# Create a book and author on the other database
dive = Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
mark = Person.objects.using("other").create(name="Mark Pilgrim")
# Save the author relations
dive.authors.set([mark])
# Create a second book on the other database
grease = Book.objects.using("other").create(
title="Greasemonkey Hacks", published=datetime.date(2005, 11, 1)
)
# Add a books to the m2m
mark.book_set.add(grease)
self.assertEqual(
list(
Person.objects.using("other")
.filter(book__title="Dive into Python")
.values_list("name", flat=True)
),
["Mark Pilgrim"],
)
self.assertEqual(
list(
Person.objects.using("other")
.filter(book__title="Greasemonkey Hacks")
.values_list("name", flat=True)
),
["Mark Pilgrim"],
)
# Remove a book from the m2m
mark.book_set.remove(grease)
self.assertEqual(
list(
Person.objects.using("other")
.filter(book__title="Dive into Python")
.values_list("name", flat=True)
),
["Mark Pilgrim"],
)
self.assertEqual(
list(
Person.objects.using("other")
.filter(book__title="Greasemonkey Hacks")
.values_list("name", flat=True)
),
[],
)
# Clear the books associated with mark
mark.book_set.clear()
self.assertEqual(
list(
Person.objects.using("other")
.filter(book__title="Dive into Python")
.values_list("name", flat=True)
),
[],
)
self.assertEqual(
list(
Person.objects.using("other")
.filter(book__title="Greasemonkey Hacks")
.values_list("name", flat=True)
),
[],
)
# Create a book through the m2m interface
mark.book_set.create(
title="Dive into HTML5", published=datetime.date(2020, 1, 1)
)
self.assertEqual(
list(
Person.objects.using("other")
.filter(book__title="Dive into Python")
.values_list("name", flat=True)
),
[],
)
self.assertEqual(
list(
Person.objects.using("other")
.filter(book__title="Dive into HTML5")
.values_list("name", flat=True)
),
["Mark Pilgrim"],
)
def test_m2m_cross_database_protection(self):
"Operations that involve sharing M2M objects across databases raise an error"
# Create a book and author on the default database
pro = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
marty = Person.objects.create(name="Marty Alchin")
# Create a book and author on the other database
dive = Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
mark = Person.objects.using("other").create(name="Mark Pilgrim")
# Set a foreign key set with an object from a different database
msg = (
'Cannot assign "<Person: Marty Alchin>": the current database '
"router prevents this relation."
)
with self.assertRaisesMessage(ValueError, msg):
with transaction.atomic(using="default"):
marty.edited.set([pro, dive])
# Add to an m2m with an object from a different database
msg = (
'Cannot add "<Book: Dive into Python>": instance is on '
'database "default", value is on database "other"'
)
with self.assertRaisesMessage(ValueError, msg):
with transaction.atomic(using="default"):
marty.book_set.add(dive)
# Set a m2m with an object from a different database
with self.assertRaisesMessage(ValueError, msg):
with transaction.atomic(using="default"):
marty.book_set.set([pro, dive])
# Add to a reverse m2m with an object from a different database
msg = (
'Cannot add "<Person: Marty Alchin>": instance is on '
'database "other", value is on database "default"'
)
with self.assertRaisesMessage(ValueError, msg):
with transaction.atomic(using="other"):
dive.authors.add(marty)
# Set a reverse m2m with an object from a different database
with self.assertRaisesMessage(ValueError, msg):
with transaction.atomic(using="other"):
dive.authors.set([mark, marty])
def test_m2m_deletion(self):
"Cascaded deletions of m2m relations issue queries on the right database"
# Create a book and author on the other database
dive = Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
mark = Person.objects.using("other").create(name="Mark Pilgrim")
dive.authors.set([mark])
# Check the initial state
self.assertEqual(Person.objects.using("default").count(), 0)
self.assertEqual(Book.objects.using("default").count(), 0)
self.assertEqual(Book.authors.through.objects.using("default").count(), 0)
self.assertEqual(Person.objects.using("other").count(), 1)
self.assertEqual(Book.objects.using("other").count(), 1)
self.assertEqual(Book.authors.through.objects.using("other").count(), 1)
# Delete the object on the other database
dive.delete(using="other")
self.assertEqual(Person.objects.using("default").count(), 0)
self.assertEqual(Book.objects.using("default").count(), 0)
self.assertEqual(Book.authors.through.objects.using("default").count(), 0)
# The person still exists ...
self.assertEqual(Person.objects.using("other").count(), 1)
# ... but the book has been deleted
self.assertEqual(Book.objects.using("other").count(), 0)
# ... and the relationship object has also been deleted.
self.assertEqual(Book.authors.through.objects.using("other").count(), 0)
# Now try deletion in the reverse direction. Set up the relation again
dive = Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
dive.authors.set([mark])
# Check the initial state
self.assertEqual(Person.objects.using("default").count(), 0)
self.assertEqual(Book.objects.using("default").count(), 0)
self.assertEqual(Book.authors.through.objects.using("default").count(), 0)
self.assertEqual(Person.objects.using("other").count(), 1)
self.assertEqual(Book.objects.using("other").count(), 1)
self.assertEqual(Book.authors.through.objects.using("other").count(), 1)
# Delete the object on the other database
mark.delete(using="other")
self.assertEqual(Person.objects.using("default").count(), 0)
self.assertEqual(Book.objects.using("default").count(), 0)
self.assertEqual(Book.authors.through.objects.using("default").count(), 0)
# The person has been deleted ...
self.assertEqual(Person.objects.using("other").count(), 0)
# ... but the book still exists
self.assertEqual(Book.objects.using("other").count(), 1)
# ... and the relationship object has been deleted.
self.assertEqual(Book.authors.through.objects.using("other").count(), 0)
def test_foreign_key_separation(self):
"FK fields are constrained to a single database"
# Create a book and author on the default database
pro = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
george = Person.objects.create(name="George Vilches")
# Create a book and author on the other database
dive = Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
chris = Person.objects.using("other").create(name="Chris Mills")
# Save the author's favorite books
pro.editor = george
pro.save()
dive.editor = chris
dive.save()
pro = Book.objects.using("default").get(title="Pro Django")
self.assertEqual(pro.editor.name, "George Vilches")
dive = Book.objects.using("other").get(title="Dive into Python")
self.assertEqual(dive.editor.name, "Chris Mills")
# Queries work across foreign key joins
self.assertEqual(
list(
Person.objects.using("default")
.filter(edited__title="Pro Django")
.values_list("name", flat=True)
),
["George Vilches"],
)
self.assertEqual(
list(
Person.objects.using("other")
.filter(edited__title="Pro Django")
.values_list("name", flat=True)
),
[],
)
self.assertEqual(
list(
Person.objects.using("default")
.filter(edited__title="Dive into Python")
.values_list("name", flat=True)
),
[],
)
self.assertEqual(
list(
Person.objects.using("other")
.filter(edited__title="Dive into Python")
.values_list("name", flat=True)
),
["Chris Mills"],
)
# Reget the objects to clear caches
chris = Person.objects.using("other").get(name="Chris Mills")
dive = Book.objects.using("other").get(title="Dive into Python")
# Retrieve related object by descriptor. Related objects should be
# database-bound.
self.assertEqual(
list(chris.edited.values_list("title", flat=True)), ["Dive into Python"]
)
def test_foreign_key_reverse_operations(self):
"FK reverse manipulations are all constrained to a single DB"
dive = Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
chris = Person.objects.using("other").create(name="Chris Mills")
# Save the author relations
dive.editor = chris
dive.save()
# Add a second book edited by chris
html5 = Book.objects.using("other").create(
title="Dive into HTML5", published=datetime.date(2010, 3, 15)
)
self.assertEqual(
list(
Person.objects.using("other")
.filter(edited__title="Dive into HTML5")
.values_list("name", flat=True)
),
[],
)
chris.edited.add(html5)
self.assertEqual(
list(
Person.objects.using("other")
.filter(edited__title="Dive into HTML5")
.values_list("name", flat=True)
),
["Chris Mills"],
)
self.assertEqual(
list(
Person.objects.using("other")
.filter(edited__title="Dive into Python")
.values_list("name", flat=True)
),
["Chris Mills"],
)
# Remove the second editor
chris.edited.remove(html5)
self.assertEqual(
list(
Person.objects.using("other")
.filter(edited__title="Dive into HTML5")
.values_list("name", flat=True)
),
[],
)
self.assertEqual(
list(
Person.objects.using("other")
.filter(edited__title="Dive into Python")
.values_list("name", flat=True)
),
["Chris Mills"],
)
# Clear all edited books
chris.edited.clear()
self.assertEqual(
list(
Person.objects.using("other")
.filter(edited__title="Dive into HTML5")
.values_list("name", flat=True)
),
[],
)
self.assertEqual(
list(
Person.objects.using("other")
.filter(edited__title="Dive into Python")
.values_list("name", flat=True)
),
[],
)
# Create an author through the m2m interface
chris.edited.create(
title="Dive into Water", published=datetime.date(2010, 3, 15)
)
self.assertEqual(
list(
Person.objects.using("other")
.filter(edited__title="Dive into HTML5")
.values_list("name", flat=True)
),
[],
)
self.assertEqual(
list(
Person.objects.using("other")
.filter(edited__title="Dive into Water")
.values_list("name", flat=True)
),
["Chris Mills"],
)
self.assertEqual(
list(
Person.objects.using("other")
.filter(edited__title="Dive into Python")
.values_list("name", flat=True)
),
[],
)
def test_foreign_key_cross_database_protection(self):
"Operations that involve sharing FK objects across databases raise an error"
# Create a book and author on the default database
pro = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
marty = Person.objects.create(name="Marty Alchin")
# Create a book and author on the other database
dive = Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
# Set a foreign key with an object from a different database
msg = (
'Cannot assign "<Person: Marty Alchin>": the current database '
"router prevents this relation."
)
with self.assertRaisesMessage(ValueError, msg):
dive.editor = marty
# Set a foreign key set with an object from a different database
with self.assertRaisesMessage(ValueError, msg):
with transaction.atomic(using="default"):
marty.edited.set([pro, dive])
# Add to a foreign key set with an object from a different database
with self.assertRaisesMessage(ValueError, msg):
with transaction.atomic(using="default"):
marty.edited.add(dive)
def test_foreign_key_deletion(self):
"""
Cascaded deletions of Foreign Key relations issue queries on the right
database.
"""
mark = Person.objects.using("other").create(name="Mark Pilgrim")
Pet.objects.using("other").create(name="Fido", owner=mark)
# Check the initial state
self.assertEqual(Person.objects.using("default").count(), 0)
self.assertEqual(Pet.objects.using("default").count(), 0)
self.assertEqual(Person.objects.using("other").count(), 1)
self.assertEqual(Pet.objects.using("other").count(), 1)
# Delete the person object, which will cascade onto the pet
mark.delete(using="other")
self.assertEqual(Person.objects.using("default").count(), 0)
self.assertEqual(Pet.objects.using("default").count(), 0)
# Both the pet and the person have been deleted from the right database
self.assertEqual(Person.objects.using("other").count(), 0)
self.assertEqual(Pet.objects.using("other").count(), 0)
def test_foreign_key_validation(self):
"ForeignKey.validate() uses the correct database"
mickey = Person.objects.using("other").create(name="Mickey")
pluto = Pet.objects.using("other").create(name="Pluto", owner=mickey)
self.assertIsNone(pluto.full_clean())
# Any router that accesses `model` in db_for_read() works here.
@override_settings(DATABASE_ROUTERS=[AuthRouter()])
def test_foreign_key_validation_with_router(self):
"""
ForeignKey.validate() passes `model` to db_for_read() even if
model_instance=None.
"""
mickey = Person.objects.create(name="Mickey")
owner_field = Pet._meta.get_field("owner")
self.assertEqual(owner_field.clean(mickey.pk, None), mickey.pk)
def test_o2o_separation(self):
"OneToOne fields are constrained to a single database"
# Create a user and profile on the default database
alice = User.objects.db_manager("default").create_user(
"alice", "[email protected]"
)
alice_profile = UserProfile.objects.using("default").create(
user=alice, flavor="chocolate"
)
# Create a user and profile on the other database
bob = User.objects.db_manager("other").create_user("bob", "[email protected]")
bob_profile = UserProfile.objects.using("other").create(
user=bob, flavor="crunchy frog"
)
# Retrieve related objects; queries should be database constrained
alice = User.objects.using("default").get(username="alice")
self.assertEqual(alice.userprofile.flavor, "chocolate")
bob = User.objects.using("other").get(username="bob")
self.assertEqual(bob.userprofile.flavor, "crunchy frog")
# Queries work across joins
self.assertEqual(
list(
User.objects.using("default")
.filter(userprofile__flavor="chocolate")
.values_list("username", flat=True)
),
["alice"],
)
self.assertEqual(
list(
User.objects.using("other")
.filter(userprofile__flavor="chocolate")
.values_list("username", flat=True)
),
[],
)
self.assertEqual(
list(
User.objects.using("default")
.filter(userprofile__flavor="crunchy frog")
.values_list("username", flat=True)
),
[],
)
self.assertEqual(
list(
User.objects.using("other")
.filter(userprofile__flavor="crunchy frog")
.values_list("username", flat=True)
),
["bob"],
)
# Reget the objects to clear caches
alice_profile = UserProfile.objects.using("default").get(flavor="chocolate")
bob_profile = UserProfile.objects.using("other").get(flavor="crunchy frog")
# Retrieve related object by descriptor. Related objects should be
# database-bound.
self.assertEqual(alice_profile.user.username, "alice")
self.assertEqual(bob_profile.user.username, "bob")
def test_o2o_cross_database_protection(self):
"Operations that involve sharing FK objects across databases raise an error"
# Create a user and profile on the default database
alice = User.objects.db_manager("default").create_user(
"alice", "[email protected]"
)
# Create a user and profile on the other database
bob = User.objects.db_manager("other").create_user("bob", "[email protected]")
# Set a one-to-one relation with an object from a different database
alice_profile = UserProfile.objects.using("default").create(
user=alice, flavor="chocolate"
)
msg = (
'Cannot assign "%r": the current database router prevents this '
"relation." % alice_profile
)
with self.assertRaisesMessage(ValueError, msg):
bob.userprofile = alice_profile
# BUT! if you assign a FK object when the base object hasn't
# been saved yet, you implicitly assign the database for the
# base object.
bob_profile = UserProfile.objects.using("other").create(
user=bob, flavor="crunchy frog"
)
new_bob_profile = UserProfile(flavor="spring surprise")
# assigning a profile requires an explicit pk as the object isn't saved
charlie = User(pk=51, username="charlie", email="[email protected]")
charlie.set_unusable_password()
# initially, no db assigned
self.assertIsNone(new_bob_profile._state.db)
self.assertIsNone(charlie._state.db)
# old object comes from 'other', so the new object is set to use 'other'...
new_bob_profile.user = bob
charlie.userprofile = bob_profile
self.assertEqual(new_bob_profile._state.db, "other")
self.assertEqual(charlie._state.db, "other")
# ... but it isn't saved yet
self.assertEqual(
list(User.objects.using("other").values_list("username", flat=True)),
["bob"],
)
self.assertEqual(
list(UserProfile.objects.using("other").values_list("flavor", flat=True)),
["crunchy frog"],
)
# When saved (no using required), new objects goes to 'other'
charlie.save()
bob_profile.save()
new_bob_profile.save()
self.assertEqual(
list(User.objects.using("default").values_list("username", flat=True)),
["alice"],
)
self.assertEqual(
list(User.objects.using("other").values_list("username", flat=True)),
["bob", "charlie"],
)
self.assertEqual(
list(UserProfile.objects.using("default").values_list("flavor", flat=True)),
["chocolate"],
)
self.assertEqual(
list(UserProfile.objects.using("other").values_list("flavor", flat=True)),
["crunchy frog", "spring surprise"],
)
# This also works if you assign the O2O relation in the constructor
denise = User.objects.db_manager("other").create_user(
"denise", "[email protected]"
)
denise_profile = UserProfile(flavor="tofu", user=denise)
self.assertEqual(denise_profile._state.db, "other")
# ... but it isn't saved yet
self.assertEqual(
list(UserProfile.objects.using("default").values_list("flavor", flat=True)),
["chocolate"],
)
self.assertEqual(
list(UserProfile.objects.using("other").values_list("flavor", flat=True)),
["crunchy frog", "spring surprise"],
)
# When saved, the new profile goes to 'other'
denise_profile.save()
self.assertEqual(
list(UserProfile.objects.using("default").values_list("flavor", flat=True)),
["chocolate"],
)
self.assertEqual(
list(UserProfile.objects.using("other").values_list("flavor", flat=True)),
["crunchy frog", "spring surprise", "tofu"],
)
def test_generic_key_separation(self):
"Generic fields are constrained to a single database"
# Create a book and author on the default database
pro = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
review1 = Review.objects.create(source="Python Monthly", content_object=pro)
# Create a book and author on the other database
dive = Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
review2 = Review.objects.using("other").create(
source="Python Weekly", content_object=dive
)
review1 = Review.objects.using("default").get(source="Python Monthly")
self.assertEqual(review1.content_object.title, "Pro Django")
review2 = Review.objects.using("other").get(source="Python Weekly")
self.assertEqual(review2.content_object.title, "Dive into Python")
# Reget the objects to clear caches
dive = Book.objects.using("other").get(title="Dive into Python")
# Retrieve related object by descriptor. Related objects should be
# database-bound.
self.assertEqual(
list(dive.reviews.values_list("source", flat=True)), ["Python Weekly"]
)
def test_generic_key_reverse_operations(self):
"Generic reverse manipulations are all constrained to a single DB"
dive = Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
temp = Book.objects.using("other").create(
title="Temp", published=datetime.date(2009, 5, 4)
)
review1 = Review.objects.using("other").create(
source="Python Weekly", content_object=dive
)
review2 = Review.objects.using("other").create(
source="Python Monthly", content_object=temp
)
self.assertEqual(
list(
Review.objects.using("default")
.filter(object_id=dive.pk)
.values_list("source", flat=True)
),
[],
)
self.assertEqual(
list(
Review.objects.using("other")
.filter(object_id=dive.pk)
.values_list("source", flat=True)
),
["Python Weekly"],
)
# Add a second review
dive.reviews.add(review2)
self.assertEqual(
list(
Review.objects.using("default")
.filter(object_id=dive.pk)
.values_list("source", flat=True)
),
[],
)
self.assertEqual(
list(
Review.objects.using("other")
.filter(object_id=dive.pk)
.values_list("source", flat=True)
),
["Python Monthly", "Python Weekly"],
)
# Remove the second author
dive.reviews.remove(review1)
self.assertEqual(
list(
Review.objects.using("default")
.filter(object_id=dive.pk)
.values_list("source", flat=True)
),
[],
)
self.assertEqual(
list(
Review.objects.using("other")
.filter(object_id=dive.pk)
.values_list("source", flat=True)
),
["Python Monthly"],
)
# Clear all reviews
dive.reviews.clear()
self.assertEqual(
list(
Review.objects.using("default")
.filter(object_id=dive.pk)
.values_list("source", flat=True)
),
[],
)
self.assertEqual(
list(
Review.objects.using("other")
.filter(object_id=dive.pk)
.values_list("source", flat=True)
),
[],
)
# Create an author through the generic interface
dive.reviews.create(source="Python Daily")
self.assertEqual(
list(
Review.objects.using("default")
.filter(object_id=dive.pk)
.values_list("source", flat=True)
),
[],
)
self.assertEqual(
list(
Review.objects.using("other")
.filter(object_id=dive.pk)
.values_list("source", flat=True)
),
["Python Daily"],
)
def test_generic_key_cross_database_protection(self):
"""
Operations that involve sharing generic key objects across databases
raise an error.
"""
# Create a book and author on the default database
pro = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
review1 = Review.objects.create(source="Python Monthly", content_object=pro)
# Create a book and author on the other database
dive = Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
Review.objects.using("other").create(
source="Python Weekly", content_object=dive
)
# Set a foreign key with an object from a different database
msg = (
'Cannot assign "<ContentType: multiple_database | book>": the '
"current database router prevents this relation."
)
with self.assertRaisesMessage(ValueError, msg):
review1.content_object = dive
# Add to a foreign key set with an object from a different database
msg = (
"<Review: Python Monthly> instance isn't saved. "
"Use bulk=False or save the object first."
)
with self.assertRaisesMessage(ValueError, msg):
with transaction.atomic(using="other"):
dive.reviews.add(review1)
# BUT! if you assign a FK object when the base object hasn't
# been saved yet, you implicitly assign the database for the
# base object.
review3 = Review(source="Python Daily")
# initially, no db assigned
self.assertIsNone(review3._state.db)
# Dive comes from 'other', so review3 is set to use 'other'...
review3.content_object = dive
self.assertEqual(review3._state.db, "other")
# ... but it isn't saved yet
self.assertEqual(
list(
Review.objects.using("default")
.filter(object_id=pro.pk)
.values_list("source", flat=True)
),
["Python Monthly"],
)
self.assertEqual(
list(
Review.objects.using("other")
.filter(object_id=dive.pk)
.values_list("source", flat=True)
),
["Python Weekly"],
)
# When saved, John goes to 'other'
review3.save()
self.assertEqual(
list(
Review.objects.using("default")
.filter(object_id=pro.pk)
.values_list("source", flat=True)
),
["Python Monthly"],
)
self.assertEqual(
list(
Review.objects.using("other")
.filter(object_id=dive.pk)
.values_list("source", flat=True)
),
["Python Daily", "Python Weekly"],
)
def test_generic_key_deletion(self):
"""
Cascaded deletions of Generic Key relations issue queries on the right
database.
"""
dive = Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
Review.objects.using("other").create(
source="Python Weekly", content_object=dive
)
# Check the initial state
self.assertEqual(Book.objects.using("default").count(), 0)
self.assertEqual(Review.objects.using("default").count(), 0)
self.assertEqual(Book.objects.using("other").count(), 1)
self.assertEqual(Review.objects.using("other").count(), 1)
# Delete the Book object, which will cascade onto the pet
dive.delete(using="other")
self.assertEqual(Book.objects.using("default").count(), 0)
self.assertEqual(Review.objects.using("default").count(), 0)
# Both the pet and the person have been deleted from the right database
self.assertEqual(Book.objects.using("other").count(), 0)
self.assertEqual(Review.objects.using("other").count(), 0)
def test_ordering(self):
"get_next_by_XXX commands stick to a single database"
Book.objects.create(title="Pro Django", published=datetime.date(2008, 12, 16))
dive = Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
learn = Book.objects.using("other").create(
title="Learning Python", published=datetime.date(2008, 7, 16)
)
self.assertEqual(learn.get_next_by_published().title, "Dive into Python")
self.assertEqual(dive.get_previous_by_published().title, "Learning Python")
def test_raw(self):
"test the raw() method across databases"
dive = Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
val = Book.objects.db_manager("other").raw(
"SELECT id FROM multiple_database_book"
)
self.assertQuerysetEqual(val, [dive.pk], attrgetter("pk"))
val = Book.objects.raw("SELECT id FROM multiple_database_book").using("other")
self.assertQuerysetEqual(val, [dive.pk], attrgetter("pk"))
def test_select_related(self):
"""
Database assignment is retained if an object is retrieved with
select_related().
"""
# Create a book and author on the other database
mark = Person.objects.using("other").create(name="Mark Pilgrim")
Book.objects.using("other").create(
title="Dive into Python",
published=datetime.date(2009, 5, 4),
editor=mark,
)
# Retrieve the Person using select_related()
book = (
Book.objects.using("other")
.select_related("editor")
.get(title="Dive into Python")
)
# The editor instance should have a db state
self.assertEqual(book.editor._state.db, "other")
def test_subquery(self):
"""Make sure as_sql works with subqueries and primary/replica."""
sub = Person.objects.using("other").filter(name="fff")
qs = Book.objects.filter(editor__in=sub)
# When you call __str__ on the query object, it doesn't know about using
# so it falls back to the default. If the subquery explicitly uses a
# different database, an error should be raised.
msg = (
"Subqueries aren't allowed across different databases. Force the "
"inner query to be evaluated using `list(inner_query)`."
)
with self.assertRaisesMessage(ValueError, msg):
str(qs.query)
# Evaluating the query shouldn't work, either
with self.assertRaisesMessage(ValueError, msg):
for obj in qs:
pass
def test_related_manager(self):
"Related managers return managers, not querysets"
mark = Person.objects.using("other").create(name="Mark Pilgrim")
# extra_arg is removed by the BookManager's implementation of
# create(); but the BookManager's implementation won't get called
# unless edited returns a Manager, not a queryset
mark.book_set.create(
title="Dive into Python",
published=datetime.date(2009, 5, 4),
extra_arg=True,
)
mark.book_set.get_or_create(
title="Dive into Python",
published=datetime.date(2009, 5, 4),
extra_arg=True,
)
mark.edited.create(
title="Dive into Water", published=datetime.date(2009, 5, 4), extra_arg=True
)
mark.edited.get_or_create(
title="Dive into Water", published=datetime.date(2009, 5, 4), extra_arg=True
)
class ConnectionRouterTestCase(SimpleTestCase):
@override_settings(
DATABASE_ROUTERS=[
"multiple_database.tests.TestRouter",
"multiple_database.tests.WriteRouter",
]
)
def test_router_init_default(self):
connection_router = ConnectionRouter()
self.assertEqual(
[r.__class__.__name__ for r in connection_router.routers],
["TestRouter", "WriteRouter"],
)
def test_router_init_arg(self):
connection_router = ConnectionRouter(
[
"multiple_database.tests.TestRouter",
"multiple_database.tests.WriteRouter",
]
)
self.assertEqual(
[r.__class__.__name__ for r in connection_router.routers],
["TestRouter", "WriteRouter"],
)
# Init with instances instead of strings
connection_router = ConnectionRouter([TestRouter(), WriteRouter()])
self.assertEqual(
[r.__class__.__name__ for r in connection_router.routers],
["TestRouter", "WriteRouter"],
)
# Make the 'other' database appear to be a replica of the 'default'
@override_settings(DATABASE_ROUTERS=[TestRouter()])
class RouterTestCase(TestCase):
databases = {"default", "other"}
def test_db_selection(self):
"Querysets obey the router for db suggestions"
self.assertEqual(Book.objects.db, "other")
self.assertEqual(Book.objects.all().db, "other")
self.assertEqual(Book.objects.using("default").db, "default")
self.assertEqual(Book.objects.db_manager("default").db, "default")
self.assertEqual(Book.objects.db_manager("default").all().db, "default")
def test_migrate_selection(self):
"Synchronization behavior is predictable"
self.assertTrue(router.allow_migrate_model("default", User))
self.assertTrue(router.allow_migrate_model("default", Book))
self.assertTrue(router.allow_migrate_model("other", User))
self.assertTrue(router.allow_migrate_model("other", Book))
with override_settings(DATABASE_ROUTERS=[TestRouter(), AuthRouter()]):
# Add the auth router to the chain. TestRouter is a universal
# synchronizer, so it should have no effect.
self.assertTrue(router.allow_migrate_model("default", User))
self.assertTrue(router.allow_migrate_model("default", Book))
self.assertTrue(router.allow_migrate_model("other", User))
self.assertTrue(router.allow_migrate_model("other", Book))
with override_settings(DATABASE_ROUTERS=[AuthRouter(), TestRouter()]):
# Now check what happens if the router order is reversed.
self.assertFalse(router.allow_migrate_model("default", User))
self.assertTrue(router.allow_migrate_model("default", Book))
self.assertTrue(router.allow_migrate_model("other", User))
self.assertTrue(router.allow_migrate_model("other", Book))
def test_partial_router(self):
"A router can choose to implement a subset of methods"
dive = Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
# First check the baseline behavior.
self.assertEqual(router.db_for_read(User), "other")
self.assertEqual(router.db_for_read(Book), "other")
self.assertEqual(router.db_for_write(User), "default")
self.assertEqual(router.db_for_write(Book), "default")
self.assertTrue(router.allow_relation(dive, dive))
self.assertTrue(router.allow_migrate_model("default", User))
self.assertTrue(router.allow_migrate_model("default", Book))
with override_settings(
DATABASE_ROUTERS=[WriteRouter(), AuthRouter(), TestRouter()]
):
self.assertEqual(router.db_for_read(User), "default")
self.assertEqual(router.db_for_read(Book), "other")
self.assertEqual(router.db_for_write(User), "writer")
self.assertEqual(router.db_for_write(Book), "writer")
self.assertTrue(router.allow_relation(dive, dive))
self.assertFalse(router.allow_migrate_model("default", User))
self.assertTrue(router.allow_migrate_model("default", Book))
def test_database_routing(self):
marty = Person.objects.using("default").create(name="Marty Alchin")
pro = Book.objects.using("default").create(
title="Pro Django",
published=datetime.date(2008, 12, 16),
editor=marty,
)
pro.authors.set([marty])
# Create a book and author on the other database
Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
# An update query will be routed to the default database
Book.objects.filter(title="Pro Django").update(pages=200)
with self.assertRaises(Book.DoesNotExist):
# By default, the get query will be directed to 'other'
Book.objects.get(title="Pro Django")
# But the same query issued explicitly at a database will work.
pro = Book.objects.using("default").get(title="Pro Django")
# The update worked.
self.assertEqual(pro.pages, 200)
# An update query with an explicit using clause will be routed
# to the requested database.
Book.objects.using("other").filter(title="Dive into Python").update(pages=300)
self.assertEqual(Book.objects.get(title="Dive into Python").pages, 300)
# Related object queries stick to the same database
# as the original object, regardless of the router
self.assertEqual(
list(pro.authors.values_list("name", flat=True)), ["Marty Alchin"]
)
self.assertEqual(pro.editor.name, "Marty Alchin")
# get_or_create is a special case. The get needs to be targeted at
# the write database in order to avoid potential transaction
# consistency problems
book, created = Book.objects.get_or_create(title="Pro Django")
self.assertFalse(created)
book, created = Book.objects.get_or_create(
title="Dive Into Python", defaults={"published": datetime.date(2009, 5, 4)}
)
self.assertTrue(created)
# Check the head count of objects
self.assertEqual(Book.objects.using("default").count(), 2)
self.assertEqual(Book.objects.using("other").count(), 1)
# If a database isn't specified, the read database is used
self.assertEqual(Book.objects.count(), 1)
# A delete query will also be routed to the default database
Book.objects.filter(pages__gt=150).delete()
# The default database has lost the book.
self.assertEqual(Book.objects.using("default").count(), 1)
self.assertEqual(Book.objects.using("other").count(), 1)
def test_invalid_set_foreign_key_assignment(self):
marty = Person.objects.using("default").create(name="Marty Alchin")
dive = Book.objects.using("other").create(
title="Dive into Python",
published=datetime.date(2009, 5, 4),
)
# Set a foreign key set with an object from a different database
msg = (
"<Book: Dive into Python> instance isn't saved. Use bulk=False or save the "
"object first."
)
with self.assertRaisesMessage(ValueError, msg):
marty.edited.set([dive])
def test_foreign_key_cross_database_protection(self):
"Foreign keys can cross databases if they two databases have a common source"
# Create a book and author on the default database
pro = Book.objects.using("default").create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
marty = Person.objects.using("default").create(name="Marty Alchin")
# Create a book and author on the other database
dive = Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
mark = Person.objects.using("other").create(name="Mark Pilgrim")
# Set a foreign key with an object from a different database
dive.editor = marty
# Database assignments of original objects haven't changed...
self.assertEqual(marty._state.db, "default")
self.assertEqual(pro._state.db, "default")
self.assertEqual(dive._state.db, "other")
self.assertEqual(mark._state.db, "other")
# ... but they will when the affected object is saved.
dive.save()
self.assertEqual(dive._state.db, "default")
# ...and the source database now has a copy of any object saved
Book.objects.using("default").get(title="Dive into Python").delete()
# This isn't a real primary/replica database, so restore the original from other
dive = Book.objects.using("other").get(title="Dive into Python")
self.assertEqual(dive._state.db, "other")
# Set a foreign key set with an object from a different database
marty.edited.set([pro, dive], bulk=False)
# Assignment implies a save, so database assignments of original
# objects have changed...
self.assertEqual(marty._state.db, "default")
self.assertEqual(pro._state.db, "default")
self.assertEqual(dive._state.db, "default")
self.assertEqual(mark._state.db, "other")
# ...and the source database now has a copy of any object saved
Book.objects.using("default").get(title="Dive into Python").delete()
# This isn't a real primary/replica database, so restore the original from other
dive = Book.objects.using("other").get(title="Dive into Python")
self.assertEqual(dive._state.db, "other")
# Add to a foreign key set with an object from a different database
marty.edited.add(dive, bulk=False)
# Add implies a save, so database assignments of original objects have
# changed...
self.assertEqual(marty._state.db, "default")
self.assertEqual(pro._state.db, "default")
self.assertEqual(dive._state.db, "default")
self.assertEqual(mark._state.db, "other")
# ...and the source database now has a copy of any object saved
Book.objects.using("default").get(title="Dive into Python").delete()
# This isn't a real primary/replica database, so restore the original from other
dive = Book.objects.using("other").get(title="Dive into Python")
# If you assign a FK object when the base object hasn't
# been saved yet, you implicitly assign the database for the
# base object.
chris = Person(name="Chris Mills")
html5 = Book(title="Dive into HTML5", published=datetime.date(2010, 3, 15))
# initially, no db assigned
self.assertIsNone(chris._state.db)
self.assertIsNone(html5._state.db)
# old object comes from 'other', so the new object is set to use the
# source of 'other'...
self.assertEqual(dive._state.db, "other")
chris.save()
dive.editor = chris
html5.editor = mark
self.assertEqual(dive._state.db, "other")
self.assertEqual(mark._state.db, "other")
self.assertEqual(chris._state.db, "default")
self.assertEqual(html5._state.db, "default")
# This also works if you assign the FK in the constructor
water = Book(
title="Dive into Water", published=datetime.date(2001, 1, 1), editor=mark
)
self.assertEqual(water._state.db, "default")
# For the remainder of this test, create a copy of 'mark' in the
# 'default' database to prevent integrity errors on backends that
# don't defer constraints checks until the end of the transaction
mark.save(using="default")
# This moved 'mark' in the 'default' database, move it back in 'other'
mark.save(using="other")
self.assertEqual(mark._state.db, "other")
# If you create an object through a FK relation, it will be
# written to the write database, even if the original object
# was on the read database
cheesecake = mark.edited.create(
title="Dive into Cheesecake", published=datetime.date(2010, 3, 15)
)
self.assertEqual(cheesecake._state.db, "default")
# Same goes for get_or_create, regardless of whether getting or creating
cheesecake, created = mark.edited.get_or_create(
title="Dive into Cheesecake",
published=datetime.date(2010, 3, 15),
)
self.assertEqual(cheesecake._state.db, "default")
puddles, created = mark.edited.get_or_create(
title="Dive into Puddles", published=datetime.date(2010, 3, 15)
)
self.assertEqual(puddles._state.db, "default")
def test_m2m_cross_database_protection(self):
"M2M relations can cross databases if the database share a source"
# Create books and authors on the inverse to the usual database
pro = Book.objects.using("other").create(
pk=1, title="Pro Django", published=datetime.date(2008, 12, 16)
)
marty = Person.objects.using("other").create(pk=1, name="Marty Alchin")
dive = Book.objects.using("default").create(
pk=2, title="Dive into Python", published=datetime.date(2009, 5, 4)
)
mark = Person.objects.using("default").create(pk=2, name="Mark Pilgrim")
# Now save back onto the usual database.
# This simulates primary/replica - the objects exist on both database,
# but the _state.db is as it is for all other tests.
pro.save(using="default")
marty.save(using="default")
dive.save(using="other")
mark.save(using="other")
# We have 2 of both types of object on both databases
self.assertEqual(Book.objects.using("default").count(), 2)
self.assertEqual(Book.objects.using("other").count(), 2)
self.assertEqual(Person.objects.using("default").count(), 2)
self.assertEqual(Person.objects.using("other").count(), 2)
# Set a m2m set with an object from a different database
marty.book_set.set([pro, dive])
# Database assignments don't change
self.assertEqual(marty._state.db, "default")
self.assertEqual(pro._state.db, "default")
self.assertEqual(dive._state.db, "other")
self.assertEqual(mark._state.db, "other")
# All m2m relations should be saved on the default database
self.assertEqual(Book.authors.through.objects.using("default").count(), 2)
self.assertEqual(Book.authors.through.objects.using("other").count(), 0)
# Reset relations
Book.authors.through.objects.using("default").delete()
# Add to an m2m with an object from a different database
marty.book_set.add(dive)
# Database assignments don't change
self.assertEqual(marty._state.db, "default")
self.assertEqual(pro._state.db, "default")
self.assertEqual(dive._state.db, "other")
self.assertEqual(mark._state.db, "other")
# All m2m relations should be saved on the default database
self.assertEqual(Book.authors.through.objects.using("default").count(), 1)
self.assertEqual(Book.authors.through.objects.using("other").count(), 0)
# Reset relations
Book.authors.through.objects.using("default").delete()
# Set a reverse m2m with an object from a different database
dive.authors.set([mark, marty])
# Database assignments don't change
self.assertEqual(marty._state.db, "default")
self.assertEqual(pro._state.db, "default")
self.assertEqual(dive._state.db, "other")
self.assertEqual(mark._state.db, "other")
# All m2m relations should be saved on the default database
self.assertEqual(Book.authors.through.objects.using("default").count(), 2)
self.assertEqual(Book.authors.through.objects.using("other").count(), 0)
# Reset relations
Book.authors.through.objects.using("default").delete()
self.assertEqual(Book.authors.through.objects.using("default").count(), 0)
self.assertEqual(Book.authors.through.objects.using("other").count(), 0)
# Add to a reverse m2m with an object from a different database
dive.authors.add(marty)
# Database assignments don't change
self.assertEqual(marty._state.db, "default")
self.assertEqual(pro._state.db, "default")
self.assertEqual(dive._state.db, "other")
self.assertEqual(mark._state.db, "other")
# All m2m relations should be saved on the default database
self.assertEqual(Book.authors.through.objects.using("default").count(), 1)
self.assertEqual(Book.authors.through.objects.using("other").count(), 0)
# If you create an object through a M2M relation, it will be
# written to the write database, even if the original object
# was on the read database
alice = dive.authors.create(name="Alice", pk=3)
self.assertEqual(alice._state.db, "default")
# Same goes for get_or_create, regardless of whether getting or creating
alice, created = dive.authors.get_or_create(name="Alice")
self.assertEqual(alice._state.db, "default")
bob, created = dive.authors.get_or_create(name="Bob", defaults={"pk": 4})
self.assertEqual(bob._state.db, "default")
def test_o2o_cross_database_protection(self):
"Operations that involve sharing FK objects across databases raise an error"
# Create a user and profile on the default database
alice = User.objects.db_manager("default").create_user(
"alice", "[email protected]"
)
# Create a user and profile on the other database
bob = User.objects.db_manager("other").create_user("bob", "[email protected]")
# Set a one-to-one relation with an object from a different database
alice_profile = UserProfile.objects.create(user=alice, flavor="chocolate")
bob.userprofile = alice_profile
# Database assignments of original objects haven't changed...
self.assertEqual(alice._state.db, "default")
self.assertEqual(alice_profile._state.db, "default")
self.assertEqual(bob._state.db, "other")
# ... but they will when the affected object is saved.
bob.save()
self.assertEqual(bob._state.db, "default")
def test_generic_key_cross_database_protection(self):
"Generic Key operations can span databases if they share a source"
# Create a book and author on the default database
pro = Book.objects.using("default").create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
review1 = Review.objects.using("default").create(
source="Python Monthly", content_object=pro
)
# Create a book and author on the other database
dive = Book.objects.using("other").create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
review2 = Review.objects.using("other").create(
source="Python Weekly", content_object=dive
)
# Set a generic foreign key with an object from a different database
review1.content_object = dive
# Database assignments of original objects haven't changed...
self.assertEqual(pro._state.db, "default")
self.assertEqual(review1._state.db, "default")
self.assertEqual(dive._state.db, "other")
self.assertEqual(review2._state.db, "other")
# ... but they will when the affected object is saved.
dive.save()
self.assertEqual(review1._state.db, "default")
self.assertEqual(dive._state.db, "default")
# ...and the source database now has a copy of any object saved
Book.objects.using("default").get(title="Dive into Python").delete()
# This isn't a real primary/replica database, so restore the original from other
dive = Book.objects.using("other").get(title="Dive into Python")
self.assertEqual(dive._state.db, "other")
# Add to a generic foreign key set with an object from a different database
dive.reviews.add(review1)
# Database assignments of original objects haven't changed...
self.assertEqual(pro._state.db, "default")
self.assertEqual(review1._state.db, "default")
self.assertEqual(dive._state.db, "other")
self.assertEqual(review2._state.db, "other")
# ... but they will when the affected object is saved.
dive.save()
self.assertEqual(dive._state.db, "default")
# ...and the source database now has a copy of any object saved
Book.objects.using("default").get(title="Dive into Python").delete()
# BUT! if you assign a FK object when the base object hasn't
# been saved yet, you implicitly assign the database for the
# base object.
review3 = Review(source="Python Daily")
# initially, no db assigned
self.assertIsNone(review3._state.db)
# Dive comes from 'other', so review3 is set to use the source of 'other'...
review3.content_object = dive
self.assertEqual(review3._state.db, "default")
# If you create an object through a M2M relation, it will be
# written to the write database, even if the original object
# was on the read database
dive = Book.objects.using("other").get(title="Dive into Python")
nyt = dive.reviews.create(source="New York Times", content_object=dive)
self.assertEqual(nyt._state.db, "default")
def test_m2m_managers(self):
"M2M relations are represented by managers, and can be controlled like managers"
pro = Book.objects.using("other").create(
pk=1, title="Pro Django", published=datetime.date(2008, 12, 16)
)
marty = Person.objects.using("other").create(pk=1, name="Marty Alchin")
self.assertEqual(pro.authors.db, "other")
self.assertEqual(pro.authors.db_manager("default").db, "default")
self.assertEqual(pro.authors.db_manager("default").all().db, "default")
self.assertEqual(marty.book_set.db, "other")
self.assertEqual(marty.book_set.db_manager("default").db, "default")
self.assertEqual(marty.book_set.db_manager("default").all().db, "default")
def test_foreign_key_managers(self):
"""
FK reverse relations are represented by managers, and can be controlled
like managers.
"""
marty = Person.objects.using("other").create(pk=1, name="Marty Alchin")
Book.objects.using("other").create(
pk=1,
title="Pro Django",
published=datetime.date(2008, 12, 16),
editor=marty,
)
self.assertEqual(marty.edited.db, "other")
self.assertEqual(marty.edited.db_manager("default").db, "default")
self.assertEqual(marty.edited.db_manager("default").all().db, "default")
def test_generic_key_managers(self):
"""
Generic key relations are represented by managers, and can be
controlled like managers.
"""
pro = Book.objects.using("other").create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
Review.objects.using("other").create(
source="Python Monthly", content_object=pro
)
self.assertEqual(pro.reviews.db, "other")
self.assertEqual(pro.reviews.db_manager("default").db, "default")
self.assertEqual(pro.reviews.db_manager("default").all().db, "default")
def test_subquery(self):
"""Make sure as_sql works with subqueries and primary/replica."""
# Create a book and author on the other database
mark = Person.objects.using("other").create(name="Mark Pilgrim")
Book.objects.using("other").create(
title="Dive into Python",
published=datetime.date(2009, 5, 4),
editor=mark,
)
sub = Person.objects.filter(name="Mark Pilgrim")
qs = Book.objects.filter(editor__in=sub)
# When you call __str__ on the query object, it doesn't know about using
# so it falls back to the default. Don't let routing instructions
# force the subquery to an incompatible database.
str(qs.query)
# If you evaluate the query, it should work, running on 'other'
self.assertEqual(list(qs.values_list("title", flat=True)), ["Dive into Python"])
def test_deferred_models(self):
mark_def = Person.objects.using("default").create(name="Mark Pilgrim")
mark_other = Person.objects.using("other").create(name="Mark Pilgrim")
orig_b = Book.objects.using("other").create(
title="Dive into Python",
published=datetime.date(2009, 5, 4),
editor=mark_other,
)
b = Book.objects.using("other").only("title").get(pk=orig_b.pk)
self.assertEqual(b.published, datetime.date(2009, 5, 4))
b = Book.objects.using("other").only("title").get(pk=orig_b.pk)
b.editor = mark_def
b.save(using="default")
self.assertEqual(
Book.objects.using("default").get(pk=b.pk).published,
datetime.date(2009, 5, 4),
)
@override_settings(DATABASE_ROUTERS=[AuthRouter()])
class AuthTestCase(TestCase):
databases = {"default", "other"}
def test_auth_manager(self):
"The methods on the auth manager obey database hints"
# Create one user using default allocation policy
User.objects.create_user("alice", "[email protected]")
# Create another user, explicitly specifying the database
User.objects.db_manager("default").create_user("bob", "[email protected]")
# The second user only exists on the other database
alice = User.objects.using("other").get(username="alice")
self.assertEqual(alice.username, "alice")
self.assertEqual(alice._state.db, "other")
with self.assertRaises(User.DoesNotExist):
User.objects.using("default").get(username="alice")
# The second user only exists on the default database
bob = User.objects.using("default").get(username="bob")
self.assertEqual(bob.username, "bob")
self.assertEqual(bob._state.db, "default")
with self.assertRaises(User.DoesNotExist):
User.objects.using("other").get(username="bob")
# That is... there is one user on each database
self.assertEqual(User.objects.using("default").count(), 1)
self.assertEqual(User.objects.using("other").count(), 1)
def test_dumpdata(self):
"dumpdata honors allow_migrate restrictions on the router"
User.objects.create_user("alice", "[email protected]")
User.objects.db_manager("default").create_user("bob", "[email protected]")
# dumping the default database doesn't try to include auth because
# allow_migrate prohibits auth on default
new_io = StringIO()
management.call_command(
"dumpdata", "auth", format="json", database="default", stdout=new_io
)
command_output = new_io.getvalue().strip()
self.assertEqual(command_output, "[]")
# dumping the other database does include auth
new_io = StringIO()
management.call_command(
"dumpdata", "auth", format="json", database="other", stdout=new_io
)
command_output = new_io.getvalue().strip()
self.assertIn('"email": "[email protected]"', command_output)
class AntiPetRouter:
# A router that only expresses an opinion on migrate,
# passing pets to the 'other' database
def allow_migrate(self, db, app_label, model_name=None, **hints):
if db == "other":
return model_name == "pet"
else:
return model_name != "pet"
class FixtureTestCase(TestCase):
databases = {"default", "other"}
fixtures = ["multidb-common", "multidb"]
@override_settings(DATABASE_ROUTERS=[AntiPetRouter()])
def test_fixture_loading(self):
"Multi-db fixtures are loaded correctly"
# "Pro Django" exists on the default database, but not on other database
Book.objects.get(title="Pro Django")
Book.objects.using("default").get(title="Pro Django")
with self.assertRaises(Book.DoesNotExist):
Book.objects.using("other").get(title="Pro Django")
# "Dive into Python" exists on the default database, but not on other database
Book.objects.using("other").get(title="Dive into Python")
with self.assertRaises(Book.DoesNotExist):
Book.objects.get(title="Dive into Python")
with self.assertRaises(Book.DoesNotExist):
Book.objects.using("default").get(title="Dive into Python")
# "Definitive Guide" exists on the both databases
Book.objects.get(title="The Definitive Guide to Django")
Book.objects.using("default").get(title="The Definitive Guide to Django")
Book.objects.using("other").get(title="The Definitive Guide to Django")
@override_settings(DATABASE_ROUTERS=[AntiPetRouter()])
def test_pseudo_empty_fixtures(self):
"""
A fixture can contain entries, but lead to nothing in the database;
this shouldn't raise an error (#14068).
"""
new_io = StringIO()
management.call_command("loaddata", "pets", stdout=new_io, stderr=new_io)
command_output = new_io.getvalue().strip()
# No objects will actually be loaded
self.assertEqual(
command_output, "Installed 0 object(s) (of 2) from 1 fixture(s)"
)
class PickleQuerySetTestCase(TestCase):
databases = {"default", "other"}
def test_pickling(self):
for db in self.databases:
Book.objects.using(db).create(
title="Dive into Python", published=datetime.date(2009, 5, 4)
)
qs = Book.objects.all()
self.assertEqual(qs.db, pickle.loads(pickle.dumps(qs)).db)
class DatabaseReceiver:
"""
Used in the tests for the database argument in signals (#13552)
"""
def __call__(self, signal, sender, **kwargs):
self._database = kwargs["using"]
class WriteToOtherRouter:
"""
A router that sends all writes to the other database.
"""
def db_for_write(self, model, **hints):
return "other"
class SignalTests(TestCase):
databases = {"default", "other"}
def override_router(self):
return override_settings(DATABASE_ROUTERS=[WriteToOtherRouter()])
def test_database_arg_save_and_delete(self):
"""
The pre/post_save signal contains the correct database.
"""
# Make some signal receivers
pre_save_receiver = DatabaseReceiver()
post_save_receiver = DatabaseReceiver()
pre_delete_receiver = DatabaseReceiver()
post_delete_receiver = DatabaseReceiver()
# Make model and connect receivers
signals.pre_save.connect(sender=Person, receiver=pre_save_receiver)
signals.post_save.connect(sender=Person, receiver=post_save_receiver)
signals.pre_delete.connect(sender=Person, receiver=pre_delete_receiver)
signals.post_delete.connect(sender=Person, receiver=post_delete_receiver)
p = Person.objects.create(name="Darth Vader")
# Save and test receivers got calls
p.save()
self.assertEqual(pre_save_receiver._database, DEFAULT_DB_ALIAS)
self.assertEqual(post_save_receiver._database, DEFAULT_DB_ALIAS)
# Delete, and test
p.delete()
self.assertEqual(pre_delete_receiver._database, DEFAULT_DB_ALIAS)
self.assertEqual(post_delete_receiver._database, DEFAULT_DB_ALIAS)
# Save again to a different database
p.save(using="other")
self.assertEqual(pre_save_receiver._database, "other")
self.assertEqual(post_save_receiver._database, "other")
# Delete, and test
p.delete(using="other")
self.assertEqual(pre_delete_receiver._database, "other")
self.assertEqual(post_delete_receiver._database, "other")
signals.pre_save.disconnect(sender=Person, receiver=pre_save_receiver)
signals.post_save.disconnect(sender=Person, receiver=post_save_receiver)
signals.pre_delete.disconnect(sender=Person, receiver=pre_delete_receiver)
signals.post_delete.disconnect(sender=Person, receiver=post_delete_receiver)
def test_database_arg_m2m(self):
"""
The m2m_changed signal has a correct database arg.
"""
# Make a receiver
receiver = DatabaseReceiver()
# Connect it
signals.m2m_changed.connect(receiver=receiver)
# Create the models that will be used for the tests
b = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
p = Person.objects.create(name="Marty Alchin")
# Create a copy of the models on the 'other' database to prevent
# integrity errors on backends that don't defer constraints checks
Book.objects.using("other").create(
pk=b.pk, title=b.title, published=b.published
)
Person.objects.using("other").create(pk=p.pk, name=p.name)
# Test addition
b.authors.add(p)
self.assertEqual(receiver._database, DEFAULT_DB_ALIAS)
with self.override_router():
b.authors.add(p)
self.assertEqual(receiver._database, "other")
# Test removal
b.authors.remove(p)
self.assertEqual(receiver._database, DEFAULT_DB_ALIAS)
with self.override_router():
b.authors.remove(p)
self.assertEqual(receiver._database, "other")
# Test addition in reverse
p.book_set.add(b)
self.assertEqual(receiver._database, DEFAULT_DB_ALIAS)
with self.override_router():
p.book_set.add(b)
self.assertEqual(receiver._database, "other")
# Test clearing
b.authors.clear()
self.assertEqual(receiver._database, DEFAULT_DB_ALIAS)
with self.override_router():
b.authors.clear()
self.assertEqual(receiver._database, "other")
class AttributeErrorRouter:
"A router to test the exception handling of ConnectionRouter"
def db_for_read(self, model, **hints):
raise AttributeError
def db_for_write(self, model, **hints):
raise AttributeError
class RouterAttributeErrorTestCase(TestCase):
databases = {"default", "other"}
def override_router(self):
return override_settings(DATABASE_ROUTERS=[AttributeErrorRouter()])
def test_attribute_error_read(self):
"The AttributeError from AttributeErrorRouter bubbles up"
b = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
with self.override_router():
with self.assertRaises(AttributeError):
Book.objects.get(pk=b.pk)
def test_attribute_error_save(self):
"The AttributeError from AttributeErrorRouter bubbles up"
dive = Book()
dive.title = "Dive into Python"
dive.published = datetime.date(2009, 5, 4)
with self.override_router():
with self.assertRaises(AttributeError):
dive.save()
def test_attribute_error_delete(self):
"The AttributeError from AttributeErrorRouter bubbles up"
b = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
p = Person.objects.create(name="Marty Alchin")
b.authors.set([p])
b.editor = p
with self.override_router():
with self.assertRaises(AttributeError):
b.delete()
def test_attribute_error_m2m(self):
"The AttributeError from AttributeErrorRouter bubbles up"
b = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
p = Person.objects.create(name="Marty Alchin")
with self.override_router():
with self.assertRaises(AttributeError):
b.authors.set([p])
class ModelMetaRouter:
"A router to ensure model arguments are real model classes"
def db_for_write(self, model, **hints):
if not hasattr(model, "_meta"):
raise ValueError
@override_settings(DATABASE_ROUTERS=[ModelMetaRouter()])
class RouterModelArgumentTestCase(TestCase):
databases = {"default", "other"}
def test_m2m_collection(self):
b = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
p = Person.objects.create(name="Marty Alchin")
# test add
b.authors.add(p)
# test remove
b.authors.remove(p)
# test clear
b.authors.clear()
# test setattr
b.authors.set([p])
# test M2M collection
b.delete()
def test_foreignkey_collection(self):
person = Person.objects.create(name="Bob")
Pet.objects.create(owner=person, name="Wart")
# test related FK collection
person.delete()
class SyncOnlyDefaultDatabaseRouter:
def allow_migrate(self, db, app_label, **hints):
return db == DEFAULT_DB_ALIAS
class MigrateTestCase(TestCase):
# Limit memory usage when calling 'migrate'.
available_apps = [
"multiple_database",
"django.contrib.auth",
"django.contrib.contenttypes",
]
databases = {"default", "other"}
def test_migrate_to_other_database(self):
"""Regression test for #16039: migrate with --database option."""
cts = ContentType.objects.using("other").filter(app_label="multiple_database")
count = cts.count()
self.assertGreater(count, 0)
cts.delete()
management.call_command(
"migrate", verbosity=0, interactive=False, database="other"
)
self.assertEqual(cts.count(), count)
def test_migrate_to_other_database_with_router(self):
"""Regression test for #16039: migrate with --database option."""
cts = ContentType.objects.using("other").filter(app_label="multiple_database")
cts.delete()
with override_settings(DATABASE_ROUTERS=[SyncOnlyDefaultDatabaseRouter()]):
management.call_command(
"migrate", verbosity=0, interactive=False, database="other"
)
self.assertEqual(cts.count(), 0)
class RouterUsed(Exception):
WRITE = "write"
def __init__(self, mode, model, hints):
self.mode = mode
self.model = model
self.hints = hints
class RouteForWriteTestCase(TestCase):
databases = {"default", "other"}
class WriteCheckRouter:
def db_for_write(self, model, **hints):
raise RouterUsed(mode=RouterUsed.WRITE, model=model, hints=hints)
def override_router(self):
return override_settings(
DATABASE_ROUTERS=[RouteForWriteTestCase.WriteCheckRouter()]
)
def test_fk_delete(self):
owner = Person.objects.create(name="Someone")
pet = Pet.objects.create(name="fido", owner=owner)
with self.assertRaises(RouterUsed) as cm:
with self.override_router():
pet.owner.delete()
e = cm.exception
self.assertEqual(e.mode, RouterUsed.WRITE)
self.assertEqual(e.model, Person)
self.assertEqual(e.hints, {"instance": owner})
def test_reverse_fk_delete(self):
owner = Person.objects.create(name="Someone")
to_del_qs = owner.pet_set.all()
with self.assertRaises(RouterUsed) as cm:
with self.override_router():
to_del_qs.delete()
e = cm.exception
self.assertEqual(e.mode, RouterUsed.WRITE)
self.assertEqual(e.model, Pet)
self.assertEqual(e.hints, {"instance": owner})
def test_reverse_fk_get_or_create(self):
owner = Person.objects.create(name="Someone")
with self.assertRaises(RouterUsed) as cm:
with self.override_router():
owner.pet_set.get_or_create(name="fido")
e = cm.exception
self.assertEqual(e.mode, RouterUsed.WRITE)
self.assertEqual(e.model, Pet)
self.assertEqual(e.hints, {"instance": owner})
def test_reverse_fk_update(self):
owner = Person.objects.create(name="Someone")
Pet.objects.create(name="fido", owner=owner)
with self.assertRaises(RouterUsed) as cm:
with self.override_router():
owner.pet_set.update(name="max")
e = cm.exception
self.assertEqual(e.mode, RouterUsed.WRITE)
self.assertEqual(e.model, Pet)
self.assertEqual(e.hints, {"instance": owner})
def test_m2m_add(self):
auth = Person.objects.create(name="Someone")
book = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
with self.assertRaises(RouterUsed) as cm:
with self.override_router():
book.authors.add(auth)
e = cm.exception
self.assertEqual(e.mode, RouterUsed.WRITE)
self.assertEqual(e.model, Book.authors.through)
self.assertEqual(e.hints, {"instance": book})
def test_m2m_clear(self):
auth = Person.objects.create(name="Someone")
book = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
book.authors.add(auth)
with self.assertRaises(RouterUsed) as cm:
with self.override_router():
book.authors.clear()
e = cm.exception
self.assertEqual(e.mode, RouterUsed.WRITE)
self.assertEqual(e.model, Book.authors.through)
self.assertEqual(e.hints, {"instance": book})
def test_m2m_delete(self):
auth = Person.objects.create(name="Someone")
book = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
book.authors.add(auth)
with self.assertRaises(RouterUsed) as cm:
with self.override_router():
book.authors.all().delete()
e = cm.exception
self.assertEqual(e.mode, RouterUsed.WRITE)
self.assertEqual(e.model, Person)
self.assertEqual(e.hints, {"instance": book})
def test_m2m_get_or_create(self):
Person.objects.create(name="Someone")
book = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
with self.assertRaises(RouterUsed) as cm:
with self.override_router():
book.authors.get_or_create(name="Someone else")
e = cm.exception
self.assertEqual(e.mode, RouterUsed.WRITE)
self.assertEqual(e.model, Book)
self.assertEqual(e.hints, {"instance": book})
def test_m2m_remove(self):
auth = Person.objects.create(name="Someone")
book = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
book.authors.add(auth)
with self.assertRaises(RouterUsed) as cm:
with self.override_router():
book.authors.remove(auth)
e = cm.exception
self.assertEqual(e.mode, RouterUsed.WRITE)
self.assertEqual(e.model, Book.authors.through)
self.assertEqual(e.hints, {"instance": book})
def test_m2m_update(self):
auth = Person.objects.create(name="Someone")
book = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
book.authors.add(auth)
with self.assertRaises(RouterUsed) as cm:
with self.override_router():
book.authors.update(name="Different")
e = cm.exception
self.assertEqual(e.mode, RouterUsed.WRITE)
self.assertEqual(e.model, Person)
self.assertEqual(e.hints, {"instance": book})
def test_reverse_m2m_add(self):
auth = Person.objects.create(name="Someone")
book = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
with self.assertRaises(RouterUsed) as cm:
with self.override_router():
auth.book_set.add(book)
e = cm.exception
self.assertEqual(e.mode, RouterUsed.WRITE)
self.assertEqual(e.model, Book.authors.through)
self.assertEqual(e.hints, {"instance": auth})
def test_reverse_m2m_clear(self):
auth = Person.objects.create(name="Someone")
book = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
book.authors.add(auth)
with self.assertRaises(RouterUsed) as cm:
with self.override_router():
auth.book_set.clear()
e = cm.exception
self.assertEqual(e.mode, RouterUsed.WRITE)
self.assertEqual(e.model, Book.authors.through)
self.assertEqual(e.hints, {"instance": auth})
def test_reverse_m2m_delete(self):
auth = Person.objects.create(name="Someone")
book = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
book.authors.add(auth)
with self.assertRaises(RouterUsed) as cm:
with self.override_router():
auth.book_set.all().delete()
e = cm.exception
self.assertEqual(e.mode, RouterUsed.WRITE)
self.assertEqual(e.model, Book)
self.assertEqual(e.hints, {"instance": auth})
def test_reverse_m2m_get_or_create(self):
auth = Person.objects.create(name="Someone")
Book.objects.create(title="Pro Django", published=datetime.date(2008, 12, 16))
with self.assertRaises(RouterUsed) as cm:
with self.override_router():
auth.book_set.get_or_create(
title="New Book", published=datetime.datetime.now()
)
e = cm.exception
self.assertEqual(e.mode, RouterUsed.WRITE)
self.assertEqual(e.model, Person)
self.assertEqual(e.hints, {"instance": auth})
def test_reverse_m2m_remove(self):
auth = Person.objects.create(name="Someone")
book = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
book.authors.add(auth)
with self.assertRaises(RouterUsed) as cm:
with self.override_router():
auth.book_set.remove(book)
e = cm.exception
self.assertEqual(e.mode, RouterUsed.WRITE)
self.assertEqual(e.model, Book.authors.through)
self.assertEqual(e.hints, {"instance": auth})
def test_reverse_m2m_update(self):
auth = Person.objects.create(name="Someone")
book = Book.objects.create(
title="Pro Django", published=datetime.date(2008, 12, 16)
)
book.authors.add(auth)
with self.assertRaises(RouterUsed) as cm:
with self.override_router():
auth.book_set.update(title="Different")
e = cm.exception
self.assertEqual(e.mode, RouterUsed.WRITE)
self.assertEqual(e.model, Book)
self.assertEqual(e.hints, {"instance": auth})
class NoRelationRouter:
"""Disallow all relations."""
def allow_relation(self, obj1, obj2, **hints):
return False
@override_settings(DATABASE_ROUTERS=[NoRelationRouter()])
class RelationAssignmentTests(SimpleTestCase):
"""allow_relation() is called with unsaved model instances."""
databases = {"default", "other"}
router_prevents_msg = "the current database router prevents this relation"
def test_foreign_key_relation(self):
person = Person(name="Someone")
pet = Pet()
with self.assertRaisesMessage(ValueError, self.router_prevents_msg):
pet.owner = person
def test_reverse_one_to_one_relation(self):
user = User(username="Someone", password="fake_hash")
profile = UserProfile()
with self.assertRaisesMessage(ValueError, self.router_prevents_msg):
user.userprofile = profile
|
6a99d0195077fdbb0387bdef326fe6f3ea2b40e8414613ac9bf3d7e28c9fc349 | from django.contrib.auth.models import User
from django.contrib.contenttypes.fields import GenericForeignKey, GenericRelation
from django.contrib.contenttypes.models import ContentType
from django.db import models
class Review(models.Model):
source = models.CharField(max_length=100)
content_type = models.ForeignKey(ContentType, models.CASCADE)
object_id = models.PositiveIntegerField()
content_object = GenericForeignKey()
class Meta:
ordering = ("source",)
def __str__(self):
return self.source
class PersonManager(models.Manager):
def get_by_natural_key(self, name):
return self.get(name=name)
class Person(models.Model):
name = models.CharField(max_length=100, unique=True)
objects = PersonManager()
class Meta:
ordering = ("name",)
def __str__(self):
return self.name
# This book manager doesn't do anything interesting; it just
# exists to strip out the 'extra_arg' argument to certain
# calls. This argument is used to establish that the BookManager
# is actually getting used when it should be.
class BookManager(models.Manager):
def create(self, *args, extra_arg=None, **kwargs):
return super().create(*args, **kwargs)
def get_or_create(self, *args, extra_arg=None, **kwargs):
return super().get_or_create(*args, **kwargs)
class Book(models.Model):
title = models.CharField(max_length=100)
published = models.DateField()
authors = models.ManyToManyField(Person)
editor = models.ForeignKey(
Person, models.SET_NULL, null=True, related_name="edited"
)
reviews = GenericRelation(Review)
pages = models.IntegerField(default=100)
objects = BookManager()
class Meta:
ordering = ("title",)
def __str__(self):
return self.title
class Pet(models.Model):
name = models.CharField(max_length=100)
owner = models.ForeignKey(Person, models.CASCADE)
class Meta:
ordering = ("name",)
class UserProfile(models.Model):
user = models.OneToOneField(User, models.SET_NULL, null=True)
flavor = models.CharField(max_length=100)
class Meta:
ordering = ("flavor",)
|
2faa35f736332cd86ca6af0afc501fd0529fc8a8b8405d6bb115b535669407be | from django.db import connection, transaction
from django.test import TransactionTestCase, skipUnlessDBFeature
from .models import Thing
class ForcedError(Exception):
pass
class TestConnectionOnCommit(TransactionTestCase):
"""
Tests for transaction.on_commit().
Creation/checking of database objects in parallel with callback tracking is
to verify that the behavior of the two match in all tested cases.
"""
available_apps = ["transaction_hooks"]
def setUp(self):
self.notified = []
def notify(self, id_):
if id_ == "error":
raise ForcedError()
self.notified.append(id_)
def do(self, num):
"""Create a Thing instance and notify about it."""
Thing.objects.create(num=num)
transaction.on_commit(lambda: self.notify(num))
def assertDone(self, nums):
self.assertNotified(nums)
self.assertEqual(sorted(t.num for t in Thing.objects.all()), sorted(nums))
def assertNotified(self, nums):
self.assertEqual(self.notified, nums)
def test_executes_immediately_if_no_transaction(self):
self.do(1)
self.assertDone([1])
def test_delays_execution_until_after_transaction_commit(self):
with transaction.atomic():
self.do(1)
self.assertNotified([])
self.assertDone([1])
def test_does_not_execute_if_transaction_rolled_back(self):
try:
with transaction.atomic():
self.do(1)
raise ForcedError()
except ForcedError:
pass
self.assertDone([])
def test_executes_only_after_final_transaction_committed(self):
with transaction.atomic():
with transaction.atomic():
self.do(1)
self.assertNotified([])
self.assertNotified([])
self.assertDone([1])
def test_discards_hooks_from_rolled_back_savepoint(self):
with transaction.atomic():
# one successful savepoint
with transaction.atomic():
self.do(1)
# one failed savepoint
try:
with transaction.atomic():
self.do(2)
raise ForcedError()
except ForcedError:
pass
# another successful savepoint
with transaction.atomic():
self.do(3)
# only hooks registered during successful savepoints execute
self.assertDone([1, 3])
def test_no_hooks_run_from_failed_transaction(self):
"""If outer transaction fails, no hooks from within it run."""
try:
with transaction.atomic():
with transaction.atomic():
self.do(1)
raise ForcedError()
except ForcedError:
pass
self.assertDone([])
def test_inner_savepoint_rolled_back_with_outer(self):
with transaction.atomic():
try:
with transaction.atomic():
with transaction.atomic():
self.do(1)
raise ForcedError()
except ForcedError:
pass
self.do(2)
self.assertDone([2])
def test_no_savepoints_atomic_merged_with_outer(self):
with transaction.atomic():
with transaction.atomic():
self.do(1)
try:
with transaction.atomic(savepoint=False):
raise ForcedError()
except ForcedError:
pass
self.assertDone([])
def test_inner_savepoint_does_not_affect_outer(self):
with transaction.atomic():
with transaction.atomic():
self.do(1)
try:
with transaction.atomic():
raise ForcedError()
except ForcedError:
pass
self.assertDone([1])
def test_runs_hooks_in_order_registered(self):
with transaction.atomic():
self.do(1)
with transaction.atomic():
self.do(2)
self.do(3)
self.assertDone([1, 2, 3])
def test_hooks_cleared_after_successful_commit(self):
with transaction.atomic():
self.do(1)
with transaction.atomic():
self.do(2)
self.assertDone([1, 2]) # not [1, 1, 2]
def test_hooks_cleared_after_rollback(self):
try:
with transaction.atomic():
self.do(1)
raise ForcedError()
except ForcedError:
pass
with transaction.atomic():
self.do(2)
self.assertDone([2])
@skipUnlessDBFeature("test_db_allows_multiple_connections")
def test_hooks_cleared_on_reconnect(self):
with transaction.atomic():
self.do(1)
connection.close()
connection.connect()
with transaction.atomic():
self.do(2)
self.assertDone([2])
def test_error_in_hook_doesnt_prevent_clearing_hooks(self):
try:
with transaction.atomic():
transaction.on_commit(lambda: self.notify("error"))
except ForcedError:
pass
with transaction.atomic():
self.do(1)
self.assertDone([1])
def test_db_query_in_hook(self):
with transaction.atomic():
Thing.objects.create(num=1)
transaction.on_commit(
lambda: [self.notify(t.num) for t in Thing.objects.all()]
)
self.assertDone([1])
def test_transaction_in_hook(self):
def on_commit():
with transaction.atomic():
t = Thing.objects.create(num=1)
self.notify(t.num)
with transaction.atomic():
transaction.on_commit(on_commit)
self.assertDone([1])
def test_hook_in_hook(self):
def on_commit(i, add_hook):
with transaction.atomic():
if add_hook:
transaction.on_commit(lambda: on_commit(i + 10, False))
t = Thing.objects.create(num=i)
self.notify(t.num)
with transaction.atomic():
transaction.on_commit(lambda: on_commit(1, True))
transaction.on_commit(lambda: on_commit(2, True))
self.assertDone([1, 11, 2, 12])
def test_raises_exception_non_autocommit_mode(self):
def should_never_be_called():
raise AssertionError("this function should never be called")
try:
connection.set_autocommit(False)
msg = "on_commit() cannot be used in manual transaction management"
with self.assertRaisesMessage(transaction.TransactionManagementError, msg):
transaction.on_commit(should_never_be_called)
finally:
connection.set_autocommit(True)
def test_raises_exception_non_callable(self):
msg = "on_commit()'s callback must be a callable."
with self.assertRaisesMessage(TypeError, msg):
transaction.on_commit(None)
|
4c632d819c0cfb61997708a9f73e23cccdfdb036fb51f36df072276fff0e914b | from datetime import datetime
from django.test import TestCase
from .models import Article, Category
class M2MMultipleTests(TestCase):
def test_multiple(self):
c1, c2, c3, c4 = [
Category.objects.create(name=name)
for name in ["Sports", "News", "Crime", "Life"]
]
a1 = Article.objects.create(
headline="Parrot steals", pub_date=datetime(2005, 11, 27)
)
a1.primary_categories.add(c2, c3)
a1.secondary_categories.add(c4)
a2 = Article.objects.create(
headline="Parrot runs", pub_date=datetime(2005, 11, 28)
)
a2.primary_categories.add(c1, c2)
a2.secondary_categories.add(c4)
self.assertQuerysetEqual(
a1.primary_categories.all(),
[
"Crime",
"News",
],
lambda c: c.name,
)
self.assertQuerysetEqual(
a2.primary_categories.all(),
[
"News",
"Sports",
],
lambda c: c.name,
)
self.assertQuerysetEqual(
a1.secondary_categories.all(),
[
"Life",
],
lambda c: c.name,
)
self.assertQuerysetEqual(
c1.primary_article_set.all(),
[
"Parrot runs",
],
lambda a: a.headline,
)
self.assertQuerysetEqual(c1.secondary_article_set.all(), [])
self.assertQuerysetEqual(
c2.primary_article_set.all(),
[
"Parrot steals",
"Parrot runs",
],
lambda a: a.headline,
)
self.assertQuerysetEqual(c2.secondary_article_set.all(), [])
self.assertQuerysetEqual(
c3.primary_article_set.all(),
[
"Parrot steals",
],
lambda a: a.headline,
)
self.assertQuerysetEqual(c3.secondary_article_set.all(), [])
self.assertQuerysetEqual(c4.primary_article_set.all(), [])
self.assertQuerysetEqual(
c4.secondary_article_set.all(),
[
"Parrot steals",
"Parrot runs",
],
lambda a: a.headline,
)
|
473ef683106daa7508428b9c315748f91625e244cc85c1a80f4359fd2be528c5 | """
Multiple many-to-many relationships between the same two tables
In this example, an ``Article`` can have many "primary" ``Category`` objects
and many "secondary" ``Category`` objects.
Set ``related_name`` to designate what the reverse relationship is called.
"""
from django.db import models
class Category(models.Model):
name = models.CharField(max_length=20)
class Meta:
ordering = ("name",)
def __str__(self):
return self.name
class Article(models.Model):
headline = models.CharField(max_length=50)
pub_date = models.DateTimeField()
primary_categories = models.ManyToManyField(
Category, related_name="primary_article_set"
)
secondary_categories = models.ManyToManyField(
Category, related_name="secondary_article_set"
)
class Meta:
ordering = ("pub_date",)
def __str__(self):
return self.headline
|
b9803898a103b3e5c44b021fcf58c1668cdbe025fae9a28ef91b8c123865921f | import datetime
from django.contrib import admin
from django.contrib.admin.models import LogEntry
from django.contrib.admin.options import IncorrectLookupParameters
from django.contrib.admin.templatetags.admin_list import pagination
from django.contrib.admin.tests import AdminSeleniumTestCase
from django.contrib.admin.views.main import (
ALL_VAR,
IS_POPUP_VAR,
ORDER_VAR,
PAGE_VAR,
SEARCH_VAR,
TO_FIELD_VAR,
)
from django.contrib.auth.models import User
from django.contrib.contenttypes.models import ContentType
from django.contrib.messages.storage.cookie import CookieStorage
from django.db import connection, models
from django.db.models import F, Field, IntegerField
from django.db.models.functions import Upper
from django.db.models.lookups import Contains, Exact
from django.template import Context, Template, TemplateSyntaxError
from django.test import TestCase, override_settings
from django.test.client import RequestFactory
from django.test.utils import CaptureQueriesContext, isolate_apps, register_lookup
from django.urls import reverse
from django.utils import formats
from .admin import (
BandAdmin,
ChildAdmin,
ChordsBandAdmin,
ConcertAdmin,
CustomPaginationAdmin,
CustomPaginator,
DynamicListDisplayChildAdmin,
DynamicListDisplayLinksChildAdmin,
DynamicListFilterChildAdmin,
DynamicSearchFieldsChildAdmin,
EmptyValueChildAdmin,
EventAdmin,
FilteredChildAdmin,
GroupAdmin,
InvitationAdmin,
NoListDisplayLinksParentAdmin,
ParentAdmin,
ParentAdminTwoSearchFields,
QuartetAdmin,
SwallowAdmin,
)
from .admin import site as custom_site
from .models import (
Band,
CharPK,
Child,
ChordsBand,
ChordsMusician,
Concert,
CustomIdUser,
Event,
Genre,
Group,
Invitation,
Membership,
Musician,
OrderedObject,
Parent,
Quartet,
Swallow,
SwallowOneToOne,
UnorderedObject,
)
def build_tbody_html(pk, href, extra_fields):
return (
"<tbody><tr>"
'<td class="action-checkbox">'
'<input type="checkbox" name="_selected_action" value="{}" '
'class="action-select"></td>'
'<th class="field-name"><a href="{}">name</a></th>'
"{}</tr></tbody>"
).format(pk, href, extra_fields)
@override_settings(ROOT_URLCONF="admin_changelist.urls")
class ChangeListTests(TestCase):
factory = RequestFactory()
@classmethod
def setUpTestData(cls):
cls.superuser = User.objects.create_superuser(
username="super", email="[email protected]", password="xxx"
)
def _create_superuser(self, username):
return User.objects.create_superuser(
username=username, email="[email protected]", password="xxx"
)
def _mocked_authenticated_request(self, url, user):
request = self.factory.get(url)
request.user = user
return request
def test_repr(self):
m = ChildAdmin(Child, custom_site)
request = self.factory.get("/child/")
request.user = self.superuser
cl = m.get_changelist_instance(request)
self.assertEqual(repr(cl), "<ChangeList: model=Child model_admin=ChildAdmin>")
def test_specified_ordering_by_f_expression(self):
class OrderedByFBandAdmin(admin.ModelAdmin):
list_display = ["name", "genres", "nr_of_members"]
ordering = (
F("nr_of_members").desc(nulls_last=True),
Upper(F("name")).asc(),
F("genres").asc(),
)
m = OrderedByFBandAdmin(Band, custom_site)
request = self.factory.get("/band/")
request.user = self.superuser
cl = m.get_changelist_instance(request)
self.assertEqual(cl.get_ordering_field_columns(), {3: "desc", 2: "asc"})
def test_specified_ordering_by_f_expression_without_asc_desc(self):
class OrderedByFBandAdmin(admin.ModelAdmin):
list_display = ["name", "genres", "nr_of_members"]
ordering = (F("nr_of_members"), Upper("name"), F("genres"))
m = OrderedByFBandAdmin(Band, custom_site)
request = self.factory.get("/band/")
request.user = self.superuser
cl = m.get_changelist_instance(request)
self.assertEqual(cl.get_ordering_field_columns(), {3: "asc", 2: "asc"})
def test_select_related_preserved(self):
"""
Regression test for #10348: ChangeList.get_queryset() shouldn't
overwrite a custom select_related provided by ModelAdmin.get_queryset().
"""
m = ChildAdmin(Child, custom_site)
request = self.factory.get("/child/")
request.user = self.superuser
cl = m.get_changelist_instance(request)
self.assertEqual(cl.queryset.query.select_related, {"parent": {}})
def test_select_related_preserved_when_multi_valued_in_search_fields(self):
parent = Parent.objects.create(name="Mary")
Child.objects.create(parent=parent, name="Danielle")
Child.objects.create(parent=parent, name="Daniel")
m = ParentAdmin(Parent, custom_site)
request = self.factory.get("/parent/", data={SEARCH_VAR: "daniel"})
request.user = self.superuser
cl = m.get_changelist_instance(request)
self.assertEqual(cl.queryset.count(), 1)
# select_related is preserved.
self.assertEqual(cl.queryset.query.select_related, {"child": {}})
def test_select_related_as_tuple(self):
ia = InvitationAdmin(Invitation, custom_site)
request = self.factory.get("/invitation/")
request.user = self.superuser
cl = ia.get_changelist_instance(request)
self.assertEqual(cl.queryset.query.select_related, {"player": {}})
def test_select_related_as_empty_tuple(self):
ia = InvitationAdmin(Invitation, custom_site)
ia.list_select_related = ()
request = self.factory.get("/invitation/")
request.user = self.superuser
cl = ia.get_changelist_instance(request)
self.assertIs(cl.queryset.query.select_related, False)
def test_get_select_related_custom_method(self):
class GetListSelectRelatedAdmin(admin.ModelAdmin):
list_display = ("band", "player")
def get_list_select_related(self, request):
return ("band", "player")
ia = GetListSelectRelatedAdmin(Invitation, custom_site)
request = self.factory.get("/invitation/")
request.user = self.superuser
cl = ia.get_changelist_instance(request)
self.assertEqual(cl.queryset.query.select_related, {"player": {}, "band": {}})
def test_many_search_terms(self):
parent = Parent.objects.create(name="Mary")
Child.objects.create(parent=parent, name="Danielle")
Child.objects.create(parent=parent, name="Daniel")
m = ParentAdmin(Parent, custom_site)
request = self.factory.get("/parent/", data={SEARCH_VAR: "daniel " * 80})
request.user = self.superuser
cl = m.get_changelist_instance(request)
with CaptureQueriesContext(connection) as context:
object_count = cl.queryset.count()
self.assertEqual(object_count, 1)
self.assertEqual(context.captured_queries[0]["sql"].count("JOIN"), 1)
def test_related_field_multiple_search_terms(self):
"""
Searches over multi-valued relationships return rows from related
models only when all searched fields match that row.
"""
parent = Parent.objects.create(name="Mary")
Child.objects.create(parent=parent, name="Danielle", age=18)
Child.objects.create(parent=parent, name="Daniel", age=19)
m = ParentAdminTwoSearchFields(Parent, custom_site)
request = self.factory.get("/parent/", data={SEARCH_VAR: "danielle 19"})
request.user = self.superuser
cl = m.get_changelist_instance(request)
self.assertEqual(cl.queryset.count(), 0)
request = self.factory.get("/parent/", data={SEARCH_VAR: "daniel 19"})
request.user = self.superuser
cl = m.get_changelist_instance(request)
self.assertEqual(cl.queryset.count(), 1)
def test_result_list_empty_changelist_value(self):
"""
Regression test for #14982: EMPTY_CHANGELIST_VALUE should be honored
for relationship fields
"""
new_child = Child.objects.create(name="name", parent=None)
request = self.factory.get("/child/")
request.user = self.superuser
m = ChildAdmin(Child, custom_site)
cl = m.get_changelist_instance(request)
cl.formset = None
template = Template(
"{% load admin_list %}{% spaceless %}{% result_list cl %}{% endspaceless %}"
)
context = Context({"cl": cl, "opts": Child._meta})
table_output = template.render(context)
link = reverse("admin:admin_changelist_child_change", args=(new_child.id,))
row_html = build_tbody_html(
new_child.id, link, '<td class="field-parent nowrap">-</td>'
)
self.assertNotEqual(
table_output.find(row_html),
-1,
"Failed to find expected row element: %s" % table_output,
)
def test_result_list_set_empty_value_display_on_admin_site(self):
"""
Empty value display can be set on AdminSite.
"""
new_child = Child.objects.create(name="name", parent=None)
request = self.factory.get("/child/")
request.user = self.superuser
# Set a new empty display value on AdminSite.
admin.site.empty_value_display = "???"
m = ChildAdmin(Child, admin.site)
cl = m.get_changelist_instance(request)
cl.formset = None
template = Template(
"{% load admin_list %}{% spaceless %}{% result_list cl %}{% endspaceless %}"
)
context = Context({"cl": cl, "opts": Child._meta})
table_output = template.render(context)
link = reverse("admin:admin_changelist_child_change", args=(new_child.id,))
row_html = build_tbody_html(
new_child.id, link, '<td class="field-parent nowrap">???</td>'
)
self.assertNotEqual(
table_output.find(row_html),
-1,
"Failed to find expected row element: %s" % table_output,
)
def test_result_list_set_empty_value_display_in_model_admin(self):
"""
Empty value display can be set in ModelAdmin or individual fields.
"""
new_child = Child.objects.create(name="name", parent=None)
request = self.factory.get("/child/")
request.user = self.superuser
m = EmptyValueChildAdmin(Child, admin.site)
cl = m.get_changelist_instance(request)
cl.formset = None
template = Template(
"{% load admin_list %}{% spaceless %}{% result_list cl %}{% endspaceless %}"
)
context = Context({"cl": cl, "opts": Child._meta})
table_output = template.render(context)
link = reverse("admin:admin_changelist_child_change", args=(new_child.id,))
row_html = build_tbody_html(
new_child.id,
link,
'<td class="field-age_display">&dagger;</td>'
'<td class="field-age">-empty-</td>',
)
self.assertNotEqual(
table_output.find(row_html),
-1,
"Failed to find expected row element: %s" % table_output,
)
def test_result_list_html(self):
"""
Inclusion tag result_list generates a table when with default
ModelAdmin settings.
"""
new_parent = Parent.objects.create(name="parent")
new_child = Child.objects.create(name="name", parent=new_parent)
request = self.factory.get("/child/")
request.user = self.superuser
m = ChildAdmin(Child, custom_site)
cl = m.get_changelist_instance(request)
cl.formset = None
template = Template(
"{% load admin_list %}{% spaceless %}{% result_list cl %}{% endspaceless %}"
)
context = Context({"cl": cl, "opts": Child._meta})
table_output = template.render(context)
link = reverse("admin:admin_changelist_child_change", args=(new_child.id,))
row_html = build_tbody_html(
new_child.id, link, '<td class="field-parent nowrap">%s</td>' % new_parent
)
self.assertNotEqual(
table_output.find(row_html),
-1,
"Failed to find expected row element: %s" % table_output,
)
def test_result_list_editable_html(self):
"""
Regression tests for #11791: Inclusion tag result_list generates a
table and this checks that the items are nested within the table
element tags.
Also a regression test for #13599, verifies that hidden fields
when list_editable is enabled are rendered in a div outside the
table.
"""
new_parent = Parent.objects.create(name="parent")
new_child = Child.objects.create(name="name", parent=new_parent)
request = self.factory.get("/child/")
request.user = self.superuser
m = ChildAdmin(Child, custom_site)
# Test with list_editable fields
m.list_display = ["id", "name", "parent"]
m.list_display_links = ["id"]
m.list_editable = ["name"]
cl = m.get_changelist_instance(request)
FormSet = m.get_changelist_formset(request)
cl.formset = FormSet(queryset=cl.result_list)
template = Template(
"{% load admin_list %}{% spaceless %}{% result_list cl %}{% endspaceless %}"
)
context = Context({"cl": cl, "opts": Child._meta})
table_output = template.render(context)
# make sure that hidden fields are in the correct place
hiddenfields_div = (
'<div class="hiddenfields">'
'<input type="hidden" name="form-0-id" value="%d" id="id_form-0-id">'
"</div>"
) % new_child.id
self.assertInHTML(
hiddenfields_div, table_output, msg_prefix="Failed to find hidden fields"
)
# make sure that list editable fields are rendered in divs correctly
editable_name_field = (
'<input name="form-0-name" value="name" class="vTextField" '
'maxlength="30" type="text" id="id_form-0-name">'
)
self.assertInHTML(
'<td class="field-name">%s</td>' % editable_name_field,
table_output,
msg_prefix='Failed to find "name" list_editable field',
)
def test_result_list_editable(self):
"""
Regression test for #14312: list_editable with pagination
"""
new_parent = Parent.objects.create(name="parent")
for i in range(1, 201):
Child.objects.create(name="name %s" % i, parent=new_parent)
request = self.factory.get("/child/", data={"p": -1}) # Anything outside range
request.user = self.superuser
m = ChildAdmin(Child, custom_site)
# Test with list_editable fields
m.list_display = ["id", "name", "parent"]
m.list_display_links = ["id"]
m.list_editable = ["name"]
with self.assertRaises(IncorrectLookupParameters):
m.get_changelist_instance(request)
def test_custom_paginator(self):
new_parent = Parent.objects.create(name="parent")
for i in range(1, 201):
Child.objects.create(name="name %s" % i, parent=new_parent)
request = self.factory.get("/child/")
request.user = self.superuser
m = CustomPaginationAdmin(Child, custom_site)
cl = m.get_changelist_instance(request)
cl.get_results(request)
self.assertIsInstance(cl.paginator, CustomPaginator)
def test_no_duplicates_for_m2m_in_list_filter(self):
"""
Regression test for #13902: When using a ManyToMany in list_filter,
results shouldn't appear more than once. Basic ManyToMany.
"""
blues = Genre.objects.create(name="Blues")
band = Band.objects.create(name="B.B. King Review", nr_of_members=11)
band.genres.add(blues)
band.genres.add(blues)
m = BandAdmin(Band, custom_site)
request = self.factory.get("/band/", data={"genres": blues.pk})
request.user = self.superuser
cl = m.get_changelist_instance(request)
cl.get_results(request)
# There's only one Group instance
self.assertEqual(cl.result_count, 1)
# Queryset must be deletable.
self.assertIs(cl.queryset.query.distinct, False)
cl.queryset.delete()
self.assertEqual(cl.queryset.count(), 0)
def test_no_duplicates_for_through_m2m_in_list_filter(self):
"""
Regression test for #13902: When using a ManyToMany in list_filter,
results shouldn't appear more than once. With an intermediate model.
"""
lead = Musician.objects.create(name="Vox")
band = Group.objects.create(name="The Hype")
Membership.objects.create(group=band, music=lead, role="lead voice")
Membership.objects.create(group=band, music=lead, role="bass player")
m = GroupAdmin(Group, custom_site)
request = self.factory.get("/group/", data={"members": lead.pk})
request.user = self.superuser
cl = m.get_changelist_instance(request)
cl.get_results(request)
# There's only one Group instance
self.assertEqual(cl.result_count, 1)
# Queryset must be deletable.
self.assertIs(cl.queryset.query.distinct, False)
cl.queryset.delete()
self.assertEqual(cl.queryset.count(), 0)
def test_no_duplicates_for_through_m2m_at_second_level_in_list_filter(self):
"""
When using a ManyToMany in list_filter at the second level behind a
ForeignKey, results shouldn't appear more than once.
"""
lead = Musician.objects.create(name="Vox")
band = Group.objects.create(name="The Hype")
Concert.objects.create(name="Woodstock", group=band)
Membership.objects.create(group=band, music=lead, role="lead voice")
Membership.objects.create(group=band, music=lead, role="bass player")
m = ConcertAdmin(Concert, custom_site)
request = self.factory.get("/concert/", data={"group__members": lead.pk})
request.user = self.superuser
cl = m.get_changelist_instance(request)
cl.get_results(request)
# There's only one Concert instance
self.assertEqual(cl.result_count, 1)
# Queryset must be deletable.
self.assertIs(cl.queryset.query.distinct, False)
cl.queryset.delete()
self.assertEqual(cl.queryset.count(), 0)
def test_no_duplicates_for_inherited_m2m_in_list_filter(self):
"""
Regression test for #13902: When using a ManyToMany in list_filter,
results shouldn't appear more than once. Model managed in the
admin inherits from the one that defines the relationship.
"""
lead = Musician.objects.create(name="John")
four = Quartet.objects.create(name="The Beatles")
Membership.objects.create(group=four, music=lead, role="lead voice")
Membership.objects.create(group=four, music=lead, role="guitar player")
m = QuartetAdmin(Quartet, custom_site)
request = self.factory.get("/quartet/", data={"members": lead.pk})
request.user = self.superuser
cl = m.get_changelist_instance(request)
cl.get_results(request)
# There's only one Quartet instance
self.assertEqual(cl.result_count, 1)
# Queryset must be deletable.
self.assertIs(cl.queryset.query.distinct, False)
cl.queryset.delete()
self.assertEqual(cl.queryset.count(), 0)
def test_no_duplicates_for_m2m_to_inherited_in_list_filter(self):
"""
Regression test for #13902: When using a ManyToMany in list_filter,
results shouldn't appear more than once. Target of the relationship
inherits from another.
"""
lead = ChordsMusician.objects.create(name="Player A")
three = ChordsBand.objects.create(name="The Chords Trio")
Invitation.objects.create(band=three, player=lead, instrument="guitar")
Invitation.objects.create(band=three, player=lead, instrument="bass")
m = ChordsBandAdmin(ChordsBand, custom_site)
request = self.factory.get("/chordsband/", data={"members": lead.pk})
request.user = self.superuser
cl = m.get_changelist_instance(request)
cl.get_results(request)
# There's only one ChordsBand instance
self.assertEqual(cl.result_count, 1)
# Queryset must be deletable.
self.assertIs(cl.queryset.query.distinct, False)
cl.queryset.delete()
self.assertEqual(cl.queryset.count(), 0)
def test_no_duplicates_for_non_unique_related_object_in_list_filter(self):
"""
Regressions tests for #15819: If a field listed in list_filters is a
non-unique related object, results shouldn't appear more than once.
"""
parent = Parent.objects.create(name="Mary")
# Two children with the same name
Child.objects.create(parent=parent, name="Daniel")
Child.objects.create(parent=parent, name="Daniel")
m = ParentAdmin(Parent, custom_site)
request = self.factory.get("/parent/", data={"child__name": "Daniel"})
request.user = self.superuser
cl = m.get_changelist_instance(request)
# Exists() is applied.
self.assertEqual(cl.queryset.count(), 1)
# Queryset must be deletable.
self.assertIs(cl.queryset.query.distinct, False)
cl.queryset.delete()
self.assertEqual(cl.queryset.count(), 0)
def test_changelist_search_form_validation(self):
m = ConcertAdmin(Concert, custom_site)
tests = [
({SEARCH_VAR: "\x00"}, "Null characters are not allowed."),
({SEARCH_VAR: "some\x00thing"}, "Null characters are not allowed."),
]
for case, error in tests:
with self.subTest(case=case):
request = self.factory.get("/concert/", case)
request.user = self.superuser
request._messages = CookieStorage(request)
m.get_changelist_instance(request)
messages = [m.message for m in request._messages]
self.assertEqual(1, len(messages))
self.assertEqual(error, messages[0])
def test_no_duplicates_for_non_unique_related_object_in_search_fields(self):
"""
Regressions tests for #15819: If a field listed in search_fields
is a non-unique related object, Exists() must be applied.
"""
parent = Parent.objects.create(name="Mary")
Child.objects.create(parent=parent, name="Danielle")
Child.objects.create(parent=parent, name="Daniel")
m = ParentAdmin(Parent, custom_site)
request = self.factory.get("/parent/", data={SEARCH_VAR: "daniel"})
request.user = self.superuser
cl = m.get_changelist_instance(request)
# Exists() is applied.
self.assertEqual(cl.queryset.count(), 1)
# Queryset must be deletable.
self.assertIs(cl.queryset.query.distinct, False)
cl.queryset.delete()
self.assertEqual(cl.queryset.count(), 0)
def test_no_duplicates_for_many_to_many_at_second_level_in_search_fields(self):
"""
When using a ManyToMany in search_fields at the second level behind a
ForeignKey, Exists() must be applied and results shouldn't appear more
than once.
"""
lead = Musician.objects.create(name="Vox")
band = Group.objects.create(name="The Hype")
Concert.objects.create(name="Woodstock", group=band)
Membership.objects.create(group=band, music=lead, role="lead voice")
Membership.objects.create(group=band, music=lead, role="bass player")
m = ConcertAdmin(Concert, custom_site)
request = self.factory.get("/concert/", data={SEARCH_VAR: "vox"})
request.user = self.superuser
cl = m.get_changelist_instance(request)
# There's only one Concert instance
self.assertEqual(cl.queryset.count(), 1)
# Queryset must be deletable.
self.assertIs(cl.queryset.query.distinct, False)
cl.queryset.delete()
self.assertEqual(cl.queryset.count(), 0)
def test_multiple_search_fields(self):
"""
All rows containing each of the searched words are returned, where each
word must be in one of search_fields.
"""
band_duo = Group.objects.create(name="Duo")
band_hype = Group.objects.create(name="The Hype")
mary = Musician.objects.create(name="Mary Halvorson")
jonathan = Musician.objects.create(name="Jonathan Finlayson")
band_duo.members.set([mary, jonathan])
Concert.objects.create(name="Tiny desk concert", group=band_duo)
Concert.objects.create(name="Woodstock concert", group=band_hype)
# FK lookup.
concert_model_admin = ConcertAdmin(Concert, custom_site)
concert_model_admin.search_fields = ["group__name", "name"]
# Reverse FK lookup.
group_model_admin = GroupAdmin(Group, custom_site)
group_model_admin.search_fields = ["name", "concert__name", "members__name"]
for search_string, result_count in (
("Duo Concert", 1),
("Tiny Desk Concert", 1),
("Concert", 2),
("Other Concert", 0),
("Duo Woodstock", 0),
):
with self.subTest(search_string=search_string):
# FK lookup.
request = self.factory.get(
"/concert/", data={SEARCH_VAR: search_string}
)
request.user = self.superuser
concert_changelist = concert_model_admin.get_changelist_instance(
request
)
self.assertEqual(concert_changelist.queryset.count(), result_count)
# Reverse FK lookup.
request = self.factory.get("/group/", data={SEARCH_VAR: search_string})
request.user = self.superuser
group_changelist = group_model_admin.get_changelist_instance(request)
self.assertEqual(group_changelist.queryset.count(), result_count)
# Many-to-many lookup.
for search_string, result_count in (
("Finlayson Duo Tiny", 1),
("Finlayson", 1),
("Finlayson Hype", 0),
("Jonathan Finlayson Duo", 1),
("Mary Jonathan Duo", 0),
("Oscar Finlayson Duo", 0),
):
with self.subTest(search_string=search_string):
request = self.factory.get("/group/", data={SEARCH_VAR: search_string})
request.user = self.superuser
group_changelist = group_model_admin.get_changelist_instance(request)
self.assertEqual(group_changelist.queryset.count(), result_count)
def test_pk_in_search_fields(self):
band = Group.objects.create(name="The Hype")
Concert.objects.create(name="Woodstock", group=band)
m = ConcertAdmin(Concert, custom_site)
m.search_fields = ["group__pk"]
request = self.factory.get("/concert/", data={SEARCH_VAR: band.pk})
request.user = self.superuser
cl = m.get_changelist_instance(request)
self.assertEqual(cl.queryset.count(), 1)
request = self.factory.get("/concert/", data={SEARCH_VAR: band.pk + 5})
request.user = self.superuser
cl = m.get_changelist_instance(request)
self.assertEqual(cl.queryset.count(), 0)
def test_builtin_lookup_in_search_fields(self):
band = Group.objects.create(name="The Hype")
concert = Concert.objects.create(name="Woodstock", group=band)
m = ConcertAdmin(Concert, custom_site)
m.search_fields = ["name__iexact"]
request = self.factory.get("/", data={SEARCH_VAR: "woodstock"})
request.user = self.superuser
cl = m.get_changelist_instance(request)
self.assertCountEqual(cl.queryset, [concert])
request = self.factory.get("/", data={SEARCH_VAR: "wood"})
request.user = self.superuser
cl = m.get_changelist_instance(request)
self.assertCountEqual(cl.queryset, [])
def test_custom_lookup_in_search_fields(self):
band = Group.objects.create(name="The Hype")
concert = Concert.objects.create(name="Woodstock", group=band)
m = ConcertAdmin(Concert, custom_site)
m.search_fields = ["group__name__cc"]
with register_lookup(Field, Contains, lookup_name="cc"):
request = self.factory.get("/", data={SEARCH_VAR: "Hype"})
request.user = self.superuser
cl = m.get_changelist_instance(request)
self.assertCountEqual(cl.queryset, [concert])
request = self.factory.get("/", data={SEARCH_VAR: "Woodstock"})
request.user = self.superuser
cl = m.get_changelist_instance(request)
self.assertCountEqual(cl.queryset, [])
def test_spanning_relations_with_custom_lookup_in_search_fields(self):
hype = Group.objects.create(name="The Hype")
concert = Concert.objects.create(name="Woodstock", group=hype)
vox = Musician.objects.create(name="Vox", age=20)
Membership.objects.create(music=vox, group=hype)
# Register a custom lookup on IntegerField to ensure that field
# traversing logic in ModelAdmin.get_search_results() works.
with register_lookup(IntegerField, Exact, lookup_name="exactly"):
m = ConcertAdmin(Concert, custom_site)
m.search_fields = ["group__members__age__exactly"]
request = self.factory.get("/", data={SEARCH_VAR: "20"})
request.user = self.superuser
cl = m.get_changelist_instance(request)
self.assertCountEqual(cl.queryset, [concert])
request = self.factory.get("/", data={SEARCH_VAR: "21"})
request.user = self.superuser
cl = m.get_changelist_instance(request)
self.assertCountEqual(cl.queryset, [])
def test_custom_lookup_with_pk_shortcut(self):
self.assertEqual(CharPK._meta.pk.name, "char_pk") # Not equal to 'pk'.
m = admin.ModelAdmin(CustomIdUser, custom_site)
abc = CharPK.objects.create(char_pk="abc")
abcd = CharPK.objects.create(char_pk="abcd")
m = admin.ModelAdmin(CharPK, custom_site)
m.search_fields = ["pk__exact"]
request = self.factory.get("/", data={SEARCH_VAR: "abc"})
request.user = self.superuser
cl = m.get_changelist_instance(request)
self.assertCountEqual(cl.queryset, [abc])
request = self.factory.get("/", data={SEARCH_VAR: "abcd"})
request.user = self.superuser
cl = m.get_changelist_instance(request)
self.assertCountEqual(cl.queryset, [abcd])
def test_no_exists_for_m2m_in_list_filter_without_params(self):
"""
If a ManyToManyField is in list_filter but isn't in any lookup params,
the changelist's query shouldn't have Exists().
"""
m = BandAdmin(Band, custom_site)
for lookup_params in ({}, {"name": "test"}):
request = self.factory.get("/band/", lookup_params)
request.user = self.superuser
cl = m.get_changelist_instance(request)
self.assertNotIn(" EXISTS", str(cl.queryset.query))
# A ManyToManyField in params does have Exists() applied.
request = self.factory.get("/band/", {"genres": "0"})
request.user = self.superuser
cl = m.get_changelist_instance(request)
self.assertIn(" EXISTS", str(cl.queryset.query))
def test_pagination(self):
"""
Regression tests for #12893: Pagination in admins changelist doesn't
use queryset set by modeladmin.
"""
parent = Parent.objects.create(name="anything")
for i in range(1, 31):
Child.objects.create(name="name %s" % i, parent=parent)
Child.objects.create(name="filtered %s" % i, parent=parent)
request = self.factory.get("/child/")
request.user = self.superuser
# Test default queryset
m = ChildAdmin(Child, custom_site)
cl = m.get_changelist_instance(request)
self.assertEqual(cl.queryset.count(), 60)
self.assertEqual(cl.paginator.count, 60)
self.assertEqual(list(cl.paginator.page_range), [1, 2, 3, 4, 5, 6])
# Test custom queryset
m = FilteredChildAdmin(Child, custom_site)
cl = m.get_changelist_instance(request)
self.assertEqual(cl.queryset.count(), 30)
self.assertEqual(cl.paginator.count, 30)
self.assertEqual(list(cl.paginator.page_range), [1, 2, 3])
def test_computed_list_display_localization(self):
"""
Regression test for #13196: output of functions should be localized
in the changelist.
"""
self.client.force_login(self.superuser)
event = Event.objects.create(date=datetime.date.today())
response = self.client.get(reverse("admin:admin_changelist_event_changelist"))
self.assertContains(response, formats.localize(event.date))
self.assertNotContains(response, str(event.date))
def test_dynamic_list_display(self):
"""
Regression tests for #14206: dynamic list_display support.
"""
parent = Parent.objects.create(name="parent")
for i in range(10):
Child.objects.create(name="child %s" % i, parent=parent)
user_noparents = self._create_superuser("noparents")
user_parents = self._create_superuser("parents")
# Test with user 'noparents'
m = custom_site._registry[Child]
request = self._mocked_authenticated_request("/child/", user_noparents)
response = m.changelist_view(request)
self.assertNotContains(response, "Parent object")
list_display = m.get_list_display(request)
list_display_links = m.get_list_display_links(request, list_display)
self.assertEqual(list_display, ["name", "age"])
self.assertEqual(list_display_links, ["name"])
# Test with user 'parents'
m = DynamicListDisplayChildAdmin(Child, custom_site)
request = self._mocked_authenticated_request("/child/", user_parents)
response = m.changelist_view(request)
self.assertContains(response, "Parent object")
custom_site.unregister(Child)
list_display = m.get_list_display(request)
list_display_links = m.get_list_display_links(request, list_display)
self.assertEqual(list_display, ("parent", "name", "age"))
self.assertEqual(list_display_links, ["parent"])
# Test default implementation
custom_site.register(Child, ChildAdmin)
m = custom_site._registry[Child]
request = self._mocked_authenticated_request("/child/", user_noparents)
response = m.changelist_view(request)
self.assertContains(response, "Parent object")
def test_show_all(self):
parent = Parent.objects.create(name="anything")
for i in range(1, 31):
Child.objects.create(name="name %s" % i, parent=parent)
Child.objects.create(name="filtered %s" % i, parent=parent)
# Add "show all" parameter to request
request = self.factory.get("/child/", data={ALL_VAR: ""})
request.user = self.superuser
# Test valid "show all" request (number of total objects is under max)
m = ChildAdmin(Child, custom_site)
m.list_max_show_all = 200
# 200 is the max we'll pass to ChangeList
cl = m.get_changelist_instance(request)
cl.get_results(request)
self.assertEqual(len(cl.result_list), 60)
# Test invalid "show all" request (number of total objects over max)
# falls back to paginated pages
m = ChildAdmin(Child, custom_site)
m.list_max_show_all = 30
# 30 is the max we'll pass to ChangeList for this test
cl = m.get_changelist_instance(request)
cl.get_results(request)
self.assertEqual(len(cl.result_list), 10)
def test_dynamic_list_display_links(self):
"""
Regression tests for #16257: dynamic list_display_links support.
"""
parent = Parent.objects.create(name="parent")
for i in range(1, 10):
Child.objects.create(id=i, name="child %s" % i, parent=parent, age=i)
m = DynamicListDisplayLinksChildAdmin(Child, custom_site)
superuser = self._create_superuser("superuser")
request = self._mocked_authenticated_request("/child/", superuser)
response = m.changelist_view(request)
for i in range(1, 10):
link = reverse("admin:admin_changelist_child_change", args=(i,))
self.assertContains(response, '<a href="%s">%s</a>' % (link, i))
list_display = m.get_list_display(request)
list_display_links = m.get_list_display_links(request, list_display)
self.assertEqual(list_display, ("parent", "name", "age"))
self.assertEqual(list_display_links, ["age"])
def test_no_list_display_links(self):
"""#15185 -- Allow no links from the 'change list' view grid."""
p = Parent.objects.create(name="parent")
m = NoListDisplayLinksParentAdmin(Parent, custom_site)
superuser = self._create_superuser("superuser")
request = self._mocked_authenticated_request("/parent/", superuser)
response = m.changelist_view(request)
link = reverse("admin:admin_changelist_parent_change", args=(p.pk,))
self.assertNotContains(response, '<a href="%s">' % link)
def test_clear_all_filters_link(self):
self.client.force_login(self.superuser)
url = reverse("admin:auth_user_changelist")
response = self.client.get(url)
self.assertNotContains(response, "✖ Clear all filters")
link = '<a href="%s">✖ Clear all filters</a>'
for data, href in (
({"is_staff__exact": "0"}, "?"),
(
{"is_staff__exact": "0", "username__startswith": "test"},
"?username__startswith=test",
),
(
{"is_staff__exact": "0", SEARCH_VAR: "test"},
"?%s=test" % SEARCH_VAR,
),
(
{"is_staff__exact": "0", IS_POPUP_VAR: "id"},
"?%s=id" % IS_POPUP_VAR,
),
):
with self.subTest(data=data):
response = self.client.get(url, data=data)
self.assertContains(response, link % href)
def test_clear_all_filters_link_callable_filter(self):
self.client.force_login(self.superuser)
url = reverse("admin:admin_changelist_band_changelist")
response = self.client.get(url)
self.assertNotContains(response, "✖ Clear all filters")
link = '<a href="%s">✖ Clear all filters</a>'
for data, href in (
({"nr_of_members_partition": "5"}, "?"),
(
{"nr_of_members_partition": "more", "name__startswith": "test"},
"?name__startswith=test",
),
(
{"nr_of_members_partition": "5", IS_POPUP_VAR: "id"},
"?%s=id" % IS_POPUP_VAR,
),
):
with self.subTest(data=data):
response = self.client.get(url, data=data)
self.assertContains(response, link % href)
def test_no_clear_all_filters_link(self):
self.client.force_login(self.superuser)
url = reverse("admin:auth_user_changelist")
link = ">✖ Clear all filters</a>"
for data in (
{SEARCH_VAR: "test"},
{ORDER_VAR: "-1"},
{TO_FIELD_VAR: "id"},
{PAGE_VAR: "1"},
{IS_POPUP_VAR: "1"},
{"username__startswith": "test"},
):
with self.subTest(data=data):
response = self.client.get(url, data=data)
self.assertNotContains(response, link)
def test_tuple_list_display(self):
swallow = Swallow.objects.create(origin="Africa", load="12.34", speed="22.2")
swallow2 = Swallow.objects.create(origin="Africa", load="12.34", speed="22.2")
swallow_o2o = SwallowOneToOne.objects.create(swallow=swallow2)
model_admin = SwallowAdmin(Swallow, custom_site)
superuser = self._create_superuser("superuser")
request = self._mocked_authenticated_request("/swallow/", superuser)
response = model_admin.changelist_view(request)
# just want to ensure it doesn't blow up during rendering
self.assertContains(response, str(swallow.origin))
self.assertContains(response, str(swallow.load))
self.assertContains(response, str(swallow.speed))
# Reverse one-to-one relations should work.
self.assertContains(response, '<td class="field-swallowonetoone">-</td>')
self.assertContains(
response, '<td class="field-swallowonetoone">%s</td>' % swallow_o2o
)
def test_multiuser_edit(self):
"""
Simultaneous edits of list_editable fields on the changelist by
different users must not result in one user's edits creating a new
object instead of modifying the correct existing object (#11313).
"""
# To replicate this issue, simulate the following steps:
# 1. User1 opens an admin changelist with list_editable fields.
# 2. User2 edits object "Foo" such that it moves to another page in
# the pagination order and saves.
# 3. User1 edits object "Foo" and saves.
# 4. The edit made by User1 does not get applied to object "Foo" but
# instead is used to create a new object (bug).
# For this test, order the changelist by the 'speed' attribute and
# display 3 objects per page (SwallowAdmin.list_per_page = 3).
# Setup the test to reflect the DB state after step 2 where User2 has
# edited the first swallow object's speed from '4' to '1'.
a = Swallow.objects.create(origin="Swallow A", load=4, speed=1)
b = Swallow.objects.create(origin="Swallow B", load=2, speed=2)
c = Swallow.objects.create(origin="Swallow C", load=5, speed=5)
d = Swallow.objects.create(origin="Swallow D", load=9, speed=9)
superuser = self._create_superuser("superuser")
self.client.force_login(superuser)
changelist_url = reverse("admin:admin_changelist_swallow_changelist")
# Send the POST from User1 for step 3. It's still using the changelist
# ordering from before User2's edits in step 2.
data = {
"form-TOTAL_FORMS": "3",
"form-INITIAL_FORMS": "3",
"form-MIN_NUM_FORMS": "0",
"form-MAX_NUM_FORMS": "1000",
"form-0-uuid": str(d.pk),
"form-1-uuid": str(c.pk),
"form-2-uuid": str(a.pk),
"form-0-load": "9.0",
"form-0-speed": "9.0",
"form-1-load": "5.0",
"form-1-speed": "5.0",
"form-2-load": "5.0",
"form-2-speed": "4.0",
"_save": "Save",
}
response = self.client.post(
changelist_url, data, follow=True, extra={"o": "-2"}
)
# The object User1 edited in step 3 is displayed on the changelist and
# has the correct edits applied.
self.assertContains(response, "1 swallow was changed successfully.")
self.assertContains(response, a.origin)
a.refresh_from_db()
self.assertEqual(a.load, float(data["form-2-load"]))
self.assertEqual(a.speed, float(data["form-2-speed"]))
b.refresh_from_db()
self.assertEqual(b.load, 2)
self.assertEqual(b.speed, 2)
c.refresh_from_db()
self.assertEqual(c.load, float(data["form-1-load"]))
self.assertEqual(c.speed, float(data["form-1-speed"]))
d.refresh_from_db()
self.assertEqual(d.load, float(data["form-0-load"]))
self.assertEqual(d.speed, float(data["form-0-speed"]))
# No new swallows were created.
self.assertEqual(len(Swallow.objects.all()), 4)
def test_get_edited_object_ids(self):
a = Swallow.objects.create(origin="Swallow A", load=4, speed=1)
b = Swallow.objects.create(origin="Swallow B", load=2, speed=2)
c = Swallow.objects.create(origin="Swallow C", load=5, speed=5)
superuser = self._create_superuser("superuser")
self.client.force_login(superuser)
changelist_url = reverse("admin:admin_changelist_swallow_changelist")
m = SwallowAdmin(Swallow, custom_site)
data = {
"form-TOTAL_FORMS": "3",
"form-INITIAL_FORMS": "3",
"form-MIN_NUM_FORMS": "0",
"form-MAX_NUM_FORMS": "1000",
"form-0-uuid": str(a.pk),
"form-1-uuid": str(b.pk),
"form-2-uuid": str(c.pk),
"form-0-load": "9.0",
"form-0-speed": "9.0",
"form-1-load": "5.0",
"form-1-speed": "5.0",
"form-2-load": "5.0",
"form-2-speed": "4.0",
"_save": "Save",
}
request = self.factory.post(changelist_url, data=data)
pks = m._get_edited_object_pks(request, prefix="form")
self.assertEqual(sorted(pks), sorted([str(a.pk), str(b.pk), str(c.pk)]))
def test_get_list_editable_queryset(self):
a = Swallow.objects.create(origin="Swallow A", load=4, speed=1)
Swallow.objects.create(origin="Swallow B", load=2, speed=2)
data = {
"form-TOTAL_FORMS": "2",
"form-INITIAL_FORMS": "2",
"form-MIN_NUM_FORMS": "0",
"form-MAX_NUM_FORMS": "1000",
"form-0-uuid": str(a.pk),
"form-0-load": "10",
"_save": "Save",
}
superuser = self._create_superuser("superuser")
self.client.force_login(superuser)
changelist_url = reverse("admin:admin_changelist_swallow_changelist")
m = SwallowAdmin(Swallow, custom_site)
request = self.factory.post(changelist_url, data=data)
queryset = m._get_list_editable_queryset(request, prefix="form")
self.assertEqual(queryset.count(), 1)
data["form-0-uuid"] = "INVALD_PRIMARY_KEY"
# The unfiltered queryset is returned if there's invalid data.
request = self.factory.post(changelist_url, data=data)
queryset = m._get_list_editable_queryset(request, prefix="form")
self.assertEqual(queryset.count(), 2)
def test_get_list_editable_queryset_with_regex_chars_in_prefix(self):
a = Swallow.objects.create(origin="Swallow A", load=4, speed=1)
Swallow.objects.create(origin="Swallow B", load=2, speed=2)
data = {
"form$-TOTAL_FORMS": "2",
"form$-INITIAL_FORMS": "2",
"form$-MIN_NUM_FORMS": "0",
"form$-MAX_NUM_FORMS": "1000",
"form$-0-uuid": str(a.pk),
"form$-0-load": "10",
"_save": "Save",
}
superuser = self._create_superuser("superuser")
self.client.force_login(superuser)
changelist_url = reverse("admin:admin_changelist_swallow_changelist")
m = SwallowAdmin(Swallow, custom_site)
request = self.factory.post(changelist_url, data=data)
queryset = m._get_list_editable_queryset(request, prefix="form$")
self.assertEqual(queryset.count(), 1)
def test_changelist_view_list_editable_changed_objects_uses_filter(self):
"""list_editable edits use a filtered queryset to limit memory usage."""
a = Swallow.objects.create(origin="Swallow A", load=4, speed=1)
Swallow.objects.create(origin="Swallow B", load=2, speed=2)
data = {
"form-TOTAL_FORMS": "2",
"form-INITIAL_FORMS": "2",
"form-MIN_NUM_FORMS": "0",
"form-MAX_NUM_FORMS": "1000",
"form-0-uuid": str(a.pk),
"form-0-load": "10",
"_save": "Save",
}
superuser = self._create_superuser("superuser")
self.client.force_login(superuser)
changelist_url = reverse("admin:admin_changelist_swallow_changelist")
with CaptureQueriesContext(connection) as context:
response = self.client.post(changelist_url, data=data)
self.assertEqual(response.status_code, 200)
self.assertIn("WHERE", context.captured_queries[4]["sql"])
self.assertIn("IN", context.captured_queries[4]["sql"])
# Check only the first few characters since the UUID may have dashes.
self.assertIn(str(a.pk)[:8], context.captured_queries[4]["sql"])
def test_deterministic_order_for_unordered_model(self):
"""
The primary key is used in the ordering of the changelist's results to
guarantee a deterministic order, even when the model doesn't have any
default ordering defined (#17198).
"""
superuser = self._create_superuser("superuser")
for counter in range(1, 51):
UnorderedObject.objects.create(id=counter, bool=True)
class UnorderedObjectAdmin(admin.ModelAdmin):
list_per_page = 10
def check_results_order(ascending=False):
custom_site.register(UnorderedObject, UnorderedObjectAdmin)
model_admin = UnorderedObjectAdmin(UnorderedObject, custom_site)
counter = 0 if ascending else 51
for page in range(1, 6):
request = self._mocked_authenticated_request(
"/unorderedobject/?p=%s" % page, superuser
)
response = model_admin.changelist_view(request)
for result in response.context_data["cl"].result_list:
counter += 1 if ascending else -1
self.assertEqual(result.id, counter)
custom_site.unregister(UnorderedObject)
# When no order is defined at all, everything is ordered by '-pk'.
check_results_order()
# When an order field is defined but multiple records have the same
# value for that field, make sure everything gets ordered by -pk as well.
UnorderedObjectAdmin.ordering = ["bool"]
check_results_order()
# When order fields are defined, including the pk itself, use them.
UnorderedObjectAdmin.ordering = ["bool", "-pk"]
check_results_order()
UnorderedObjectAdmin.ordering = ["bool", "pk"]
check_results_order(ascending=True)
UnorderedObjectAdmin.ordering = ["-id", "bool"]
check_results_order()
UnorderedObjectAdmin.ordering = ["id", "bool"]
check_results_order(ascending=True)
def test_deterministic_order_for_model_ordered_by_its_manager(self):
"""
The primary key is used in the ordering of the changelist's results to
guarantee a deterministic order, even when the model has a manager that
defines a default ordering (#17198).
"""
superuser = self._create_superuser("superuser")
for counter in range(1, 51):
OrderedObject.objects.create(id=counter, bool=True, number=counter)
class OrderedObjectAdmin(admin.ModelAdmin):
list_per_page = 10
def check_results_order(ascending=False):
custom_site.register(OrderedObject, OrderedObjectAdmin)
model_admin = OrderedObjectAdmin(OrderedObject, custom_site)
counter = 0 if ascending else 51
for page in range(1, 6):
request = self._mocked_authenticated_request(
"/orderedobject/?p=%s" % page, superuser
)
response = model_admin.changelist_view(request)
for result in response.context_data["cl"].result_list:
counter += 1 if ascending else -1
self.assertEqual(result.id, counter)
custom_site.unregister(OrderedObject)
# When no order is defined at all, use the model's default ordering
# (i.e. 'number').
check_results_order(ascending=True)
# When an order field is defined but multiple records have the same
# value for that field, make sure everything gets ordered by -pk as well.
OrderedObjectAdmin.ordering = ["bool"]
check_results_order()
# When order fields are defined, including the pk itself, use them.
OrderedObjectAdmin.ordering = ["bool", "-pk"]
check_results_order()
OrderedObjectAdmin.ordering = ["bool", "pk"]
check_results_order(ascending=True)
OrderedObjectAdmin.ordering = ["-id", "bool"]
check_results_order()
OrderedObjectAdmin.ordering = ["id", "bool"]
check_results_order(ascending=True)
@isolate_apps("admin_changelist")
def test_total_ordering_optimization(self):
class Related(models.Model):
unique_field = models.BooleanField(unique=True)
class Meta:
ordering = ("unique_field",)
class Model(models.Model):
unique_field = models.BooleanField(unique=True)
unique_nullable_field = models.BooleanField(unique=True, null=True)
related = models.ForeignKey(Related, models.CASCADE)
other_related = models.ForeignKey(Related, models.CASCADE)
related_unique = models.OneToOneField(Related, models.CASCADE)
field = models.BooleanField()
other_field = models.BooleanField()
null_field = models.BooleanField(null=True)
class Meta:
unique_together = {
("field", "other_field"),
("field", "null_field"),
("related", "other_related_id"),
}
class ModelAdmin(admin.ModelAdmin):
def get_queryset(self, request):
return Model.objects.none()
request = self._mocked_authenticated_request("/", self.superuser)
site = admin.AdminSite(name="admin")
model_admin = ModelAdmin(Model, site)
change_list = model_admin.get_changelist_instance(request)
tests = (
([], ["-pk"]),
# Unique non-nullable field.
(["unique_field"], ["unique_field"]),
(["-unique_field"], ["-unique_field"]),
# Unique nullable field.
(["unique_nullable_field"], ["unique_nullable_field", "-pk"]),
# Field.
(["field"], ["field", "-pk"]),
# Related field introspection is not implemented.
(["related__unique_field"], ["related__unique_field", "-pk"]),
# Related attname unique.
(["related_unique_id"], ["related_unique_id"]),
# Related ordering introspection is not implemented.
(["related_unique"], ["related_unique", "-pk"]),
# Composite unique.
(["field", "-other_field"], ["field", "-other_field"]),
# Composite unique nullable.
(["-field", "null_field"], ["-field", "null_field", "-pk"]),
# Composite unique and nullable.
(
["-field", "null_field", "other_field"],
["-field", "null_field", "other_field"],
),
# Composite unique attnames.
(["related_id", "-other_related_id"], ["related_id", "-other_related_id"]),
# Composite unique names.
(["related", "-other_related_id"], ["related", "-other_related_id", "-pk"]),
)
# F() objects composite unique.
total_ordering = [F("field"), F("other_field").desc(nulls_last=True)]
# F() objects composite unique nullable.
non_total_ordering = [F("field"), F("null_field").desc(nulls_last=True)]
tests += (
(total_ordering, total_ordering),
(non_total_ordering, non_total_ordering + ["-pk"]),
)
for ordering, expected in tests:
with self.subTest(ordering=ordering):
self.assertEqual(
change_list._get_deterministic_ordering(ordering), expected
)
@isolate_apps("admin_changelist")
def test_total_ordering_optimization_meta_constraints(self):
class Related(models.Model):
unique_field = models.BooleanField(unique=True)
class Meta:
ordering = ("unique_field",)
class Model(models.Model):
field_1 = models.BooleanField()
field_2 = models.BooleanField()
field_3 = models.BooleanField()
field_4 = models.BooleanField()
field_5 = models.BooleanField()
field_6 = models.BooleanField()
nullable_1 = models.BooleanField(null=True)
nullable_2 = models.BooleanField(null=True)
related_1 = models.ForeignKey(Related, models.CASCADE)
related_2 = models.ForeignKey(Related, models.CASCADE)
related_3 = models.ForeignKey(Related, models.CASCADE)
related_4 = models.ForeignKey(Related, models.CASCADE)
class Meta:
constraints = [
*[
models.UniqueConstraint(fields=fields, name="".join(fields))
for fields in (
["field_1"],
["nullable_1"],
["related_1"],
["related_2_id"],
["field_2", "field_3"],
["field_2", "nullable_2"],
["field_2", "related_3"],
["field_3", "related_4_id"],
)
],
models.CheckConstraint(check=models.Q(id__gt=0), name="foo"),
models.UniqueConstraint(
fields=["field_5"],
condition=models.Q(id__gt=10),
name="total_ordering_1",
),
models.UniqueConstraint(
fields=["field_6"],
condition=models.Q(),
name="total_ordering",
),
]
class ModelAdmin(admin.ModelAdmin):
def get_queryset(self, request):
return Model.objects.none()
request = self._mocked_authenticated_request("/", self.superuser)
site = admin.AdminSite(name="admin")
model_admin = ModelAdmin(Model, site)
change_list = model_admin.get_changelist_instance(request)
tests = (
# Unique non-nullable field.
(["field_1"], ["field_1"]),
# Unique nullable field.
(["nullable_1"], ["nullable_1", "-pk"]),
# Related attname unique.
(["related_1_id"], ["related_1_id"]),
(["related_2_id"], ["related_2_id"]),
# Related ordering introspection is not implemented.
(["related_1"], ["related_1", "-pk"]),
# Composite unique.
(["-field_2", "field_3"], ["-field_2", "field_3"]),
# Composite unique nullable.
(["field_2", "-nullable_2"], ["field_2", "-nullable_2", "-pk"]),
# Composite unique and nullable.
(
["field_2", "-nullable_2", "field_3"],
["field_2", "-nullable_2", "field_3"],
),
# Composite field and related field name.
(["field_2", "-related_3"], ["field_2", "-related_3", "-pk"]),
(["field_3", "related_4"], ["field_3", "related_4", "-pk"]),
# Composite field and related field attname.
(["field_2", "related_3_id"], ["field_2", "related_3_id"]),
(["field_3", "-related_4_id"], ["field_3", "-related_4_id"]),
# Partial unique constraint is ignored.
(["field_5"], ["field_5", "-pk"]),
# Unique constraint with an empty condition.
(["field_6"], ["field_6"]),
)
for ordering, expected in tests:
with self.subTest(ordering=ordering):
self.assertEqual(
change_list._get_deterministic_ordering(ordering), expected
)
def test_dynamic_list_filter(self):
"""
Regression tests for ticket #17646: dynamic list_filter support.
"""
parent = Parent.objects.create(name="parent")
for i in range(10):
Child.objects.create(name="child %s" % i, parent=parent)
user_noparents = self._create_superuser("noparents")
user_parents = self._create_superuser("parents")
# Test with user 'noparents'
m = DynamicListFilterChildAdmin(Child, custom_site)
request = self._mocked_authenticated_request("/child/", user_noparents)
response = m.changelist_view(request)
self.assertEqual(response.context_data["cl"].list_filter, ["name", "age"])
# Test with user 'parents'
m = DynamicListFilterChildAdmin(Child, custom_site)
request = self._mocked_authenticated_request("/child/", user_parents)
response = m.changelist_view(request)
self.assertEqual(
response.context_data["cl"].list_filter, ("parent", "name", "age")
)
def test_dynamic_search_fields(self):
child = self._create_superuser("child")
m = DynamicSearchFieldsChildAdmin(Child, custom_site)
request = self._mocked_authenticated_request("/child/", child)
response = m.changelist_view(request)
self.assertEqual(response.context_data["cl"].search_fields, ("name", "age"))
def test_pagination_page_range(self):
"""
Regression tests for ticket #15653: ensure the number of pages
generated for changelist views are correct.
"""
# instantiating and setting up ChangeList object
m = GroupAdmin(Group, custom_site)
request = self.factory.get("/group/")
request.user = self.superuser
cl = m.get_changelist_instance(request)
cl.list_per_page = 10
ELLIPSIS = cl.paginator.ELLIPSIS
for number, pages, expected in [
(1, 1, []),
(1, 2, [1, 2]),
(6, 11, [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11]),
(6, 12, [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12]),
(6, 13, [1, 2, 3, 4, 5, 6, 7, 8, 9, ELLIPSIS, 12, 13]),
(7, 12, [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12]),
(7, 13, [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13]),
(7, 14, [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, ELLIPSIS, 13, 14]),
(8, 13, [1, 2, ELLIPSIS, 5, 6, 7, 8, 9, 10, 11, 12, 13]),
(8, 14, [1, 2, ELLIPSIS, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14]),
(8, 15, [1, 2, ELLIPSIS, 5, 6, 7, 8, 9, 10, 11, ELLIPSIS, 14, 15]),
]:
with self.subTest(number=number, pages=pages):
# assuming exactly `pages * cl.list_per_page` objects
Group.objects.all().delete()
for i in range(pages * cl.list_per_page):
Group.objects.create(name="test band")
# setting page number and calculating page range
cl.page_num = number
cl.get_results(request)
self.assertEqual(list(pagination(cl)["page_range"]), expected)
def test_object_tools_displayed_no_add_permission(self):
"""
When ModelAdmin.has_add_permission() returns False, the object-tools
block is still shown.
"""
superuser = self._create_superuser("superuser")
m = EventAdmin(Event, custom_site)
request = self._mocked_authenticated_request("/event/", superuser)
self.assertFalse(m.has_add_permission(request))
response = m.changelist_view(request)
self.assertIn('<ul class="object-tools">', response.rendered_content)
# The "Add" button inside the object-tools shouldn't appear.
self.assertNotIn("Add ", response.rendered_content)
def test_search_help_text(self):
superuser = self._create_superuser("superuser")
m = BandAdmin(Band, custom_site)
# search_fields without search_help_text.
m.search_fields = ["name"]
request = self._mocked_authenticated_request("/band/", superuser)
response = m.changelist_view(request)
self.assertIsNone(response.context_data["cl"].search_help_text)
self.assertNotContains(response, '<div class="help">')
# search_fields with search_help_text.
m.search_help_text = "Search help text"
request = self._mocked_authenticated_request("/band/", superuser)
response = m.changelist_view(request)
self.assertEqual(
response.context_data["cl"].search_help_text, "Search help text"
)
self.assertContains(response, '<div class="help">Search help text</div>')
class GetAdminLogTests(TestCase):
def test_custom_user_pk_not_named_id(self):
"""
{% get_admin_log %} works if the user model's primary key isn't named
'id'.
"""
context = Context({"user": CustomIdUser()})
template = Template(
"{% load log %}{% get_admin_log 10 as admin_log for_user user %}"
)
# This template tag just logs.
self.assertEqual(template.render(context), "")
def test_no_user(self):
"""{% get_admin_log %} works without specifying a user."""
user = User(username="jondoe", password="secret", email="[email protected]")
user.save()
ct = ContentType.objects.get_for_model(User)
LogEntry.objects.log_action(user.pk, ct.pk, user.pk, repr(user), 1)
t = Template(
"{% load log %}"
"{% get_admin_log 100 as admin_log %}"
"{% for entry in admin_log %}"
"{{ entry|safe }}"
"{% endfor %}"
)
self.assertEqual(t.render(Context({})), "Added “<User: jondoe>”.")
def test_missing_args(self):
msg = "'get_admin_log' statements require two arguments"
with self.assertRaisesMessage(TemplateSyntaxError, msg):
Template("{% load log %}{% get_admin_log 10 as %}")
def test_non_integer_limit(self):
msg = "First argument to 'get_admin_log' must be an integer"
with self.assertRaisesMessage(TemplateSyntaxError, msg):
Template(
'{% load log %}{% get_admin_log "10" as admin_log for_user user %}'
)
def test_without_as(self):
msg = "Second argument to 'get_admin_log' must be 'as'"
with self.assertRaisesMessage(TemplateSyntaxError, msg):
Template("{% load log %}{% get_admin_log 10 ad admin_log for_user user %}")
def test_without_for_user(self):
msg = "Fourth argument to 'get_admin_log' must be 'for_user'"
with self.assertRaisesMessage(TemplateSyntaxError, msg):
Template("{% load log %}{% get_admin_log 10 as admin_log foruser user %}")
@override_settings(ROOT_URLCONF="admin_changelist.urls")
class SeleniumTests(AdminSeleniumTestCase):
available_apps = ["admin_changelist"] + AdminSeleniumTestCase.available_apps
def setUp(self):
User.objects.create_superuser(username="super", password="secret", email=None)
def test_add_row_selection(self):
"""
The status line for selected rows gets updated correctly (#22038).
"""
from selenium.webdriver.common.by import By
self.admin_login(username="super", password="secret")
self.selenium.get(self.live_server_url + reverse("admin:auth_user_changelist"))
form_id = "#changelist-form"
# Test amount of rows in the Changelist
rows = self.selenium.find_elements(
By.CSS_SELECTOR, "%s #result_list tbody tr" % form_id
)
self.assertEqual(len(rows), 1)
row = rows[0]
selection_indicator = self.selenium.find_element(
By.CSS_SELECTOR, "%s .action-counter" % form_id
)
all_selector = self.selenium.find_element(By.ID, "action-toggle")
row_selector = self.selenium.find_element(
By.CSS_SELECTOR,
"%s #result_list tbody tr:first-child .action-select" % form_id,
)
# Test current selection
self.assertEqual(selection_indicator.text, "0 of 1 selected")
self.assertIs(all_selector.get_property("checked"), False)
self.assertEqual(row.get_attribute("class"), "")
# Select a row and check again
row_selector.click()
self.assertEqual(selection_indicator.text, "1 of 1 selected")
self.assertIs(all_selector.get_property("checked"), True)
self.assertEqual(row.get_attribute("class"), "selected")
# Deselect a row and check again
row_selector.click()
self.assertEqual(selection_indicator.text, "0 of 1 selected")
self.assertIs(all_selector.get_property("checked"), False)
self.assertEqual(row.get_attribute("class"), "")
def test_modifier_allows_multiple_section(self):
"""
Selecting a row and then selecting another row whilst holding shift
should select all rows in-between.
"""
from selenium.webdriver.common.action_chains import ActionChains
from selenium.webdriver.common.by import By
from selenium.webdriver.common.keys import Keys
Parent.objects.bulk_create([Parent(name="parent%d" % i) for i in range(5)])
self.admin_login(username="super", password="secret")
self.selenium.get(
self.live_server_url + reverse("admin:admin_changelist_parent_changelist")
)
checkboxes = self.selenium.find_elements(
By.CSS_SELECTOR, "tr input.action-select"
)
self.assertEqual(len(checkboxes), 5)
for c in checkboxes:
self.assertIs(c.get_property("checked"), False)
# Check first row. Hold-shift and check next-to-last row.
checkboxes[0].click()
ActionChains(self.selenium).key_down(Keys.SHIFT).click(checkboxes[-2]).key_up(
Keys.SHIFT
).perform()
for c in checkboxes[:-2]:
self.assertIs(c.get_property("checked"), True)
self.assertIs(checkboxes[-1].get_property("checked"), False)
def test_select_all_across_pages(self):
from selenium.webdriver.common.by import By
Parent.objects.bulk_create([Parent(name="parent%d" % i) for i in range(101)])
self.admin_login(username="super", password="secret")
self.selenium.get(
self.live_server_url + reverse("admin:admin_changelist_parent_changelist")
)
selection_indicator = self.selenium.find_element(
By.CSS_SELECTOR, ".action-counter"
)
select_all_indicator = self.selenium.find_element(
By.CSS_SELECTOR, ".actions .all"
)
question = self.selenium.find_element(By.CSS_SELECTOR, ".actions > .question")
clear = self.selenium.find_element(By.CSS_SELECTOR, ".actions > .clear")
select_all = self.selenium.find_element(By.ID, "action-toggle")
select_across = self.selenium.find_elements(By.NAME, "select_across")
self.assertIs(question.is_displayed(), False)
self.assertIs(clear.is_displayed(), False)
self.assertIs(select_all.get_property("checked"), False)
for hidden_input in select_across:
self.assertEqual(hidden_input.get_property("value"), "0")
self.assertIs(selection_indicator.is_displayed(), True)
self.assertEqual(selection_indicator.text, "0 of 100 selected")
self.assertIs(select_all_indicator.is_displayed(), False)
select_all.click()
self.assertIs(question.is_displayed(), True)
self.assertIs(clear.is_displayed(), False)
self.assertIs(select_all.get_property("checked"), True)
for hidden_input in select_across:
self.assertEqual(hidden_input.get_property("value"), "0")
self.assertIs(selection_indicator.is_displayed(), True)
self.assertEqual(selection_indicator.text, "100 of 100 selected")
self.assertIs(select_all_indicator.is_displayed(), False)
question.click()
self.assertIs(question.is_displayed(), False)
self.assertIs(clear.is_displayed(), True)
self.assertIs(select_all.get_property("checked"), True)
for hidden_input in select_across:
self.assertEqual(hidden_input.get_property("value"), "1")
self.assertIs(selection_indicator.is_displayed(), False)
self.assertIs(select_all_indicator.is_displayed(), True)
clear.click()
self.assertIs(question.is_displayed(), False)
self.assertIs(clear.is_displayed(), False)
self.assertIs(select_all.get_property("checked"), False)
for hidden_input in select_across:
self.assertEqual(hidden_input.get_property("value"), "0")
self.assertIs(selection_indicator.is_displayed(), True)
self.assertEqual(selection_indicator.text, "0 of 100 selected")
self.assertIs(select_all_indicator.is_displayed(), False)
def test_actions_warn_on_pending_edits(self):
from selenium.webdriver.common.by import By
Parent.objects.create(name="foo")
self.admin_login(username="super", password="secret")
self.selenium.get(
self.live_server_url + reverse("admin:admin_changelist_parent_changelist")
)
name_input = self.selenium.find_element(By.ID, "id_form-0-name")
name_input.clear()
name_input.send_keys("bar")
self.selenium.find_element(By.ID, "action-toggle").click()
self.selenium.find_element(By.NAME, "index").click() # Go
alert = self.selenium.switch_to.alert
try:
self.assertEqual(
alert.text,
"You have unsaved changes on individual editable fields. If you "
"run an action, your unsaved changes will be lost.",
)
finally:
alert.dismiss()
def test_save_with_changes_warns_on_pending_action(self):
from selenium.webdriver.common.by import By
from selenium.webdriver.support.ui import Select
Parent.objects.create(name="parent")
self.admin_login(username="super", password="secret")
self.selenium.get(
self.live_server_url + reverse("admin:admin_changelist_parent_changelist")
)
name_input = self.selenium.find_element(By.ID, "id_form-0-name")
name_input.clear()
name_input.send_keys("other name")
Select(self.selenium.find_element(By.NAME, "action")).select_by_value(
"delete_selected"
)
self.selenium.find_element(By.NAME, "_save").click()
alert = self.selenium.switch_to.alert
try:
self.assertEqual(
alert.text,
"You have selected an action, but you haven’t saved your "
"changes to individual fields yet. Please click OK to save. "
"You’ll need to re-run the action.",
)
finally:
alert.dismiss()
def test_save_without_changes_warns_on_pending_action(self):
from selenium.webdriver.common.by import By
from selenium.webdriver.support.ui import Select
Parent.objects.create(name="parent")
self.admin_login(username="super", password="secret")
self.selenium.get(
self.live_server_url + reverse("admin:admin_changelist_parent_changelist")
)
Select(self.selenium.find_element(By.NAME, "action")).select_by_value(
"delete_selected"
)
self.selenium.find_element(By.NAME, "_save").click()
alert = self.selenium.switch_to.alert
try:
self.assertEqual(
alert.text,
"You have selected an action, and you haven’t made any "
"changes on individual fields. You’re probably looking for "
"the Go button rather than the Save button.",
)
finally:
alert.dismiss()
|
51b170e9d26efe2ca5fa4d56466028795ac09f8fee9dba6f3560298169483bbb | import uuid
from django.db import models
class Event(models.Model):
# Oracle can have problems with a column named "date"
date = models.DateField(db_column="event_date")
class Parent(models.Model):
name = models.CharField(max_length=128)
class Child(models.Model):
parent = models.ForeignKey(Parent, models.SET_NULL, editable=False, null=True)
name = models.CharField(max_length=30, blank=True)
age = models.IntegerField(null=True, blank=True)
class Genre(models.Model):
name = models.CharField(max_length=20)
class Band(models.Model):
name = models.CharField(max_length=20)
nr_of_members = models.PositiveIntegerField()
genres = models.ManyToManyField(Genre)
class Musician(models.Model):
name = models.CharField(max_length=30)
age = models.IntegerField(null=True, blank=True)
def __str__(self):
return self.name
class Group(models.Model):
name = models.CharField(max_length=30)
members = models.ManyToManyField(Musician, through="Membership")
def __str__(self):
return self.name
class Concert(models.Model):
name = models.CharField(max_length=30)
group = models.ForeignKey(Group, models.CASCADE)
class Membership(models.Model):
music = models.ForeignKey(Musician, models.CASCADE)
group = models.ForeignKey(Group, models.CASCADE)
role = models.CharField(max_length=15)
class Quartet(Group):
pass
class ChordsMusician(Musician):
pass
class ChordsBand(models.Model):
name = models.CharField(max_length=30)
members = models.ManyToManyField(ChordsMusician, through="Invitation")
class Invitation(models.Model):
player = models.ForeignKey(ChordsMusician, models.CASCADE)
band = models.ForeignKey(ChordsBand, models.CASCADE)
instrument = models.CharField(max_length=15)
class Swallow(models.Model):
uuid = models.UUIDField(primary_key=True, default=uuid.uuid4)
origin = models.CharField(max_length=255)
load = models.FloatField()
speed = models.FloatField()
class Meta:
ordering = ("speed", "load")
class SwallowOneToOne(models.Model):
swallow = models.OneToOneField(Swallow, models.CASCADE)
class UnorderedObject(models.Model):
"""
Model without any defined `Meta.ordering`.
Refs #17198.
"""
bool = models.BooleanField(default=True)
class OrderedObjectManager(models.Manager):
def get_queryset(self):
return super().get_queryset().order_by("number")
class OrderedObject(models.Model):
"""
Model with Manager that defines a default order.
Refs #17198.
"""
name = models.CharField(max_length=255)
bool = models.BooleanField(default=True)
number = models.IntegerField(default=0, db_column="number_val")
objects = OrderedObjectManager()
class CustomIdUser(models.Model):
uuid = models.AutoField(primary_key=True)
class CharPK(models.Model):
char_pk = models.CharField(max_length=100, primary_key=True)
|
9231c23c481c39609a19249f48b165a5cdb70f3e0df133ca6e0c910b9b8a3c0c | from django.contrib import admin
from django.contrib.auth.admin import UserAdmin
from django.contrib.auth.models import User
from django.core.paginator import Paginator
from .models import Band, Child, Event, Parent, Swallow
site = admin.AdminSite(name="admin")
site.register(User, UserAdmin)
class CustomPaginator(Paginator):
def __init__(self, queryset, page_size, orphans=0, allow_empty_first_page=True):
super().__init__(
queryset, 5, orphans=2, allow_empty_first_page=allow_empty_first_page
)
class EventAdmin(admin.ModelAdmin):
date_hierarchy = "date"
list_display = ["event_date_func"]
@admin.display
def event_date_func(self, event):
return event.date
def has_add_permission(self, request):
return False
site.register(Event, EventAdmin)
class ParentAdmin(admin.ModelAdmin):
list_filter = ["child__name"]
search_fields = ["child__name"]
list_select_related = ["child"]
class ParentAdminTwoSearchFields(admin.ModelAdmin):
list_filter = ["child__name"]
search_fields = ["child__name", "child__age"]
list_select_related = ["child"]
class ChildAdmin(admin.ModelAdmin):
list_display = ["name", "parent"]
list_per_page = 10
list_filter = ["parent", "age"]
def get_queryset(self, request):
return super().get_queryset(request).select_related("parent")
class CustomPaginationAdmin(ChildAdmin):
paginator = CustomPaginator
class FilteredChildAdmin(admin.ModelAdmin):
list_display = ["name", "parent"]
list_per_page = 10
def get_queryset(self, request):
return super().get_queryset(request).filter(name__contains="filtered")
class BandAdmin(admin.ModelAdmin):
list_filter = ["genres"]
class NrOfMembersFilter(admin.SimpleListFilter):
title = "number of members"
parameter_name = "nr_of_members_partition"
def lookups(self, request, model_admin):
return [
("5", "0 - 5"),
("more", "more than 5"),
]
def queryset(self, request, queryset):
value = self.value()
if value == "5":
return queryset.filter(nr_of_members__lte=5)
if value == "more":
return queryset.filter(nr_of_members__gt=5)
class BandCallableFilterAdmin(admin.ModelAdmin):
list_filter = [NrOfMembersFilter]
site.register(Band, BandCallableFilterAdmin)
class GroupAdmin(admin.ModelAdmin):
list_filter = ["members"]
class ConcertAdmin(admin.ModelAdmin):
list_filter = ["group__members"]
search_fields = ["group__members__name"]
class QuartetAdmin(admin.ModelAdmin):
list_filter = ["members"]
class ChordsBandAdmin(admin.ModelAdmin):
list_filter = ["members"]
class InvitationAdmin(admin.ModelAdmin):
list_display = ("band", "player")
list_select_related = ("player",)
class DynamicListDisplayChildAdmin(admin.ModelAdmin):
list_display = ("parent", "name", "age")
def get_list_display(self, request):
my_list_display = super().get_list_display(request)
if request.user.username == "noparents":
my_list_display = list(my_list_display)
my_list_display.remove("parent")
return my_list_display
class DynamicListDisplayLinksChildAdmin(admin.ModelAdmin):
list_display = ("parent", "name", "age")
list_display_links = ["parent", "name"]
def get_list_display_links(self, request, list_display):
return ["age"]
site.register(Child, DynamicListDisplayChildAdmin)
class NoListDisplayLinksParentAdmin(admin.ModelAdmin):
list_display_links = None
list_display = ["name"]
list_editable = ["name"]
actions_on_bottom = True
site.register(Parent, NoListDisplayLinksParentAdmin)
class SwallowAdmin(admin.ModelAdmin):
actions = None # prevent ['action_checkbox'] + list(list_display)
list_display = ("origin", "load", "speed", "swallowonetoone")
list_editable = ["load", "speed"]
list_per_page = 3
site.register(Swallow, SwallowAdmin)
class DynamicListFilterChildAdmin(admin.ModelAdmin):
list_filter = ("parent", "name", "age")
def get_list_filter(self, request):
my_list_filter = super().get_list_filter(request)
if request.user.username == "noparents":
my_list_filter = list(my_list_filter)
my_list_filter.remove("parent")
return my_list_filter
class DynamicSearchFieldsChildAdmin(admin.ModelAdmin):
search_fields = ("name",)
def get_search_fields(self, request):
search_fields = super().get_search_fields(request)
search_fields += ("age",)
return search_fields
class EmptyValueChildAdmin(admin.ModelAdmin):
empty_value_display = "-empty-"
list_display = ("name", "age_display", "age")
@admin.display(empty_value="†")
def age_display(self, obj):
return obj.age
|
aa8404287377355399422e0cb4ce6b0173e4e7e156c4e31cb4e3974000dc9abb | from datetime import datetime
from django.contrib.admin.options import IncorrectLookupParameters
from django.contrib.auth.models import User
from django.test import RequestFactory, TestCase
from django.utils.timezone import make_aware
from .admin import EventAdmin
from .admin import site as custom_site
from .models import Event
class DateHierarchyTests(TestCase):
factory = RequestFactory()
@classmethod
def setUpTestData(cls):
cls.superuser = User.objects.create_superuser(
username="super", email="[email protected]", password="xxx"
)
def assertDateParams(self, query, expected_from_date, expected_to_date):
query = {"date__%s" % field: val for field, val in query.items()}
request = self.factory.get("/", query)
request.user = self.superuser
changelist = EventAdmin(Event, custom_site).get_changelist_instance(request)
_, _, lookup_params, *_ = changelist.get_filters(request)
self.assertEqual(lookup_params["date__gte"], expected_from_date)
self.assertEqual(lookup_params["date__lt"], expected_to_date)
def test_bounded_params(self):
tests = (
({"year": 2017}, datetime(2017, 1, 1), datetime(2018, 1, 1)),
({"year": 2017, "month": 2}, datetime(2017, 2, 1), datetime(2017, 3, 1)),
({"year": 2017, "month": 12}, datetime(2017, 12, 1), datetime(2018, 1, 1)),
(
{"year": 2017, "month": 12, "day": 15},
datetime(2017, 12, 15),
datetime(2017, 12, 16),
),
(
{"year": 2017, "month": 12, "day": 31},
datetime(2017, 12, 31),
datetime(2018, 1, 1),
),
(
{"year": 2017, "month": 2, "day": 28},
datetime(2017, 2, 28),
datetime(2017, 3, 1),
),
)
for query, expected_from_date, expected_to_date in tests:
with self.subTest(query=query):
self.assertDateParams(query, expected_from_date, expected_to_date)
def test_bounded_params_with_time_zone(self):
with self.settings(USE_TZ=True, TIME_ZONE="Asia/Jerusalem"):
self.assertDateParams(
{"year": 2017, "month": 2, "day": 28},
make_aware(datetime(2017, 2, 28)),
make_aware(datetime(2017, 3, 1)),
)
def test_bounded_params_with_dst_time_zone(self):
tests = [
# Northern hemisphere.
("Asia/Jerusalem", 3),
("Asia/Jerusalem", 10),
# Southern hemisphere.
("Pacific/Chatham", 4),
("Pacific/Chatham", 9),
]
for time_zone, month in tests:
with self.subTest(time_zone=time_zone, month=month):
with self.settings(USE_TZ=True, TIME_ZONE=time_zone):
self.assertDateParams(
{"year": 2019, "month": month},
make_aware(datetime(2019, month, 1)),
make_aware(datetime(2019, month + 1, 1)),
)
def test_invalid_params(self):
tests = (
{"year": "x"},
{"year": 2017, "month": "x"},
{"year": 2017, "month": 12, "day": "x"},
{"year": 2017, "month": 13},
{"year": 2017, "month": 12, "day": 32},
{"year": 2017, "month": 0},
{"year": 2017, "month": 12, "day": 0},
)
for invalid_query in tests:
with self.subTest(query=invalid_query), self.assertRaises(
IncorrectLookupParameters
):
self.assertDateParams(invalid_query, None, None)
|
320acc46119d063b2348d2cf1af9cd1cd7ed99b101598f127ad3f1d1f3f7f7e7 | from django.urls import path
from . import admin
urlpatterns = [
path("admin/", admin.site.urls),
]
|
addaf1c523be762b9026a33fdeb0cb8d05502f1f5ac47399d40e42cae76fac41 | from io import StringIO
from django.apps import apps
from django.core import management
from django.db import migrations
from django.db.models import signals
from django.test import TransactionTestCase, override_settings
APP_CONFIG = apps.get_app_config("migrate_signals")
SIGNAL_ARGS = [
"app_config",
"verbosity",
"interactive",
"using",
"stdout",
"plan",
"apps",
]
MIGRATE_DATABASE = "default"
MIGRATE_VERBOSITY = 0
MIGRATE_INTERACTIVE = False
class Receiver:
def __init__(self, signal):
self.call_counter = 0
self.call_args = None
signal.connect(self, sender=APP_CONFIG)
def __call__(self, signal, sender, **kwargs):
self.call_counter += 1
self.call_args = kwargs
class OneTimeReceiver:
"""
Special receiver for handle the fact that test runner calls migrate for
several databases and several times for some of them.
"""
def __init__(self, signal):
self.signal = signal
self.call_counter = 0
self.call_args = None
self.signal.connect(self, sender=APP_CONFIG)
def __call__(self, signal, sender, **kwargs):
# Although test runner calls migrate for several databases,
# testing for only one of them is quite sufficient.
if kwargs["using"] == MIGRATE_DATABASE:
self.call_counter += 1
self.call_args = kwargs
# we need to test only one call of migrate
self.signal.disconnect(self, sender=APP_CONFIG)
# We connect receiver here and not in unit test code because we need to
# connect receiver before test runner creates database. That is, sequence of
# actions would be:
#
# 1. Test runner imports this module.
# 2. We connect receiver.
# 3. Test runner calls migrate for create default database.
# 4. Test runner execute our unit test code.
pre_migrate_receiver = OneTimeReceiver(signals.pre_migrate)
post_migrate_receiver = OneTimeReceiver(signals.post_migrate)
class MigrateSignalTests(TransactionTestCase):
available_apps = ["migrate_signals"]
def test_call_time(self):
self.assertEqual(pre_migrate_receiver.call_counter, 1)
self.assertEqual(post_migrate_receiver.call_counter, 1)
def test_args(self):
pre_migrate_receiver = Receiver(signals.pre_migrate)
post_migrate_receiver = Receiver(signals.post_migrate)
management.call_command(
"migrate",
database=MIGRATE_DATABASE,
verbosity=MIGRATE_VERBOSITY,
interactive=MIGRATE_INTERACTIVE,
stdout=StringIO("test_args"),
)
for receiver in [pre_migrate_receiver, post_migrate_receiver]:
with self.subTest(receiver=receiver):
args = receiver.call_args
self.assertEqual(receiver.call_counter, 1)
self.assertEqual(set(args), set(SIGNAL_ARGS))
self.assertEqual(args["app_config"], APP_CONFIG)
self.assertEqual(args["verbosity"], MIGRATE_VERBOSITY)
self.assertEqual(args["interactive"], MIGRATE_INTERACTIVE)
self.assertEqual(args["using"], "default")
self.assertIn("test_args", args["stdout"].getvalue())
self.assertEqual(args["plan"], [])
self.assertIsInstance(args["apps"], migrations.state.StateApps)
@override_settings(
MIGRATION_MODULES={"migrate_signals": "migrate_signals.custom_migrations"}
)
def test_migrations_only(self):
"""
If all apps have migrations, migration signals should be sent.
"""
pre_migrate_receiver = Receiver(signals.pre_migrate)
post_migrate_receiver = Receiver(signals.post_migrate)
management.call_command(
"migrate",
database=MIGRATE_DATABASE,
verbosity=MIGRATE_VERBOSITY,
interactive=MIGRATE_INTERACTIVE,
)
for receiver in [pre_migrate_receiver, post_migrate_receiver]:
args = receiver.call_args
self.assertEqual(receiver.call_counter, 1)
self.assertEqual(set(args), set(SIGNAL_ARGS))
self.assertEqual(args["app_config"], APP_CONFIG)
self.assertEqual(args["verbosity"], MIGRATE_VERBOSITY)
self.assertEqual(args["interactive"], MIGRATE_INTERACTIVE)
self.assertEqual(args["using"], "default")
self.assertIsInstance(args["plan"][0][0], migrations.Migration)
# The migration isn't applied backward.
self.assertFalse(args["plan"][0][1])
self.assertIsInstance(args["apps"], migrations.state.StateApps)
self.assertEqual(pre_migrate_receiver.call_args["apps"].get_models(), [])
self.assertEqual(
[
model._meta.label
for model in post_migrate_receiver.call_args["apps"].get_models()
],
["migrate_signals.Signal"],
)
# Migrating with an empty plan.
pre_migrate_receiver = Receiver(signals.pre_migrate)
post_migrate_receiver = Receiver(signals.post_migrate)
management.call_command(
"migrate",
database=MIGRATE_DATABASE,
verbosity=MIGRATE_VERBOSITY,
interactive=MIGRATE_INTERACTIVE,
)
self.assertEqual(
[
model._meta.label
for model in pre_migrate_receiver.call_args["apps"].get_models()
],
["migrate_signals.Signal"],
)
self.assertEqual(
[
model._meta.label
for model in post_migrate_receiver.call_args["apps"].get_models()
],
["migrate_signals.Signal"],
)
|
f2ded8360e85b2ddc3741b594edb5f1421a6de346a0833a073e44f42e0b692f3 | from unittest import mock, skipUnless
from django.db import connection
from django.db.backends.oracle.client import DatabaseClient
from django.test import SimpleTestCase
@skipUnless(connection.vendor == "oracle", "Requires cx_Oracle to be installed")
class OracleDbshellTests(SimpleTestCase):
def settings_to_cmd_args_env(self, settings_dict, parameters=None, rlwrap=False):
if parameters is None:
parameters = []
with mock.patch(
"shutil.which", return_value="/usr/bin/rlwrap" if rlwrap else None
):
return DatabaseClient.settings_to_cmd_args_env(settings_dict, parameters)
def test_without_rlwrap(self):
expected_args = [
"sqlplus",
"-L",
connection.client.connect_string(connection.settings_dict),
]
self.assertEqual(
self.settings_to_cmd_args_env(connection.settings_dict, rlwrap=False),
(expected_args, None),
)
def test_with_rlwrap(self):
expected_args = [
"/usr/bin/rlwrap",
"sqlplus",
"-L",
connection.client.connect_string(connection.settings_dict),
]
self.assertEqual(
self.settings_to_cmd_args_env(connection.settings_dict, rlwrap=True),
(expected_args, None),
)
def test_parameters(self):
expected_args = [
"sqlplus",
"-L",
connection.client.connect_string(connection.settings_dict),
"-HELP",
]
self.assertEqual(
self.settings_to_cmd_args_env(
connection.settings_dict,
parameters=["-HELP"],
),
(expected_args, None),
)
|
e6bd0df87c193e2820deb3a855a2173ff351c548b6ff07a36afcc5acab647b07 | from unittest import mock
from django.core.management import call_command
from django.core.management.base import CommandError
from django.db import connection
from django.test import SimpleTestCase
class DbshellCommandTestCase(SimpleTestCase):
def test_command_missing(self):
msg = (
"You appear not to have the %r program installed or on your path."
% connection.client.executable_name
)
with self.assertRaisesMessage(CommandError, msg):
with mock.patch("subprocess.run", side_effect=FileNotFoundError):
call_command("dbshell")
|
0ec1e323e38d85866a8f51993e913b6fd0b4be308cc22612b2fe654c357113f4 | import os
import signal
import subprocess
import sys
from pathlib import Path
from unittest import mock, skipUnless
from django.db import connection
from django.db.backends.postgresql.client import DatabaseClient
from django.test import SimpleTestCase
class PostgreSqlDbshellCommandTestCase(SimpleTestCase):
def settings_to_cmd_args_env(self, settings_dict, parameters=None):
if parameters is None:
parameters = []
return DatabaseClient.settings_to_cmd_args_env(settings_dict, parameters)
def test_basic(self):
self.assertEqual(
self.settings_to_cmd_args_env(
{
"NAME": "dbname",
"USER": "someuser",
"PASSWORD": "somepassword",
"HOST": "somehost",
"PORT": "444",
}
),
(
["psql", "-U", "someuser", "-h", "somehost", "-p", "444", "dbname"],
{"PGPASSWORD": "somepassword"},
),
)
def test_nopass(self):
self.assertEqual(
self.settings_to_cmd_args_env(
{
"NAME": "dbname",
"USER": "someuser",
"HOST": "somehost",
"PORT": "444",
}
),
(
["psql", "-U", "someuser", "-h", "somehost", "-p", "444", "dbname"],
None,
),
)
def test_ssl_certificate(self):
self.assertEqual(
self.settings_to_cmd_args_env(
{
"NAME": "dbname",
"USER": "someuser",
"HOST": "somehost",
"PORT": "444",
"OPTIONS": {
"sslmode": "verify-ca",
"sslrootcert": "root.crt",
"sslcert": "client.crt",
"sslkey": "client.key",
},
}
),
(
["psql", "-U", "someuser", "-h", "somehost", "-p", "444", "dbname"],
{
"PGSSLCERT": "client.crt",
"PGSSLKEY": "client.key",
"PGSSLMODE": "verify-ca",
"PGSSLROOTCERT": "root.crt",
},
),
)
def test_service(self):
self.assertEqual(
self.settings_to_cmd_args_env({"OPTIONS": {"service": "django_test"}}),
(["psql"], {"PGSERVICE": "django_test"}),
)
def test_passfile(self):
self.assertEqual(
self.settings_to_cmd_args_env(
{
"NAME": "dbname",
"USER": "someuser",
"HOST": "somehost",
"PORT": "444",
"OPTIONS": {
"passfile": "~/.custompgpass",
},
}
),
(
["psql", "-U", "someuser", "-h", "somehost", "-p", "444", "dbname"],
{"PGPASSFILE": "~/.custompgpass"},
),
)
self.assertEqual(
self.settings_to_cmd_args_env(
{
"OPTIONS": {
"service": "django_test",
"passfile": "~/.custompgpass",
},
}
),
(
["psql"],
{"PGSERVICE": "django_test", "PGPASSFILE": "~/.custompgpass"},
),
)
def test_column(self):
self.assertEqual(
self.settings_to_cmd_args_env(
{
"NAME": "dbname",
"USER": "some:user",
"PASSWORD": "some:password",
"HOST": "::1",
"PORT": "444",
}
),
(
["psql", "-U", "some:user", "-h", "::1", "-p", "444", "dbname"],
{"PGPASSWORD": "some:password"},
),
)
def test_accent(self):
username = "rôle"
password = "sésame"
self.assertEqual(
self.settings_to_cmd_args_env(
{
"NAME": "dbname",
"USER": username,
"PASSWORD": password,
"HOST": "somehost",
"PORT": "444",
}
),
(
["psql", "-U", username, "-h", "somehost", "-p", "444", "dbname"],
{"PGPASSWORD": password},
),
)
def test_parameters(self):
self.assertEqual(
self.settings_to_cmd_args_env({"NAME": "dbname"}, ["--help"]),
(["psql", "dbname", "--help"], None),
)
@skipUnless(connection.vendor == "postgresql", "Requires a PostgreSQL connection")
def test_sigint_handler(self):
"""SIGINT is ignored in Python and passed to psql to abort queries."""
def _mock_subprocess_run(*args, **kwargs):
handler = signal.getsignal(signal.SIGINT)
self.assertEqual(handler, signal.SIG_IGN)
sigint_handler = signal.getsignal(signal.SIGINT)
# The default handler isn't SIG_IGN.
self.assertNotEqual(sigint_handler, signal.SIG_IGN)
with mock.patch("subprocess.run", new=_mock_subprocess_run):
connection.client.runshell([])
# dbshell restores the original handler.
self.assertEqual(sigint_handler, signal.getsignal(signal.SIGINT))
def test_crash_password_does_not_leak(self):
# The password doesn't leak in an exception that results from a client
# crash.
args, env = self.settings_to_cmd_args_env({"PASSWORD": "somepassword"}, [])
if env:
env = {**os.environ, **env}
fake_client = Path(__file__).with_name("fake_client.py")
args[0:1] = [sys.executable, str(fake_client)]
with self.assertRaises(subprocess.CalledProcessError) as ctx:
subprocess.run(args, check=True, env=env)
self.assertNotIn("somepassword", str(ctx.exception))
|
b6f8a4568a189a119ac74ec13a9d9bb4b6a1453512d4779439d9783ffafe0400 | import os
import subprocess
import sys
from pathlib import Path
from django.db.backends.mysql.client import DatabaseClient
from django.test import SimpleTestCase
class MySqlDbshellCommandTestCase(SimpleTestCase):
def settings_to_cmd_args_env(self, settings_dict, parameters=None):
if parameters is None:
parameters = []
return DatabaseClient.settings_to_cmd_args_env(settings_dict, parameters)
def test_fails_with_keyerror_on_incomplete_config(self):
with self.assertRaises(KeyError):
self.settings_to_cmd_args_env({})
def test_basic_params_specified_in_settings(self):
expected_args = [
"mysql",
"--user=someuser",
"--host=somehost",
"--port=444",
"somedbname",
]
expected_env = {"MYSQL_PWD": "somepassword"}
self.assertEqual(
self.settings_to_cmd_args_env(
{
"NAME": "somedbname",
"USER": "someuser",
"PASSWORD": "somepassword",
"HOST": "somehost",
"PORT": 444,
"OPTIONS": {},
}
),
(expected_args, expected_env),
)
def test_options_override_settings_proper_values(self):
settings_port = 444
options_port = 555
self.assertNotEqual(settings_port, options_port, "test pre-req")
expected_args = [
"mysql",
"--user=optionuser",
"--host=optionhost",
"--port=%s" % options_port,
"optiondbname",
]
expected_env = {"MYSQL_PWD": "optionpassword"}
for keys in [("database", "password"), ("db", "passwd")]:
with self.subTest(keys=keys):
database, password = keys
self.assertEqual(
self.settings_to_cmd_args_env(
{
"NAME": "settingdbname",
"USER": "settinguser",
"PASSWORD": "settingpassword",
"HOST": "settinghost",
"PORT": settings_port,
"OPTIONS": {
database: "optiondbname",
"user": "optionuser",
password: "optionpassword",
"host": "optionhost",
"port": options_port,
},
}
),
(expected_args, expected_env),
)
def test_options_non_deprecated_keys_preferred(self):
expected_args = [
"mysql",
"--user=someuser",
"--host=somehost",
"--port=444",
"optiondbname",
]
expected_env = {"MYSQL_PWD": "optionpassword"}
self.assertEqual(
self.settings_to_cmd_args_env(
{
"NAME": "settingdbname",
"USER": "someuser",
"PASSWORD": "settingpassword",
"HOST": "somehost",
"PORT": 444,
"OPTIONS": {
"database": "optiondbname",
"db": "deprecatedoptiondbname",
"password": "optionpassword",
"passwd": "deprecatedoptionpassword",
},
}
),
(expected_args, expected_env),
)
def test_options_charset(self):
expected_args = [
"mysql",
"--user=someuser",
"--host=somehost",
"--port=444",
"--default-character-set=utf8",
"somedbname",
]
expected_env = {"MYSQL_PWD": "somepassword"}
self.assertEqual(
self.settings_to_cmd_args_env(
{
"NAME": "somedbname",
"USER": "someuser",
"PASSWORD": "somepassword",
"HOST": "somehost",
"PORT": 444,
"OPTIONS": {"charset": "utf8"},
}
),
(expected_args, expected_env),
)
def test_can_connect_using_sockets(self):
expected_args = [
"mysql",
"--user=someuser",
"--socket=/path/to/mysql.socket.file",
"somedbname",
]
expected_env = {"MYSQL_PWD": "somepassword"}
self.assertEqual(
self.settings_to_cmd_args_env(
{
"NAME": "somedbname",
"USER": "someuser",
"PASSWORD": "somepassword",
"HOST": "/path/to/mysql.socket.file",
"PORT": None,
"OPTIONS": {},
}
),
(expected_args, expected_env),
)
def test_ssl_certificate_is_added(self):
expected_args = [
"mysql",
"--user=someuser",
"--host=somehost",
"--port=444",
"--ssl-ca=sslca",
"--ssl-cert=sslcert",
"--ssl-key=sslkey",
"somedbname",
]
expected_env = {"MYSQL_PWD": "somepassword"}
self.assertEqual(
self.settings_to_cmd_args_env(
{
"NAME": "somedbname",
"USER": "someuser",
"PASSWORD": "somepassword",
"HOST": "somehost",
"PORT": 444,
"OPTIONS": {
"ssl": {
"ca": "sslca",
"cert": "sslcert",
"key": "sslkey",
},
},
}
),
(expected_args, expected_env),
)
def test_parameters(self):
self.assertEqual(
self.settings_to_cmd_args_env(
{
"NAME": "somedbname",
"USER": None,
"PASSWORD": None,
"HOST": None,
"PORT": None,
"OPTIONS": {},
},
["--help"],
),
(["mysql", "somedbname", "--help"], None),
)
def test_crash_password_does_not_leak(self):
# The password doesn't leak in an exception that results from a client
# crash.
args, env = DatabaseClient.settings_to_cmd_args_env(
{
"NAME": "somedbname",
"USER": "someuser",
"PASSWORD": "somepassword",
"HOST": "somehost",
"PORT": 444,
"OPTIONS": {},
},
[],
)
if env:
env = {**os.environ, **env}
fake_client = Path(__file__).with_name("fake_client.py")
args[0:1] = [sys.executable, str(fake_client)]
with self.assertRaises(subprocess.CalledProcessError) as ctx:
subprocess.run(args, check=True, env=env)
self.assertNotIn("somepassword", str(ctx.exception))
|
ab01a7614524741cfb1e01cb462cef51541bbeeb5ac469dc5f6b46e1dd27f867 | from pathlib import Path
from django.db.backends.sqlite3.client import DatabaseClient
from django.test import SimpleTestCase
class SqliteDbshellCommandTestCase(SimpleTestCase):
def settings_to_cmd_args_env(self, settings_dict, parameters=None):
if parameters is None:
parameters = []
return DatabaseClient.settings_to_cmd_args_env(settings_dict, parameters)
def test_path_name(self):
self.assertEqual(
self.settings_to_cmd_args_env({"NAME": Path("test.db.sqlite3")}),
(["sqlite3", Path("test.db.sqlite3")], None),
)
def test_parameters(self):
self.assertEqual(
self.settings_to_cmd_args_env({"NAME": "test.db.sqlite3"}, ["-help"]),
(["sqlite3", "test.db.sqlite3", "-help"], None),
)
|
09ec3cdabb87a34de2ca929c9ca763ac3e5987e4eca679289ed6a61a6a1353c2 | from datetime import date
from decimal import Decimal
from unittest import mock
from django.db import connection, transaction
from django.db.models import (
Case,
Count,
DecimalField,
F,
FilteredRelation,
Q,
Sum,
When,
)
from django.test import TestCase
from django.test.testcases import skipUnlessDBFeature
from .models import (
Author,
Book,
BookDailySales,
Borrower,
Currency,
Editor,
ExchangeRate,
RentalSession,
Reservation,
Seller,
)
class FilteredRelationTests(TestCase):
@classmethod
def setUpTestData(cls):
cls.author1 = Author.objects.create(name="Alice")
cls.author2 = Author.objects.create(name="Jane")
cls.editor_a = Editor.objects.create(name="a")
cls.editor_b = Editor.objects.create(name="b")
cls.book1 = Book.objects.create(
title="Poem by Alice",
editor=cls.editor_a,
author=cls.author1,
)
cls.book1.generic_author.set([cls.author2])
cls.book2 = Book.objects.create(
title="The book by Jane A",
editor=cls.editor_b,
author=cls.author2,
)
cls.book3 = Book.objects.create(
title="The book by Jane B",
editor=cls.editor_b,
author=cls.author2,
)
cls.book4 = Book.objects.create(
title="The book by Alice",
editor=cls.editor_a,
author=cls.author1,
)
cls.author1.favorite_books.add(cls.book2)
cls.author1.favorite_books.add(cls.book3)
def test_select_related(self):
qs = (
Author.objects.annotate(
book_join=FilteredRelation("book"),
)
.select_related("book_join__editor")
.order_by("pk", "book_join__pk")
)
with self.assertNumQueries(1):
self.assertQuerysetEqual(
qs,
[
(self.author1, self.book1, self.editor_a, self.author1),
(self.author1, self.book4, self.editor_a, self.author1),
(self.author2, self.book2, self.editor_b, self.author2),
(self.author2, self.book3, self.editor_b, self.author2),
],
lambda x: (x, x.book_join, x.book_join.editor, x.book_join.author),
)
def test_select_related_multiple(self):
qs = (
Book.objects.annotate(
author_join=FilteredRelation("author"),
editor_join=FilteredRelation("editor"),
)
.select_related("author_join", "editor_join")
.order_by("pk")
)
self.assertQuerysetEqual(
qs,
[
(self.book1, self.author1, self.editor_a),
(self.book2, self.author2, self.editor_b),
(self.book3, self.author2, self.editor_b),
(self.book4, self.author1, self.editor_a),
],
lambda x: (x, x.author_join, x.editor_join),
)
def test_select_related_with_empty_relation(self):
qs = (
Author.objects.annotate(
book_join=FilteredRelation("book", condition=Q(pk=-1)),
)
.select_related("book_join")
.order_by("pk")
)
self.assertSequenceEqual(qs, [self.author1, self.author2])
def test_select_related_foreign_key(self):
qs = (
Book.objects.annotate(
author_join=FilteredRelation("author"),
)
.select_related("author_join")
.order_by("pk")
)
with self.assertNumQueries(1):
self.assertQuerysetEqual(
qs,
[
(self.book1, self.author1),
(self.book2, self.author2),
(self.book3, self.author2),
(self.book4, self.author1),
],
lambda x: (x, x.author_join),
)
@skipUnlessDBFeature("has_select_for_update", "has_select_for_update_of")
def test_select_related_foreign_key_for_update_of(self):
with transaction.atomic():
qs = (
Book.objects.annotate(
author_join=FilteredRelation("author"),
)
.select_related("author_join")
.select_for_update(of=("self",))
.order_by("pk")
)
with self.assertNumQueries(1):
self.assertQuerysetEqual(
qs,
[
(self.book1, self.author1),
(self.book2, self.author2),
(self.book3, self.author2),
(self.book4, self.author1),
],
lambda x: (x, x.author_join),
)
def test_without_join(self):
self.assertSequenceEqual(
Author.objects.annotate(
book_alice=FilteredRelation(
"book", condition=Q(book__title__iexact="poem by alice")
),
),
[self.author1, self.author2],
)
def test_with_join(self):
self.assertSequenceEqual(
Author.objects.annotate(
book_alice=FilteredRelation(
"book", condition=Q(book__title__iexact="poem by alice")
),
).filter(book_alice__isnull=False),
[self.author1],
)
def test_with_exclude(self):
self.assertSequenceEqual(
Author.objects.annotate(
book_alice=FilteredRelation(
"book", condition=Q(book__title__iexact="poem by alice")
),
).exclude(book_alice__isnull=False),
[self.author2],
)
def test_with_join_and_complex_condition(self):
self.assertSequenceEqual(
Author.objects.annotate(
book_alice=FilteredRelation(
"book",
condition=Q(
Q(book__title__iexact="poem by alice")
| Q(book__state=Book.RENTED)
),
),
).filter(book_alice__isnull=False),
[self.author1],
)
def test_internal_queryset_alias_mapping(self):
queryset = Author.objects.annotate(
book_alice=FilteredRelation(
"book", condition=Q(book__title__iexact="poem by alice")
),
).filter(book_alice__isnull=False)
self.assertIn(
"INNER JOIN {} book_alice ON".format(
connection.ops.quote_name("filtered_relation_book")
),
str(queryset.query),
)
def test_with_multiple_filter(self):
self.assertSequenceEqual(
Author.objects.annotate(
book_editor_a=FilteredRelation(
"book",
condition=Q(
book__title__icontains="book", book__editor_id=self.editor_a.pk
),
),
).filter(book_editor_a__isnull=False),
[self.author1],
)
def test_multiple_times(self):
self.assertSequenceEqual(
Author.objects.annotate(
book_title_alice=FilteredRelation(
"book", condition=Q(book__title__icontains="alice")
),
)
.filter(book_title_alice__isnull=False)
.filter(book_title_alice__isnull=False)
.distinct(),
[self.author1],
)
def test_exclude_relation_with_join(self):
self.assertSequenceEqual(
Author.objects.annotate(
book_alice=FilteredRelation(
"book", condition=~Q(book__title__icontains="alice")
),
)
.filter(book_alice__isnull=False)
.distinct(),
[self.author2],
)
def test_with_m2m(self):
qs = Author.objects.annotate(
favorite_books_written_by_jane=FilteredRelation(
"favorite_books",
condition=Q(favorite_books__in=[self.book2]),
),
).filter(favorite_books_written_by_jane__isnull=False)
self.assertSequenceEqual(qs, [self.author1])
def test_with_m2m_deep(self):
qs = Author.objects.annotate(
favorite_books_written_by_jane=FilteredRelation(
"favorite_books",
condition=Q(favorite_books__author=self.author2),
),
).filter(favorite_books_written_by_jane__title="The book by Jane B")
self.assertSequenceEqual(qs, [self.author1])
def test_with_m2m_multijoin(self):
qs = (
Author.objects.annotate(
favorite_books_written_by_jane=FilteredRelation(
"favorite_books",
condition=Q(favorite_books__author=self.author2),
)
)
.filter(favorite_books_written_by_jane__editor__name="b")
.distinct()
)
self.assertSequenceEqual(qs, [self.author1])
def test_values_list(self):
self.assertSequenceEqual(
Author.objects.annotate(
book_alice=FilteredRelation(
"book", condition=Q(book__title__iexact="poem by alice")
),
)
.filter(book_alice__isnull=False)
.values_list("book_alice__title", flat=True),
["Poem by Alice"],
)
def test_values(self):
self.assertSequenceEqual(
Author.objects.annotate(
book_alice=FilteredRelation(
"book", condition=Q(book__title__iexact="poem by alice")
),
)
.filter(book_alice__isnull=False)
.values(),
[
{
"id": self.author1.pk,
"name": "Alice",
"content_type_id": None,
"object_id": None,
}
],
)
def test_extra(self):
self.assertSequenceEqual(
Author.objects.annotate(
book_alice=FilteredRelation(
"book", condition=Q(book__title__iexact="poem by alice")
),
)
.filter(book_alice__isnull=False)
.extra(where=["1 = 1"]),
[self.author1],
)
@skipUnlessDBFeature("supports_select_union")
def test_union(self):
qs1 = Author.objects.annotate(
book_alice=FilteredRelation(
"book", condition=Q(book__title__iexact="poem by alice")
),
).filter(book_alice__isnull=False)
qs2 = Author.objects.annotate(
book_jane=FilteredRelation(
"book", condition=Q(book__title__iexact="the book by jane a")
),
).filter(book_jane__isnull=False)
self.assertSequenceEqual(qs1.union(qs2), [self.author1, self.author2])
@skipUnlessDBFeature("supports_select_intersection")
def test_intersection(self):
qs1 = Author.objects.annotate(
book_alice=FilteredRelation(
"book", condition=Q(book__title__iexact="poem by alice")
),
).filter(book_alice__isnull=False)
qs2 = Author.objects.annotate(
book_jane=FilteredRelation(
"book", condition=Q(book__title__iexact="the book by jane a")
),
).filter(book_jane__isnull=False)
self.assertSequenceEqual(qs1.intersection(qs2), [])
@skipUnlessDBFeature("supports_select_difference")
def test_difference(self):
qs1 = Author.objects.annotate(
book_alice=FilteredRelation(
"book", condition=Q(book__title__iexact="poem by alice")
),
).filter(book_alice__isnull=False)
qs2 = Author.objects.annotate(
book_jane=FilteredRelation(
"book", condition=Q(book__title__iexact="the book by jane a")
),
).filter(book_jane__isnull=False)
self.assertSequenceEqual(qs1.difference(qs2), [self.author1])
def test_select_for_update(self):
self.assertSequenceEqual(
Author.objects.annotate(
book_jane=FilteredRelation(
"book", condition=Q(book__title__iexact="the book by jane a")
),
)
.filter(book_jane__isnull=False)
.select_for_update(),
[self.author2],
)
def test_defer(self):
# One query for the list and one query for the deferred title.
with self.assertNumQueries(2):
self.assertQuerysetEqual(
Author.objects.annotate(
book_alice=FilteredRelation(
"book", condition=Q(book__title__iexact="poem by alice")
),
)
.filter(book_alice__isnull=False)
.select_related("book_alice")
.defer("book_alice__title"),
["Poem by Alice"],
lambda author: author.book_alice.title,
)
def test_only_not_supported(self):
msg = "only() is not supported with FilteredRelation."
with self.assertRaisesMessage(ValueError, msg):
Author.objects.annotate(
book_alice=FilteredRelation(
"book", condition=Q(book__title__iexact="poem by alice")
),
).filter(book_alice__isnull=False).select_related("book_alice").only(
"book_alice__state"
)
def test_as_subquery(self):
inner_qs = Author.objects.annotate(
book_alice=FilteredRelation(
"book", condition=Q(book__title__iexact="poem by alice")
),
).filter(book_alice__isnull=False)
qs = Author.objects.filter(id__in=inner_qs)
self.assertSequenceEqual(qs, [self.author1])
def test_nested_foreign_key(self):
qs = (
Author.objects.annotate(
book_editor_worked_with=FilteredRelation(
"book__editor",
condition=Q(book__title__icontains="book by"),
),
)
.filter(
book_editor_worked_with__isnull=False,
)
.select_related(
"book_editor_worked_with",
)
.order_by("pk", "book_editor_worked_with__pk")
)
with self.assertNumQueries(1):
self.assertQuerysetEqual(
qs,
[
(self.author1, self.editor_a),
(self.author2, self.editor_b),
(self.author2, self.editor_b),
],
lambda x: (x, x.book_editor_worked_with),
)
def test_nested_foreign_key_nested_field(self):
qs = (
Author.objects.annotate(
book_editor_worked_with=FilteredRelation(
"book__editor", condition=Q(book__title__icontains="book by")
),
)
.filter(
book_editor_worked_with__isnull=False,
)
.values(
"name",
"book_editor_worked_with__name",
)
.order_by("name", "book_editor_worked_with__name")
.distinct()
)
self.assertSequenceEqual(
qs,
[
{
"name": self.author1.name,
"book_editor_worked_with__name": self.editor_a.name,
},
{
"name": self.author2.name,
"book_editor_worked_with__name": self.editor_b.name,
},
],
)
def test_nested_foreign_key_filtered_base_object(self):
qs = (
Author.objects.annotate(
alice_editors=FilteredRelation(
"book__editor",
condition=Q(name="Alice"),
),
)
.values(
"name",
"alice_editors__pk",
)
.order_by("name", "alice_editors__name")
.distinct()
)
self.assertSequenceEqual(
qs,
[
{"name": self.author1.name, "alice_editors__pk": self.editor_a.pk},
{"name": self.author2.name, "alice_editors__pk": None},
],
)
def test_nested_m2m_filtered(self):
qs = (
Book.objects.annotate(
favorite_book=FilteredRelation(
"author__favorite_books",
condition=Q(author__favorite_books__title__icontains="book by"),
),
)
.values(
"title",
"favorite_book__pk",
)
.order_by("title", "favorite_book__title")
)
self.assertSequenceEqual(
qs,
[
{"title": self.book1.title, "favorite_book__pk": self.book2.pk},
{"title": self.book1.title, "favorite_book__pk": self.book3.pk},
{"title": self.book4.title, "favorite_book__pk": self.book2.pk},
{"title": self.book4.title, "favorite_book__pk": self.book3.pk},
{"title": self.book2.title, "favorite_book__pk": None},
{"title": self.book3.title, "favorite_book__pk": None},
],
)
def test_nested_chained_relations(self):
qs = (
Author.objects.annotate(
my_books=FilteredRelation(
"book",
condition=Q(book__title__icontains="book by"),
),
preferred_by_authors=FilteredRelation(
"my_books__preferred_by_authors",
condition=Q(my_books__preferred_by_authors__name="Alice"),
),
)
.annotate(
author=F("name"),
book_title=F("my_books__title"),
preferred_by_author_pk=F("preferred_by_authors"),
)
.order_by("author", "book_title", "preferred_by_author_pk")
)
self.assertQuerysetEqual(
qs,
[
("Alice", "The book by Alice", None),
("Jane", "The book by Jane A", self.author1.pk),
("Jane", "The book by Jane B", self.author1.pk),
],
lambda x: (x.author, x.book_title, x.preferred_by_author_pk),
)
def test_deep_nested_foreign_key(self):
qs = (
Book.objects.annotate(
author_favorite_book_editor=FilteredRelation(
"author__favorite_books__editor",
condition=Q(author__favorite_books__title__icontains="Jane A"),
),
)
.filter(
author_favorite_book_editor__isnull=False,
)
.select_related(
"author_favorite_book_editor",
)
.order_by("pk", "author_favorite_book_editor__pk")
)
with self.assertNumQueries(1):
self.assertQuerysetEqual(
qs,
[
(self.book1, self.editor_b),
(self.book4, self.editor_b),
],
lambda x: (x, x.author_favorite_book_editor),
)
def test_relation_name_lookup(self):
msg = (
"FilteredRelation's relation_name cannot contain lookups (got "
"'book__title__icontains')."
)
with self.assertRaisesMessage(ValueError, msg):
Author.objects.annotate(
book_title=FilteredRelation(
"book__title__icontains",
condition=Q(book__title="Poem by Alice"),
),
)
def test_condition_outside_relation_name(self):
msg = (
"FilteredRelation's condition doesn't support relations outside "
"the 'book__editor' (got 'book__author__name__icontains')."
)
with self.assertRaisesMessage(ValueError, msg):
Author.objects.annotate(
book_editor=FilteredRelation(
"book__editor",
condition=Q(book__author__name__icontains="book"),
),
)
def test_condition_deeper_relation_name(self):
msg = (
"FilteredRelation's condition doesn't support nested relations "
"deeper than the relation_name (got "
"'book__editor__name__icontains' for 'book')."
)
with self.assertRaisesMessage(ValueError, msg):
Author.objects.annotate(
book_editor=FilteredRelation(
"book",
condition=Q(book__editor__name__icontains="b"),
),
)
def test_with_empty_relation_name_error(self):
with self.assertRaisesMessage(ValueError, "relation_name cannot be empty."):
FilteredRelation("", condition=Q(blank=""))
def test_with_condition_as_expression_error(self):
msg = "condition argument must be a Q() instance."
expression = Case(
When(book__title__iexact="poem by alice", then=True),
default=False,
)
with self.assertRaisesMessage(ValueError, msg):
FilteredRelation("book", condition=expression)
def test_with_prefetch_related(self):
msg = "prefetch_related() is not supported with FilteredRelation."
qs = Author.objects.annotate(
book_title_contains_b=FilteredRelation(
"book", condition=Q(book__title__icontains="b")
),
).filter(
book_title_contains_b__isnull=False,
)
with self.assertRaisesMessage(ValueError, msg):
qs.prefetch_related("book_title_contains_b")
with self.assertRaisesMessage(ValueError, msg):
qs.prefetch_related("book_title_contains_b__editor")
def test_with_generic_foreign_key(self):
self.assertSequenceEqual(
Book.objects.annotate(
generic_authored_book=FilteredRelation(
"generic_author", condition=Q(generic_author__isnull=False)
),
).filter(generic_authored_book__isnull=False),
[self.book1],
)
def test_eq(self):
self.assertEqual(
FilteredRelation("book", condition=Q(book__title="b")), mock.ANY
)
class FilteredRelationAggregationTests(TestCase):
@classmethod
def setUpTestData(cls):
cls.author1 = Author.objects.create(name="Alice")
cls.editor_a = Editor.objects.create(name="a")
cls.book1 = Book.objects.create(
title="Poem by Alice",
editor=cls.editor_a,
author=cls.author1,
)
cls.borrower1 = Borrower.objects.create(name="Jenny")
cls.borrower2 = Borrower.objects.create(name="Kevin")
# borrower 1 reserves, rents, and returns book1.
Reservation.objects.create(
borrower=cls.borrower1,
book=cls.book1,
state=Reservation.STOPPED,
)
RentalSession.objects.create(
borrower=cls.borrower1,
book=cls.book1,
state=RentalSession.STOPPED,
)
# borrower2 reserves, rents, and returns book1.
Reservation.objects.create(
borrower=cls.borrower2,
book=cls.book1,
state=Reservation.STOPPED,
)
RentalSession.objects.create(
borrower=cls.borrower2,
book=cls.book1,
state=RentalSession.STOPPED,
)
def test_aggregate(self):
"""
filtered_relation() not only improves performance but also creates
correct results when aggregating with multiple LEFT JOINs.
Books can be reserved then rented by a borrower. Each reservation and
rental session are recorded with Reservation and RentalSession models.
Every time a reservation or a rental session is over, their state is
changed to 'stopped'.
Goal: Count number of books that are either currently reserved or
rented by borrower1 or available.
"""
qs = (
Book.objects.annotate(
is_reserved_or_rented_by=Case(
When(
reservation__state=Reservation.NEW,
then=F("reservation__borrower__pk"),
),
When(
rental_session__state=RentalSession.NEW,
then=F("rental_session__borrower__pk"),
),
default=None,
)
)
.filter(
Q(is_reserved_or_rented_by=self.borrower1.pk) | Q(state=Book.AVAILABLE)
)
.distinct()
)
self.assertEqual(qs.count(), 1)
# If count is equal to 1, the same aggregation should return in the
# same result but it returns 4.
self.assertSequenceEqual(
qs.annotate(total=Count("pk")).values("total"), [{"total": 4}]
)
# With FilteredRelation, the result is as expected (1).
qs = (
Book.objects.annotate(
active_reservations=FilteredRelation(
"reservation",
condition=Q(
reservation__state=Reservation.NEW,
reservation__borrower=self.borrower1,
),
),
)
.annotate(
active_rental_sessions=FilteredRelation(
"rental_session",
condition=Q(
rental_session__state=RentalSession.NEW,
rental_session__borrower=self.borrower1,
),
),
)
.filter(
(
Q(active_reservations__isnull=False)
| Q(active_rental_sessions__isnull=False)
)
| Q(state=Book.AVAILABLE)
)
.distinct()
)
self.assertEqual(qs.count(), 1)
self.assertSequenceEqual(
qs.annotate(total=Count("pk")).values("total"), [{"total": 1}]
)
class FilteredRelationAnalyticalAggregationTests(TestCase):
@classmethod
def setUpTestData(cls):
author = Author.objects.create(name="Author")
editor = Editor.objects.create(name="Editor")
cls.book1 = Book.objects.create(
title="Poem by Alice",
editor=editor,
author=author,
)
cls.book2 = Book.objects.create(
title="The book by Jane A",
editor=editor,
author=author,
)
cls.book3 = Book.objects.create(
title="The book by Jane B",
editor=editor,
author=author,
)
cls.seller1 = Seller.objects.create(name="Seller 1")
cls.seller2 = Seller.objects.create(name="Seller 2")
cls.usd = Currency.objects.create(currency="USD")
cls.eur = Currency.objects.create(currency="EUR")
cls.sales_date1 = date(2020, 7, 6)
cls.sales_date2 = date(2020, 7, 7)
ExchangeRate.objects.bulk_create(
[
ExchangeRate(
rate_date=cls.sales_date1,
from_currency=cls.usd,
to_currency=cls.eur,
rate=0.40,
),
ExchangeRate(
rate_date=cls.sales_date1,
from_currency=cls.eur,
to_currency=cls.usd,
rate=1.60,
),
ExchangeRate(
rate_date=cls.sales_date2,
from_currency=cls.usd,
to_currency=cls.eur,
rate=0.50,
),
ExchangeRate(
rate_date=cls.sales_date2,
from_currency=cls.eur,
to_currency=cls.usd,
rate=1.50,
),
ExchangeRate(
rate_date=cls.sales_date2,
from_currency=cls.usd,
to_currency=cls.usd,
rate=1.00,
),
]
)
BookDailySales.objects.bulk_create(
[
BookDailySales(
book=cls.book1,
sale_date=cls.sales_date1,
currency=cls.usd,
sales=100.00,
seller=cls.seller1,
),
BookDailySales(
book=cls.book2,
sale_date=cls.sales_date1,
currency=cls.eur,
sales=200.00,
seller=cls.seller1,
),
BookDailySales(
book=cls.book1,
sale_date=cls.sales_date2,
currency=cls.usd,
sales=50.00,
seller=cls.seller2,
),
BookDailySales(
book=cls.book2,
sale_date=cls.sales_date2,
currency=cls.eur,
sales=100.00,
seller=cls.seller2,
),
]
)
def test_aggregate(self):
tests = [
Q(daily_sales__sale_date__gte=self.sales_date2),
~Q(daily_sales__seller=self.seller1),
]
for condition in tests:
with self.subTest(condition=condition):
qs = (
Book.objects.annotate(
recent_sales=FilteredRelation(
"daily_sales", condition=condition
),
recent_sales_rates=FilteredRelation(
"recent_sales__currency__rates_from",
condition=Q(
recent_sales__currency__rates_from__rate_date=F(
"recent_sales__sale_date"
),
recent_sales__currency__rates_from__to_currency=(
self.usd
),
),
),
)
.annotate(
sales_sum=Sum(
F("recent_sales__sales") * F("recent_sales_rates__rate"),
output_field=DecimalField(),
),
)
.values("title", "sales_sum")
.order_by(
F("sales_sum").desc(nulls_last=True),
)
)
self.assertSequenceEqual(
qs,
[
{"title": self.book2.title, "sales_sum": Decimal(150.00)},
{"title": self.book1.title, "sales_sum": Decimal(50.00)},
{"title": self.book3.title, "sales_sum": None},
],
)
|
6fe3c6149d7933e9f97273ff2530e40f9c69e3891f2de38769cea9eeffc85465 | from django.contrib.contenttypes.fields import GenericForeignKey, GenericRelation
from django.contrib.contenttypes.models import ContentType
from django.db import models
class Author(models.Model):
name = models.CharField(max_length=50, unique=True)
favorite_books = models.ManyToManyField(
"Book",
related_name="preferred_by_authors",
related_query_name="preferred_by_authors",
)
content_type = models.ForeignKey(ContentType, models.CASCADE, null=True)
object_id = models.PositiveIntegerField(null=True)
content_object = GenericForeignKey()
class Editor(models.Model):
name = models.CharField(max_length=255)
class Book(models.Model):
AVAILABLE = "available"
RESERVED = "reserved"
RENTED = "rented"
STATES = (
(AVAILABLE, "Available"),
(RESERVED, "reserved"),
(RENTED, "Rented"),
)
title = models.CharField(max_length=255)
author = models.ForeignKey(
Author,
models.CASCADE,
related_name="books",
related_query_name="book",
)
editor = models.ForeignKey(Editor, models.CASCADE)
generic_author = GenericRelation(Author)
state = models.CharField(max_length=9, choices=STATES, default=AVAILABLE)
class Borrower(models.Model):
name = models.CharField(max_length=50, unique=True)
class Reservation(models.Model):
NEW = "new"
STOPPED = "stopped"
STATES = (
(NEW, "New"),
(STOPPED, "Stopped"),
)
borrower = models.ForeignKey(
Borrower,
models.CASCADE,
related_name="reservations",
related_query_name="reservation",
)
book = models.ForeignKey(
Book,
models.CASCADE,
related_name="reservations",
related_query_name="reservation",
)
state = models.CharField(max_length=7, choices=STATES, default=NEW)
class RentalSession(models.Model):
NEW = "new"
STOPPED = "stopped"
STATES = (
(NEW, "New"),
(STOPPED, "Stopped"),
)
borrower = models.ForeignKey(
Borrower,
models.CASCADE,
related_name="rental_sessions",
related_query_name="rental_session",
)
book = models.ForeignKey(
Book,
models.CASCADE,
related_name="rental_sessions",
related_query_name="rental_session",
)
state = models.CharField(max_length=7, choices=STATES, default=NEW)
class Seller(models.Model):
name = models.CharField(max_length=255)
class Currency(models.Model):
currency = models.CharField(max_length=3)
class ExchangeRate(models.Model):
rate_date = models.DateField()
from_currency = models.ForeignKey(
Currency,
models.CASCADE,
related_name="rates_from",
)
to_currency = models.ForeignKey(
Currency,
models.CASCADE,
related_name="rates_to",
)
rate = models.DecimalField(max_digits=6, decimal_places=4)
class BookDailySales(models.Model):
book = models.ForeignKey(Book, models.CASCADE, related_name="daily_sales")
sale_date = models.DateField()
currency = models.ForeignKey(Currency, models.CASCADE)
seller = models.ForeignKey(Seller, models.CASCADE)
sales = models.DecimalField(max_digits=10, decimal_places=2)
|
0a69aeb2f61e44b10e1b82db89fa37fc3f44b77d375bb5fbe7ecd7d5f78e2e3e | import gettext
import os
import re
from datetime import datetime, timedelta
from importlib import import_module
try:
import zoneinfo
except ImportError:
from backports import zoneinfo
from django import forms
from django.conf import settings
from django.contrib import admin
from django.contrib.admin import widgets
from django.contrib.admin.tests import AdminSeleniumTestCase
from django.contrib.auth.models import User
from django.core.files.storage import default_storage
from django.core.files.uploadedfile import SimpleUploadedFile
from django.db.models import (
CharField,
DateField,
DateTimeField,
ManyToManyField,
UUIDField,
)
from django.test import SimpleTestCase, TestCase, override_settings
from django.urls import reverse
from django.utils import translation
from .models import (
Advisor,
Album,
Band,
Bee,
Car,
Company,
Event,
Honeycomb,
Individual,
Inventory,
Member,
MyFileField,
Profile,
ReleaseEvent,
School,
Student,
UnsafeLimitChoicesTo,
VideoStream,
)
from .widgetadmin import site as widget_admin_site
class TestDataMixin:
@classmethod
def setUpTestData(cls):
cls.superuser = User.objects.create_superuser(
username="super", password="secret", email=None
)
cls.u2 = User.objects.create_user(username="testser", password="secret")
Car.objects.create(owner=cls.superuser, make="Volkswagen", model="Passat")
Car.objects.create(owner=cls.u2, make="BMW", model="M3")
class AdminFormfieldForDBFieldTests(SimpleTestCase):
"""
Tests for correct behavior of ModelAdmin.formfield_for_dbfield
"""
def assertFormfield(self, model, fieldname, widgetclass, **admin_overrides):
"""
Helper to call formfield_for_dbfield for a given model and field name
and verify that the returned formfield is appropriate.
"""
# Override any settings on the model admin
class MyModelAdmin(admin.ModelAdmin):
pass
for k in admin_overrides:
setattr(MyModelAdmin, k, admin_overrides[k])
# Construct the admin, and ask it for a formfield
ma = MyModelAdmin(model, admin.site)
ff = ma.formfield_for_dbfield(model._meta.get_field(fieldname), request=None)
# "unwrap" the widget wrapper, if needed
if isinstance(ff.widget, widgets.RelatedFieldWidgetWrapper):
widget = ff.widget.widget
else:
widget = ff.widget
self.assertIsInstance(widget, widgetclass)
# Return the formfield so that other tests can continue
return ff
def test_DateField(self):
self.assertFormfield(Event, "start_date", widgets.AdminDateWidget)
def test_DateTimeField(self):
self.assertFormfield(Member, "birthdate", widgets.AdminSplitDateTime)
def test_TimeField(self):
self.assertFormfield(Event, "start_time", widgets.AdminTimeWidget)
def test_TextField(self):
self.assertFormfield(Event, "description", widgets.AdminTextareaWidget)
def test_URLField(self):
self.assertFormfield(Event, "link", widgets.AdminURLFieldWidget)
def test_IntegerField(self):
self.assertFormfield(Event, "min_age", widgets.AdminIntegerFieldWidget)
def test_CharField(self):
self.assertFormfield(Member, "name", widgets.AdminTextInputWidget)
def test_EmailField(self):
self.assertFormfield(Member, "email", widgets.AdminEmailInputWidget)
def test_FileField(self):
self.assertFormfield(Album, "cover_art", widgets.AdminFileWidget)
def test_ForeignKey(self):
self.assertFormfield(Event, "main_band", forms.Select)
def test_raw_id_ForeignKey(self):
self.assertFormfield(
Event,
"main_band",
widgets.ForeignKeyRawIdWidget,
raw_id_fields=["main_band"],
)
def test_radio_fields_ForeignKey(self):
ff = self.assertFormfield(
Event,
"main_band",
widgets.AdminRadioSelect,
radio_fields={"main_band": admin.VERTICAL},
)
self.assertIsNone(ff.empty_label)
def test_many_to_many(self):
self.assertFormfield(Band, "members", forms.SelectMultiple)
def test_raw_id_many_to_many(self):
self.assertFormfield(
Band, "members", widgets.ManyToManyRawIdWidget, raw_id_fields=["members"]
)
def test_filtered_many_to_many(self):
self.assertFormfield(
Band, "members", widgets.FilteredSelectMultiple, filter_vertical=["members"]
)
def test_formfield_overrides(self):
self.assertFormfield(
Event,
"start_date",
forms.TextInput,
formfield_overrides={DateField: {"widget": forms.TextInput}},
)
def test_formfield_overrides_widget_instances(self):
"""
Widget instances in formfield_overrides are not shared between
different fields. (#19423)
"""
class BandAdmin(admin.ModelAdmin):
formfield_overrides = {
CharField: {"widget": forms.TextInput(attrs={"size": "10"})}
}
ma = BandAdmin(Band, admin.site)
f1 = ma.formfield_for_dbfield(Band._meta.get_field("name"), request=None)
f2 = ma.formfield_for_dbfield(Band._meta.get_field("style"), request=None)
self.assertNotEqual(f1.widget, f2.widget)
self.assertEqual(f1.widget.attrs["maxlength"], "100")
self.assertEqual(f2.widget.attrs["maxlength"], "20")
self.assertEqual(f2.widget.attrs["size"], "10")
def test_formfield_overrides_m2m_filter_widget(self):
"""
The autocomplete_fields, raw_id_fields, filter_vertical, and
filter_horizontal widgets for ManyToManyFields may be overridden by
specifying a widget in formfield_overrides.
"""
class BandAdmin(admin.ModelAdmin):
filter_vertical = ["members"]
formfield_overrides = {
ManyToManyField: {"widget": forms.CheckboxSelectMultiple},
}
ma = BandAdmin(Band, admin.site)
field = ma.formfield_for_dbfield(Band._meta.get_field("members"), request=None)
self.assertIsInstance(field.widget.widget, forms.CheckboxSelectMultiple)
def test_formfield_overrides_for_datetime_field(self):
"""
Overriding the widget for DateTimeField doesn't overrides the default
form_class for that field (#26449).
"""
class MemberAdmin(admin.ModelAdmin):
formfield_overrides = {
DateTimeField: {"widget": widgets.AdminSplitDateTime}
}
ma = MemberAdmin(Member, admin.site)
f1 = ma.formfield_for_dbfield(Member._meta.get_field("birthdate"), request=None)
self.assertIsInstance(f1.widget, widgets.AdminSplitDateTime)
self.assertIsInstance(f1, forms.SplitDateTimeField)
def test_formfield_overrides_for_custom_field(self):
"""
formfield_overrides works for a custom field class.
"""
class AlbumAdmin(admin.ModelAdmin):
formfield_overrides = {MyFileField: {"widget": forms.TextInput()}}
ma = AlbumAdmin(Member, admin.site)
f1 = ma.formfield_for_dbfield(
Album._meta.get_field("backside_art"), request=None
)
self.assertIsInstance(f1.widget, forms.TextInput)
def test_field_with_choices(self):
self.assertFormfield(Member, "gender", forms.Select)
def test_choices_with_radio_fields(self):
self.assertFormfield(
Member,
"gender",
widgets.AdminRadioSelect,
radio_fields={"gender": admin.VERTICAL},
)
def test_inheritance(self):
self.assertFormfield(Album, "backside_art", widgets.AdminFileWidget)
def test_m2m_widgets(self):
"""m2m fields help text as it applies to admin app (#9321)."""
class AdvisorAdmin(admin.ModelAdmin):
filter_vertical = ["companies"]
self.assertFormfield(
Advisor,
"companies",
widgets.FilteredSelectMultiple,
filter_vertical=["companies"],
)
ma = AdvisorAdmin(Advisor, admin.site)
f = ma.formfield_for_dbfield(Advisor._meta.get_field("companies"), request=None)
self.assertEqual(
f.help_text,
"Hold down “Control”, or “Command” on a Mac, to select more than one.",
)
@override_settings(ROOT_URLCONF="admin_widgets.urls")
class AdminFormfieldForDBFieldWithRequestTests(TestDataMixin, TestCase):
def test_filter_choices_by_request_user(self):
"""
Ensure the user can only see their own cars in the foreign key dropdown.
"""
self.client.force_login(self.superuser)
response = self.client.get(reverse("admin:admin_widgets_cartire_add"))
self.assertNotContains(response, "BMW M3")
self.assertContains(response, "Volkswagen Passat")
@override_settings(ROOT_URLCONF="admin_widgets.urls")
class AdminForeignKeyWidgetChangeList(TestDataMixin, TestCase):
def setUp(self):
self.client.force_login(self.superuser)
def test_changelist_ForeignKey(self):
response = self.client.get(reverse("admin:admin_widgets_car_changelist"))
self.assertContains(response, "/auth/user/add/")
@override_settings(ROOT_URLCONF="admin_widgets.urls")
class AdminForeignKeyRawIdWidget(TestDataMixin, TestCase):
def setUp(self):
self.client.force_login(self.superuser)
def test_nonexistent_target_id(self):
band = Band.objects.create(name="Bogey Blues")
pk = band.pk
band.delete()
post_data = {
"main_band": str(pk),
}
# Try posting with a nonexistent pk in a raw id field: this
# should result in an error message, not a server exception.
response = self.client.post(reverse("admin:admin_widgets_event_add"), post_data)
self.assertContains(
response,
"Select a valid choice. That choice is not one of the available choices.",
)
def test_invalid_target_id(self):
for test_str in ("Iñtërnâtiônàlizætiøn", "1234'", -1234):
# This should result in an error message, not a server exception.
response = self.client.post(
reverse("admin:admin_widgets_event_add"), {"main_band": test_str}
)
self.assertContains(
response,
"Select a valid choice. That choice is not one of the available "
"choices.",
)
def test_url_params_from_lookup_dict_any_iterable(self):
lookup1 = widgets.url_params_from_lookup_dict({"color__in": ("red", "blue")})
lookup2 = widgets.url_params_from_lookup_dict({"color__in": ["red", "blue"]})
self.assertEqual(lookup1, {"color__in": "red,blue"})
self.assertEqual(lookup1, lookup2)
def test_url_params_from_lookup_dict_callable(self):
def my_callable():
return "works"
lookup1 = widgets.url_params_from_lookup_dict({"myfield": my_callable})
lookup2 = widgets.url_params_from_lookup_dict({"myfield": my_callable()})
self.assertEqual(lookup1, lookup2)
def test_label_and_url_for_value_invalid_uuid(self):
field = Bee._meta.get_field("honeycomb")
self.assertIsInstance(field.target_field, UUIDField)
widget = widgets.ForeignKeyRawIdWidget(field.remote_field, admin.site)
self.assertEqual(widget.label_and_url_for_value("invalid-uuid"), ("", ""))
class FilteredSelectMultipleWidgetTest(SimpleTestCase):
def test_render(self):
# Backslash in verbose_name to ensure it is JavaScript escaped.
w = widgets.FilteredSelectMultiple("test\\", False)
self.assertHTMLEqual(
w.render("test", "test"),
'<select multiple name="test" class="selectfilter" '
'data-field-name="test\\" data-is-stacked="0">\n</select>',
)
def test_stacked_render(self):
# Backslash in verbose_name to ensure it is JavaScript escaped.
w = widgets.FilteredSelectMultiple("test\\", True)
self.assertHTMLEqual(
w.render("test", "test"),
'<select multiple name="test" class="selectfilterstacked" '
'data-field-name="test\\" data-is-stacked="1">\n</select>',
)
class AdminDateWidgetTest(SimpleTestCase):
def test_attrs(self):
w = widgets.AdminDateWidget()
self.assertHTMLEqual(
w.render("test", datetime(2007, 12, 1, 9, 30)),
'<input value="2007-12-01" type="text" class="vDateField" name="test" '
'size="10">',
)
# pass attrs to widget
w = widgets.AdminDateWidget(attrs={"size": 20, "class": "myDateField"})
self.assertHTMLEqual(
w.render("test", datetime(2007, 12, 1, 9, 30)),
'<input value="2007-12-01" type="text" class="myDateField" name="test" '
'size="20">',
)
class AdminTimeWidgetTest(SimpleTestCase):
def test_attrs(self):
w = widgets.AdminTimeWidget()
self.assertHTMLEqual(
w.render("test", datetime(2007, 12, 1, 9, 30)),
'<input value="09:30:00" type="text" class="vTimeField" name="test" '
'size="8">',
)
# pass attrs to widget
w = widgets.AdminTimeWidget(attrs={"size": 20, "class": "myTimeField"})
self.assertHTMLEqual(
w.render("test", datetime(2007, 12, 1, 9, 30)),
'<input value="09:30:00" type="text" class="myTimeField" name="test" '
'size="20">',
)
class AdminSplitDateTimeWidgetTest(SimpleTestCase):
def test_render(self):
w = widgets.AdminSplitDateTime()
self.assertHTMLEqual(
w.render("test", datetime(2007, 12, 1, 9, 30)),
'<p class="datetime">'
'Date: <input value="2007-12-01" type="text" class="vDateField" '
'name="test_0" size="10"><br>'
'Time: <input value="09:30:00" type="text" class="vTimeField" '
'name="test_1" size="8"></p>',
)
def test_localization(self):
w = widgets.AdminSplitDateTime()
with translation.override("de-at"):
w.is_localized = True
self.assertHTMLEqual(
w.render("test", datetime(2007, 12, 1, 9, 30)),
'<p class="datetime">'
'Datum: <input value="01.12.2007" type="text" '
'class="vDateField" name="test_0"size="10"><br>'
'Zeit: <input value="09:30:00" type="text" class="vTimeField" '
'name="test_1" size="8"></p>',
)
class AdminURLWidgetTest(SimpleTestCase):
def test_get_context_validates_url(self):
w = widgets.AdminURLFieldWidget()
for invalid in ["", "/not/a/full/url/", 'javascript:alert("Danger XSS!")']:
with self.subTest(url=invalid):
self.assertFalse(w.get_context("name", invalid, {})["url_valid"])
self.assertTrue(w.get_context("name", "http://example.com", {})["url_valid"])
def test_render(self):
w = widgets.AdminURLFieldWidget()
self.assertHTMLEqual(
w.render("test", ""), '<input class="vURLField" name="test" type="url">'
)
self.assertHTMLEqual(
w.render("test", "http://example.com"),
'<p class="url">Currently:<a href="http://example.com">'
"http://example.com</a><br>"
'Change:<input class="vURLField" name="test" type="url" '
'value="http://example.com"></p>',
)
def test_render_idn(self):
w = widgets.AdminURLFieldWidget()
self.assertHTMLEqual(
w.render("test", "http://example-äüö.com"),
'<p class="url">Currently: <a href="http://xn--example--7za4pnc.com">'
"http://example-äüö.com</a><br>"
'Change:<input class="vURLField" name="test" type="url" '
'value="http://example-äüö.com"></p>',
)
def test_render_quoting(self):
"""
WARNING: This test doesn't use assertHTMLEqual since it will get rid
of some escapes which are tested here!
"""
HREF_RE = re.compile('href="([^"]+)"')
VALUE_RE = re.compile('value="([^"]+)"')
TEXT_RE = re.compile("<a[^>]+>([^>]+)</a>")
w = widgets.AdminURLFieldWidget()
output = w.render("test", "http://example.com/<sometag>some-text</sometag>")
self.assertEqual(
HREF_RE.search(output)[1],
"http://example.com/%3Csometag%3Esome-text%3C/sometag%3E",
)
self.assertEqual(
TEXT_RE.search(output)[1],
"http://example.com/<sometag>some-text</sometag>",
)
self.assertEqual(
VALUE_RE.search(output)[1],
"http://example.com/<sometag>some-text</sometag>",
)
output = w.render("test", "http://example-äüö.com/<sometag>some-text</sometag>")
self.assertEqual(
HREF_RE.search(output)[1],
"http://xn--example--7za4pnc.com/%3Csometag%3Esome-text%3C/sometag%3E",
)
self.assertEqual(
TEXT_RE.search(output)[1],
"http://example-äüö.com/<sometag>some-text</sometag>",
)
self.assertEqual(
VALUE_RE.search(output)[1],
"http://example-äüö.com/<sometag>some-text</sometag>",
)
output = w.render(
"test", 'http://www.example.com/%C3%A4"><script>alert("XSS!")</script>"'
)
self.assertEqual(
HREF_RE.search(output)[1],
"http://www.example.com/%C3%A4%22%3E%3Cscript%3Ealert(%22XSS!%22)"
"%3C/script%3E%22",
)
self.assertEqual(
TEXT_RE.search(output)[1],
"http://www.example.com/%C3%A4"><script>"
"alert("XSS!")</script>"",
)
self.assertEqual(
VALUE_RE.search(output)[1],
"http://www.example.com/%C3%A4"><script>"
"alert("XSS!")</script>"",
)
class AdminUUIDWidgetTests(SimpleTestCase):
def test_attrs(self):
w = widgets.AdminUUIDInputWidget()
self.assertHTMLEqual(
w.render("test", "550e8400-e29b-41d4-a716-446655440000"),
'<input value="550e8400-e29b-41d4-a716-446655440000" type="text" '
'class="vUUIDField" name="test">',
)
w = widgets.AdminUUIDInputWidget(attrs={"class": "myUUIDInput"})
self.assertHTMLEqual(
w.render("test", "550e8400-e29b-41d4-a716-446655440000"),
'<input value="550e8400-e29b-41d4-a716-446655440000" type="text" '
'class="myUUIDInput" name="test">',
)
@override_settings(ROOT_URLCONF="admin_widgets.urls")
class AdminFileWidgetTests(TestDataMixin, TestCase):
@classmethod
def setUpTestData(cls):
super().setUpTestData()
band = Band.objects.create(name="Linkin Park")
cls.album = band.album_set.create(
name="Hybrid Theory", cover_art=r"albums\hybrid_theory.jpg"
)
def test_render(self):
w = widgets.AdminFileWidget()
self.assertHTMLEqual(
w.render("test", self.album.cover_art),
'<p class="file-upload">Currently: <a href="%(STORAGE_URL)salbums/'
r'hybrid_theory.jpg">albums\hybrid_theory.jpg</a> '
'<span class="clearable-file-input">'
'<input type="checkbox" name="test-clear" id="test-clear_id"> '
'<label for="test-clear_id">Clear</label></span><br>'
'Change: <input type="file" name="test"></p>'
% {
"STORAGE_URL": default_storage.url(""),
},
)
self.assertHTMLEqual(
w.render("test", SimpleUploadedFile("test", b"content")),
'<input type="file" name="test">',
)
def test_render_required(self):
widget = widgets.AdminFileWidget()
widget.is_required = True
self.assertHTMLEqual(
widget.render("test", self.album.cover_art),
'<p class="file-upload">Currently: <a href="%(STORAGE_URL)salbums/'
r'hybrid_theory.jpg">albums\hybrid_theory.jpg</a><br>'
'Change: <input type="file" name="test"></p>'
% {
"STORAGE_URL": default_storage.url(""),
},
)
def test_render_disabled(self):
widget = widgets.AdminFileWidget(attrs={"disabled": True})
self.assertHTMLEqual(
widget.render("test", self.album.cover_art),
'<p class="file-upload">Currently: <a href="%(STORAGE_URL)salbums/'
r'hybrid_theory.jpg">albums\hybrid_theory.jpg</a> '
'<span class="clearable-file-input">'
'<input type="checkbox" name="test-clear" id="test-clear_id" disabled>'
'<label for="test-clear_id">Clear</label></span><br>'
'Change: <input type="file" name="test" disabled></p>'
% {
"STORAGE_URL": default_storage.url(""),
},
)
def test_readonly_fields(self):
"""
File widgets should render as a link when they're marked "read only."
"""
self.client.force_login(self.superuser)
response = self.client.get(
reverse("admin:admin_widgets_album_change", args=(self.album.id,))
)
self.assertContains(
response,
'<div class="readonly"><a href="%(STORAGE_URL)salbums/hybrid_theory.jpg">'
r"albums\hybrid_theory.jpg</a></div>"
% {"STORAGE_URL": default_storage.url("")},
html=True,
)
self.assertNotContains(
response,
'<input type="file" name="cover_art" id="id_cover_art">',
html=True,
)
response = self.client.get(reverse("admin:admin_widgets_album_add"))
self.assertContains(
response,
'<div class="readonly"></div>',
html=True,
)
@override_settings(ROOT_URLCONF="admin_widgets.urls")
class ForeignKeyRawIdWidgetTest(TestCase):
def test_render(self):
band = Band.objects.create(name="Linkin Park")
band.album_set.create(
name="Hybrid Theory", cover_art=r"albums\hybrid_theory.jpg"
)
rel_uuid = Album._meta.get_field("band").remote_field
w = widgets.ForeignKeyRawIdWidget(rel_uuid, widget_admin_site)
self.assertHTMLEqual(
w.render("test", band.uuid, attrs={}),
'<input type="text" name="test" value="%(banduuid)s" '
'class="vForeignKeyRawIdAdminField vUUIDField">'
'<a href="/admin_widgets/band/?_to_field=uuid" class="related-lookup" '
'id="lookup_id_test" title="Lookup"></a> <strong>'
'<a href="/admin_widgets/band/%(bandpk)s/change/">Linkin Park</a>'
"</strong>" % {"banduuid": band.uuid, "bandpk": band.pk},
)
rel_id = ReleaseEvent._meta.get_field("album").remote_field
w = widgets.ForeignKeyRawIdWidget(rel_id, widget_admin_site)
self.assertHTMLEqual(
w.render("test", None, attrs={}),
'<input type="text" name="test" class="vForeignKeyRawIdAdminField">'
'<a href="/admin_widgets/album/?_to_field=id" class="related-lookup" '
'id="lookup_id_test" title="Lookup"></a>',
)
def test_relations_to_non_primary_key(self):
# ForeignKeyRawIdWidget works with fields which aren't related to
# the model's primary key.
apple = Inventory.objects.create(barcode=86, name="Apple")
Inventory.objects.create(barcode=22, name="Pear")
core = Inventory.objects.create(barcode=87, name="Core", parent=apple)
rel = Inventory._meta.get_field("parent").remote_field
w = widgets.ForeignKeyRawIdWidget(rel, widget_admin_site)
self.assertHTMLEqual(
w.render("test", core.parent_id, attrs={}),
'<input type="text" name="test" value="86" '
'class="vForeignKeyRawIdAdminField">'
'<a href="/admin_widgets/inventory/?_to_field=barcode" '
'class="related-lookup" id="lookup_id_test" title="Lookup"></a>'
' <strong><a href="/admin_widgets/inventory/%(pk)s/change/">'
"Apple</a></strong>" % {"pk": apple.pk},
)
def test_fk_related_model_not_in_admin(self):
# FK to a model not registered with admin site. Raw ID widget should
# have no magnifying glass link. See #16542
big_honeycomb = Honeycomb.objects.create(location="Old tree")
big_honeycomb.bee_set.create()
rel = Bee._meta.get_field("honeycomb").remote_field
w = widgets.ForeignKeyRawIdWidget(rel, widget_admin_site)
self.assertHTMLEqual(
w.render("honeycomb_widget", big_honeycomb.pk, attrs={}),
'<input type="text" name="honeycomb_widget" value="%(hcombpk)s">'
" <strong>%(hcomb)s</strong>"
% {"hcombpk": big_honeycomb.pk, "hcomb": big_honeycomb},
)
def test_fk_to_self_model_not_in_admin(self):
# FK to self, not registered with admin site. Raw ID widget should have
# no magnifying glass link. See #16542
subject1 = Individual.objects.create(name="Subject #1")
Individual.objects.create(name="Child", parent=subject1)
rel = Individual._meta.get_field("parent").remote_field
w = widgets.ForeignKeyRawIdWidget(rel, widget_admin_site)
self.assertHTMLEqual(
w.render("individual_widget", subject1.pk, attrs={}),
'<input type="text" name="individual_widget" value="%(subj1pk)s">'
" <strong>%(subj1)s</strong>"
% {"subj1pk": subject1.pk, "subj1": subject1},
)
def test_proper_manager_for_label_lookup(self):
# see #9258
rel = Inventory._meta.get_field("parent").remote_field
w = widgets.ForeignKeyRawIdWidget(rel, widget_admin_site)
hidden = Inventory.objects.create(barcode=93, name="Hidden", hidden=True)
child_of_hidden = Inventory.objects.create(
barcode=94, name="Child of hidden", parent=hidden
)
self.assertHTMLEqual(
w.render("test", child_of_hidden.parent_id, attrs={}),
'<input type="text" name="test" value="93" '
' class="vForeignKeyRawIdAdminField">'
'<a href="/admin_widgets/inventory/?_to_field=barcode" '
'class="related-lookup" id="lookup_id_test" title="Lookup"></a>'
' <strong><a href="/admin_widgets/inventory/%(pk)s/change/">'
"Hidden</a></strong>" % {"pk": hidden.pk},
)
def test_render_unsafe_limit_choices_to(self):
rel = UnsafeLimitChoicesTo._meta.get_field("band").remote_field
w = widgets.ForeignKeyRawIdWidget(rel, widget_admin_site)
self.assertHTMLEqual(
w.render("test", None),
'<input type="text" name="test" class="vForeignKeyRawIdAdminField">\n'
'<a href="/admin_widgets/band/?name=%22%26%3E%3Cescapeme&'
'_to_field=artist_ptr" class="related-lookup" id="lookup_id_test" '
'title="Lookup"></a>',
)
def test_render_fk_as_pk_model(self):
rel = VideoStream._meta.get_field("release_event").remote_field
w = widgets.ForeignKeyRawIdWidget(rel, widget_admin_site)
self.assertHTMLEqual(
w.render("test", None),
'<input type="text" name="test" class="vForeignKeyRawIdAdminField">\n'
'<a href="/admin_widgets/releaseevent/?_to_field=album" '
'class="related-lookup" id="lookup_id_test" title="Lookup"></a>',
)
@override_settings(ROOT_URLCONF="admin_widgets.urls")
class ManyToManyRawIdWidgetTest(TestCase):
def test_render(self):
band = Band.objects.create(name="Linkin Park")
m1 = Member.objects.create(name="Chester")
m2 = Member.objects.create(name="Mike")
band.members.add(m1, m2)
rel = Band._meta.get_field("members").remote_field
w = widgets.ManyToManyRawIdWidget(rel, widget_admin_site)
self.assertHTMLEqual(
w.render("test", [m1.pk, m2.pk], attrs={}),
(
'<input type="text" name="test" value="%(m1pk)s,%(m2pk)s" '
' class="vManyToManyRawIdAdminField">'
'<a href="/admin_widgets/member/" class="related-lookup" '
' id="lookup_id_test" title="Lookup"></a>'
)
% {"m1pk": m1.pk, "m2pk": m2.pk},
)
self.assertHTMLEqual(
w.render("test", [m1.pk]),
(
'<input type="text" name="test" value="%(m1pk)s" '
' class="vManyToManyRawIdAdminField">'
'<a href="/admin_widgets/member/" class="related-lookup" '
' id="lookup_id_test" title="Lookup"></a>'
)
% {"m1pk": m1.pk},
)
def test_m2m_related_model_not_in_admin(self):
# M2M relationship with model not registered with admin site. Raw ID
# widget should have no magnifying glass link. See #16542
consultor1 = Advisor.objects.create(name="Rockstar Techie")
c1 = Company.objects.create(name="Doodle")
c2 = Company.objects.create(name="Pear")
consultor1.companies.add(c1, c2)
rel = Advisor._meta.get_field("companies").remote_field
w = widgets.ManyToManyRawIdWidget(rel, widget_admin_site)
self.assertHTMLEqual(
w.render("company_widget1", [c1.pk, c2.pk], attrs={}),
'<input type="text" name="company_widget1" value="%(c1pk)s,%(c2pk)s">'
% {"c1pk": c1.pk, "c2pk": c2.pk},
)
self.assertHTMLEqual(
w.render("company_widget2", [c1.pk]),
'<input type="text" name="company_widget2" value="%(c1pk)s">'
% {"c1pk": c1.pk},
)
@override_settings(ROOT_URLCONF="admin_widgets.urls")
class RelatedFieldWidgetWrapperTests(SimpleTestCase):
def test_no_can_add_related(self):
rel = Individual._meta.get_field("parent").remote_field
w = widgets.AdminRadioSelect()
# Used to fail with a name error.
w = widgets.RelatedFieldWidgetWrapper(w, rel, widget_admin_site)
self.assertFalse(w.can_add_related)
def test_select_multiple_widget_cant_change_delete_related(self):
rel = Individual._meta.get_field("parent").remote_field
widget = forms.SelectMultiple()
wrapper = widgets.RelatedFieldWidgetWrapper(
widget,
rel,
widget_admin_site,
can_add_related=True,
can_change_related=True,
can_delete_related=True,
)
self.assertTrue(wrapper.can_add_related)
self.assertFalse(wrapper.can_change_related)
self.assertFalse(wrapper.can_delete_related)
def test_on_delete_cascade_rel_cant_delete_related(self):
rel = Individual._meta.get_field("soulmate").remote_field
widget = forms.Select()
wrapper = widgets.RelatedFieldWidgetWrapper(
widget,
rel,
widget_admin_site,
can_add_related=True,
can_change_related=True,
can_delete_related=True,
)
self.assertTrue(wrapper.can_add_related)
self.assertTrue(wrapper.can_change_related)
self.assertFalse(wrapper.can_delete_related)
def test_custom_widget_render(self):
class CustomWidget(forms.Select):
def render(self, *args, **kwargs):
return "custom render output"
rel = Album._meta.get_field("band").remote_field
widget = CustomWidget()
wrapper = widgets.RelatedFieldWidgetWrapper(
widget,
rel,
widget_admin_site,
can_add_related=True,
can_change_related=True,
can_delete_related=True,
)
output = wrapper.render("name", "value")
self.assertIn("custom render output", output)
def test_widget_delegates_value_omitted_from_data(self):
class CustomWidget(forms.Select):
def value_omitted_from_data(self, data, files, name):
return False
rel = Album._meta.get_field("band").remote_field
widget = CustomWidget()
wrapper = widgets.RelatedFieldWidgetWrapper(widget, rel, widget_admin_site)
self.assertIs(wrapper.value_omitted_from_data({}, {}, "band"), False)
def test_widget_is_hidden(self):
rel = Album._meta.get_field("band").remote_field
widget = forms.HiddenInput()
widget.choices = ()
wrapper = widgets.RelatedFieldWidgetWrapper(widget, rel, widget_admin_site)
self.assertIs(wrapper.is_hidden, True)
context = wrapper.get_context("band", None, {})
self.assertIs(context["is_hidden"], True)
output = wrapper.render("name", "value")
# Related item links are hidden.
self.assertNotIn("<a ", output)
def test_widget_is_not_hidden(self):
rel = Album._meta.get_field("band").remote_field
widget = forms.Select()
wrapper = widgets.RelatedFieldWidgetWrapper(widget, rel, widget_admin_site)
self.assertIs(wrapper.is_hidden, False)
context = wrapper.get_context("band", None, {})
self.assertIs(context["is_hidden"], False)
output = wrapper.render("name", "value")
# Related item links are present.
self.assertIn("<a ", output)
@override_settings(ROOT_URLCONF="admin_widgets.urls")
class AdminWidgetSeleniumTestCase(AdminSeleniumTestCase):
available_apps = ["admin_widgets"] + AdminSeleniumTestCase.available_apps
def setUp(self):
self.u1 = User.objects.create_superuser(
username="super", password="secret", email="[email protected]"
)
class DateTimePickerSeleniumTests(AdminWidgetSeleniumTestCase):
def test_show_hide_date_time_picker_widgets(self):
"""
Pressing the ESC key or clicking on a widget value closes the date and
time picker widgets.
"""
from selenium.webdriver.common.by import By
from selenium.webdriver.common.keys import Keys
self.admin_login(username="super", password="secret", login_url="/")
# Open a page that has a date and time picker widgets
self.selenium.get(
self.live_server_url + reverse("admin:admin_widgets_member_add")
)
# First, with the date picker widget ---------------------------------
cal_icon = self.selenium.find_element(By.ID, "calendarlink0")
# The date picker is hidden
self.assertFalse(
self.selenium.find_element(By.ID, "calendarbox0").is_displayed()
)
# Click the calendar icon
cal_icon.click()
# The date picker is visible
self.assertTrue(
self.selenium.find_element(By.ID, "calendarbox0").is_displayed()
)
# Press the ESC key
self.selenium.find_element(By.TAG_NAME, "body").send_keys([Keys.ESCAPE])
# The date picker is hidden again
self.assertFalse(
self.selenium.find_element(By.ID, "calendarbox0").is_displayed()
)
# Click the calendar icon, then on the 15th of current month
cal_icon.click()
self.selenium.find_element(By.XPATH, "//a[contains(text(), '15')]").click()
self.assertFalse(
self.selenium.find_element(By.ID, "calendarbox0").is_displayed()
)
self.assertEqual(
self.selenium.find_element(By.ID, "id_birthdate_0").get_attribute("value"),
datetime.today().strftime("%Y-%m-") + "15",
)
# Then, with the time picker widget ----------------------------------
time_icon = self.selenium.find_element(By.ID, "clocklink0")
# The time picker is hidden
self.assertFalse(self.selenium.find_element(By.ID, "clockbox0").is_displayed())
# Click the time icon
time_icon.click()
# The time picker is visible
self.assertTrue(self.selenium.find_element(By.ID, "clockbox0").is_displayed())
self.assertEqual(
[
x.text
for x in self.selenium.find_elements(
By.XPATH, "//ul[@class='timelist']/li/a"
)
],
["Now", "Midnight", "6 a.m.", "Noon", "6 p.m."],
)
# Press the ESC key
self.selenium.find_element(By.TAG_NAME, "body").send_keys([Keys.ESCAPE])
# The time picker is hidden again
self.assertFalse(self.selenium.find_element(By.ID, "clockbox0").is_displayed())
# Click the time icon, then select the 'Noon' value
time_icon.click()
self.selenium.find_element(By.XPATH, "//a[contains(text(), 'Noon')]").click()
self.assertFalse(self.selenium.find_element(By.ID, "clockbox0").is_displayed())
self.assertEqual(
self.selenium.find_element(By.ID, "id_birthdate_1").get_attribute("value"),
"12:00:00",
)
def test_calendar_nonday_class(self):
"""
Ensure cells that are not days of the month have the `nonday` CSS class.
Refs #4574.
"""
from selenium.webdriver.common.by import By
self.admin_login(username="super", password="secret", login_url="/")
# Open a page that has a date and time picker widgets
self.selenium.get(
self.live_server_url + reverse("admin:admin_widgets_member_add")
)
# fill in the birth date.
self.selenium.find_element(By.ID, "id_birthdate_0").send_keys("2013-06-01")
# Click the calendar icon
self.selenium.find_element(By.ID, "calendarlink0").click()
# get all the tds within the calendar
calendar0 = self.selenium.find_element(By.ID, "calendarin0")
tds = calendar0.find_elements(By.TAG_NAME, "td")
# make sure the first and last 6 cells have class nonday
for td in tds[:6] + tds[-6:]:
self.assertEqual(td.get_attribute("class"), "nonday")
def test_calendar_selected_class(self):
"""
Ensure cell for the day in the input has the `selected` CSS class.
Refs #4574.
"""
from selenium.webdriver.common.by import By
self.admin_login(username="super", password="secret", login_url="/")
# Open a page that has a date and time picker widgets
self.selenium.get(
self.live_server_url + reverse("admin:admin_widgets_member_add")
)
# fill in the birth date.
self.selenium.find_element(By.ID, "id_birthdate_0").send_keys("2013-06-01")
# Click the calendar icon
self.selenium.find_element(By.ID, "calendarlink0").click()
# get all the tds within the calendar
calendar0 = self.selenium.find_element(By.ID, "calendarin0")
tds = calendar0.find_elements(By.TAG_NAME, "td")
# verify the selected cell
selected = tds[6]
self.assertEqual(selected.get_attribute("class"), "selected")
self.assertEqual(selected.text, "1")
def test_calendar_no_selected_class(self):
"""
Ensure no cells are given the selected class when the field is empty.
Refs #4574.
"""
from selenium.webdriver.common.by import By
self.admin_login(username="super", password="secret", login_url="/")
# Open a page that has a date and time picker widgets
self.selenium.get(
self.live_server_url + reverse("admin:admin_widgets_member_add")
)
# Click the calendar icon
self.selenium.find_element(By.ID, "calendarlink0").click()
# get all the tds within the calendar
calendar0 = self.selenium.find_element(By.ID, "calendarin0")
tds = calendar0.find_elements(By.TAG_NAME, "td")
# verify there are no cells with the selected class
selected = [td for td in tds if td.get_attribute("class") == "selected"]
self.assertEqual(len(selected), 0)
def test_calendar_show_date_from_input(self):
"""
The calendar shows the date from the input field for every locale
supported by Django.
"""
from selenium.webdriver.common.by import By
self.selenium.set_window_size(1024, 768)
self.admin_login(username="super", password="secret", login_url="/")
# Enter test data
member = Member.objects.create(
name="Bob", birthdate=datetime(1984, 5, 15), gender="M"
)
# Get month name translations for every locale
month_string = "May"
path = os.path.join(
os.path.dirname(import_module("django.contrib.admin").__file__), "locale"
)
for language_code, language_name in settings.LANGUAGES:
try:
catalog = gettext.translation("djangojs", path, [language_code])
except OSError:
continue
if month_string in catalog._catalog:
month_name = catalog._catalog[month_string]
else:
month_name = month_string
# Get the expected caption
may_translation = month_name
expected_caption = "{:s} {:d}".format(may_translation.upper(), 1984)
# Test with every locale
with override_settings(LANGUAGE_CODE=language_code):
# Open a page that has a date picker widget
url = reverse("admin:admin_widgets_member_change", args=(member.pk,))
self.selenium.get(self.live_server_url + url)
# Click on the calendar icon
self.selenium.find_element(By.ID, "calendarlink0").click()
# Make sure that the right month and year are displayed
self.wait_for_text("#calendarin0 caption", expected_caption)
@override_settings(TIME_ZONE="Asia/Singapore")
class DateTimePickerShortcutsSeleniumTests(AdminWidgetSeleniumTestCase):
def test_date_time_picker_shortcuts(self):
"""
date/time/datetime picker shortcuts work in the current time zone.
Refs #20663.
This test case is fairly tricky, it relies on selenium still running the browser
in the default time zone "America/Chicago" despite `override_settings` changing
the time zone to "Asia/Singapore".
"""
from selenium.webdriver.common.by import By
self.admin_login(username="super", password="secret", login_url="/")
error_margin = timedelta(seconds=10)
# If we are neighbouring a DST, we add an hour of error margin.
tz = zoneinfo.ZoneInfo("America/Chicago")
utc_now = datetime.now(zoneinfo.ZoneInfo("UTC"))
tz_yesterday = (utc_now - timedelta(days=1)).astimezone(tz).tzname()
tz_tomorrow = (utc_now + timedelta(days=1)).astimezone(tz).tzname()
if tz_yesterday != tz_tomorrow:
error_margin += timedelta(hours=1)
self.selenium.get(
self.live_server_url + reverse("admin:admin_widgets_member_add")
)
self.selenium.find_element(By.ID, "id_name").send_keys("test")
# Click on the "today" and "now" shortcuts.
shortcuts = self.selenium.find_elements(
By.CSS_SELECTOR, ".field-birthdate .datetimeshortcuts"
)
now = datetime.now()
for shortcut in shortcuts:
shortcut.find_element(By.TAG_NAME, "a").click()
# There is a time zone mismatch warning.
# Warning: This would effectively fail if the TIME_ZONE defined in the
# settings has the same UTC offset as "Asia/Singapore" because the
# mismatch warning would be rightfully missing from the page.
self.assertCountSeleniumElements(".field-birthdate .timezonewarning", 1)
# Submit the form.
with self.wait_page_loaded():
self.selenium.find_element(By.NAME, "_save").click()
# Make sure that "now" in JavaScript is within 10 seconds
# from "now" on the server side.
member = Member.objects.get(name="test")
self.assertGreater(member.birthdate, now - error_margin)
self.assertLess(member.birthdate, now + error_margin)
# The above tests run with Asia/Singapore which are on the positive side of
# UTC. Here we test with a timezone on the negative side.
@override_settings(TIME_ZONE="US/Eastern")
class DateTimePickerAltTimezoneSeleniumTests(DateTimePickerShortcutsSeleniumTests):
pass
class HorizontalVerticalFilterSeleniumTests(AdminWidgetSeleniumTestCase):
def setUp(self):
super().setUp()
self.lisa = Student.objects.create(name="Lisa")
self.john = Student.objects.create(name="John")
self.bob = Student.objects.create(name="Bob")
self.peter = Student.objects.create(name="Peter")
self.jenny = Student.objects.create(name="Jenny")
self.jason = Student.objects.create(name="Jason")
self.cliff = Student.objects.create(name="Cliff")
self.arthur = Student.objects.create(name="Arthur")
self.school = School.objects.create(name="School of Awesome")
def assertActiveButtons(
self, mode, field_name, choose, remove, choose_all=None, remove_all=None
):
choose_link = "#id_%s_add_link" % field_name
choose_all_link = "#id_%s_add_all_link" % field_name
remove_link = "#id_%s_remove_link" % field_name
remove_all_link = "#id_%s_remove_all_link" % field_name
self.assertEqual(self.has_css_class(choose_link, "active"), choose)
self.assertEqual(self.has_css_class(remove_link, "active"), remove)
if mode == "horizontal":
self.assertEqual(self.has_css_class(choose_all_link, "active"), choose_all)
self.assertEqual(self.has_css_class(remove_all_link, "active"), remove_all)
def execute_basic_operations(self, mode, field_name):
from selenium.webdriver.common.by import By
original_url = self.selenium.current_url
from_box = "#id_%s_from" % field_name
to_box = "#id_%s_to" % field_name
choose_link = "id_%s_add_link" % field_name
choose_all_link = "id_%s_add_all_link" % field_name
remove_link = "id_%s_remove_link" % field_name
remove_all_link = "id_%s_remove_all_link" % field_name
# Initial positions ---------------------------------------------------
self.assertSelectOptions(
from_box,
[
str(self.arthur.id),
str(self.bob.id),
str(self.cliff.id),
str(self.jason.id),
str(self.jenny.id),
str(self.john.id),
],
)
self.assertSelectOptions(to_box, [str(self.lisa.id), str(self.peter.id)])
self.assertActiveButtons(mode, field_name, False, False, True, True)
# Click 'Choose all' --------------------------------------------------
if mode == "horizontal":
self.selenium.find_element(By.ID, choose_all_link).click()
elif mode == "vertical":
# There 's no 'Choose all' button in vertical mode, so individually
# select all options and click 'Choose'.
for option in self.selenium.find_elements(
By.CSS_SELECTOR, from_box + " > option"
):
option.click()
self.selenium.find_element(By.ID, choose_link).click()
self.assertSelectOptions(from_box, [])
self.assertSelectOptions(
to_box,
[
str(self.lisa.id),
str(self.peter.id),
str(self.arthur.id),
str(self.bob.id),
str(self.cliff.id),
str(self.jason.id),
str(self.jenny.id),
str(self.john.id),
],
)
self.assertActiveButtons(mode, field_name, False, False, False, True)
# Click 'Remove all' --------------------------------------------------
if mode == "horizontal":
self.selenium.find_element(By.ID, remove_all_link).click()
elif mode == "vertical":
# There 's no 'Remove all' button in vertical mode, so individually
# select all options and click 'Remove'.
for option in self.selenium.find_elements(
By.CSS_SELECTOR, to_box + " > option"
):
option.click()
self.selenium.find_element(By.ID, remove_link).click()
self.assertSelectOptions(
from_box,
[
str(self.lisa.id),
str(self.peter.id),
str(self.arthur.id),
str(self.bob.id),
str(self.cliff.id),
str(self.jason.id),
str(self.jenny.id),
str(self.john.id),
],
)
self.assertSelectOptions(to_box, [])
self.assertActiveButtons(mode, field_name, False, False, True, False)
# Choose some options ------------------------------------------------
from_lisa_select_option = self.selenium.find_element(
By.CSS_SELECTOR, '{} > option[value="{}"]'.format(from_box, self.lisa.id)
)
# Check the title attribute is there for tool tips: ticket #20821
self.assertEqual(
from_lisa_select_option.get_attribute("title"),
from_lisa_select_option.get_attribute("text"),
)
self.select_option(from_box, str(self.lisa.id))
self.select_option(from_box, str(self.jason.id))
self.select_option(from_box, str(self.bob.id))
self.select_option(from_box, str(self.john.id))
self.assertActiveButtons(mode, field_name, True, False, True, False)
self.selenium.find_element(By.ID, choose_link).click()
self.assertActiveButtons(mode, field_name, False, False, True, True)
self.assertSelectOptions(
from_box,
[
str(self.peter.id),
str(self.arthur.id),
str(self.cliff.id),
str(self.jenny.id),
],
)
self.assertSelectOptions(
to_box,
[
str(self.lisa.id),
str(self.bob.id),
str(self.jason.id),
str(self.john.id),
],
)
# Check the tooltip is still there after moving: ticket #20821
to_lisa_select_option = self.selenium.find_element(
By.CSS_SELECTOR, '{} > option[value="{}"]'.format(to_box, self.lisa.id)
)
self.assertEqual(
to_lisa_select_option.get_attribute("title"),
to_lisa_select_option.get_attribute("text"),
)
# Remove some options -------------------------------------------------
self.select_option(to_box, str(self.lisa.id))
self.select_option(to_box, str(self.bob.id))
self.assertActiveButtons(mode, field_name, False, True, True, True)
self.selenium.find_element(By.ID, remove_link).click()
self.assertActiveButtons(mode, field_name, False, False, True, True)
self.assertSelectOptions(
from_box,
[
str(self.peter.id),
str(self.arthur.id),
str(self.cliff.id),
str(self.jenny.id),
str(self.lisa.id),
str(self.bob.id),
],
)
self.assertSelectOptions(to_box, [str(self.jason.id), str(self.john.id)])
# Choose some more options --------------------------------------------
self.select_option(from_box, str(self.arthur.id))
self.select_option(from_box, str(self.cliff.id))
self.selenium.find_element(By.ID, choose_link).click()
self.assertSelectOptions(
from_box,
[
str(self.peter.id),
str(self.jenny.id),
str(self.lisa.id),
str(self.bob.id),
],
)
self.assertSelectOptions(
to_box,
[
str(self.jason.id),
str(self.john.id),
str(self.arthur.id),
str(self.cliff.id),
],
)
# Choose some more options --------------------------------------------
self.select_option(from_box, str(self.peter.id))
self.select_option(from_box, str(self.lisa.id))
# Confirm they're selected after clicking inactive buttons: ticket #26575
self.assertSelectedOptions(from_box, [str(self.peter.id), str(self.lisa.id)])
self.selenium.find_element(By.ID, remove_link).click()
self.assertSelectedOptions(from_box, [str(self.peter.id), str(self.lisa.id)])
# Unselect the options ------------------------------------------------
self.deselect_option(from_box, str(self.peter.id))
self.deselect_option(from_box, str(self.lisa.id))
# Choose some more options --------------------------------------------
self.select_option(to_box, str(self.jason.id))
self.select_option(to_box, str(self.john.id))
# Confirm they're selected after clicking inactive buttons: ticket #26575
self.assertSelectedOptions(to_box, [str(self.jason.id), str(self.john.id)])
self.selenium.find_element(By.ID, choose_link).click()
self.assertSelectedOptions(to_box, [str(self.jason.id), str(self.john.id)])
# Unselect the options ------------------------------------------------
self.deselect_option(to_box, str(self.jason.id))
self.deselect_option(to_box, str(self.john.id))
# Pressing buttons shouldn't change the URL.
self.assertEqual(self.selenium.current_url, original_url)
def test_basic(self):
from selenium.webdriver.common.by import By
self.selenium.set_window_size(1024, 768)
self.school.students.set([self.lisa, self.peter])
self.school.alumni.set([self.lisa, self.peter])
self.admin_login(username="super", password="secret", login_url="/")
self.selenium.get(
self.live_server_url
+ reverse("admin:admin_widgets_school_change", args=(self.school.id,))
)
self.wait_page_ready()
self.execute_basic_operations("vertical", "students")
self.execute_basic_operations("horizontal", "alumni")
# Save and check that everything is properly stored in the database ---
self.selenium.find_element(By.XPATH, '//input[@value="Save"]').click()
self.wait_page_ready()
self.school = School.objects.get(id=self.school.id) # Reload from database
self.assertEqual(
list(self.school.students.all()),
[self.arthur, self.cliff, self.jason, self.john],
)
self.assertEqual(
list(self.school.alumni.all()),
[self.arthur, self.cliff, self.jason, self.john],
)
def test_filter(self):
"""
Typing in the search box filters out options displayed in the 'from'
box.
"""
from selenium.webdriver.common.by import By
from selenium.webdriver.common.keys import Keys
self.selenium.set_window_size(1024, 768)
self.school.students.set([self.lisa, self.peter])
self.school.alumni.set([self.lisa, self.peter])
self.admin_login(username="super", password="secret", login_url="/")
self.selenium.get(
self.live_server_url
+ reverse("admin:admin_widgets_school_change", args=(self.school.id,))
)
for field_name in ["students", "alumni"]:
from_box = "#id_%s_from" % field_name
to_box = "#id_%s_to" % field_name
choose_link = "id_%s_add_link" % field_name
remove_link = "id_%s_remove_link" % field_name
input = self.selenium.find_element(By.ID, "id_%s_input" % field_name)
# Initial values
self.assertSelectOptions(
from_box,
[
str(self.arthur.id),
str(self.bob.id),
str(self.cliff.id),
str(self.jason.id),
str(self.jenny.id),
str(self.john.id),
],
)
# Typing in some characters filters out non-matching options
input.send_keys("a")
self.assertSelectOptions(
from_box, [str(self.arthur.id), str(self.jason.id)]
)
input.send_keys("R")
self.assertSelectOptions(from_box, [str(self.arthur.id)])
# Clearing the text box makes the other options reappear
input.send_keys([Keys.BACK_SPACE])
self.assertSelectOptions(
from_box, [str(self.arthur.id), str(self.jason.id)]
)
input.send_keys([Keys.BACK_SPACE])
self.assertSelectOptions(
from_box,
[
str(self.arthur.id),
str(self.bob.id),
str(self.cliff.id),
str(self.jason.id),
str(self.jenny.id),
str(self.john.id),
],
)
# -----------------------------------------------------------------
# Choosing a filtered option sends it properly to the 'to' box.
input.send_keys("a")
self.assertSelectOptions(
from_box, [str(self.arthur.id), str(self.jason.id)]
)
self.select_option(from_box, str(self.jason.id))
self.selenium.find_element(By.ID, choose_link).click()
self.assertSelectOptions(from_box, [str(self.arthur.id)])
self.assertSelectOptions(
to_box,
[
str(self.lisa.id),
str(self.peter.id),
str(self.jason.id),
],
)
self.select_option(to_box, str(self.lisa.id))
self.selenium.find_element(By.ID, remove_link).click()
self.assertSelectOptions(from_box, [str(self.arthur.id), str(self.lisa.id)])
self.assertSelectOptions(to_box, [str(self.peter.id), str(self.jason.id)])
input.send_keys([Keys.BACK_SPACE]) # Clear text box
self.assertSelectOptions(
from_box,
[
str(self.arthur.id),
str(self.bob.id),
str(self.cliff.id),
str(self.jenny.id),
str(self.john.id),
str(self.lisa.id),
],
)
self.assertSelectOptions(to_box, [str(self.peter.id), str(self.jason.id)])
# -----------------------------------------------------------------
# Pressing enter on a filtered option sends it properly to
# the 'to' box.
self.select_option(to_box, str(self.jason.id))
self.selenium.find_element(By.ID, remove_link).click()
input.send_keys("ja")
self.assertSelectOptions(from_box, [str(self.jason.id)])
input.send_keys([Keys.ENTER])
self.assertSelectOptions(to_box, [str(self.peter.id), str(self.jason.id)])
input.send_keys([Keys.BACK_SPACE, Keys.BACK_SPACE])
# Save and check that everything is properly stored in the database ---
with self.wait_page_loaded():
self.selenium.find_element(By.XPATH, '//input[@value="Save"]').click()
self.school = School.objects.get(id=self.school.id) # Reload from database
self.assertEqual(list(self.school.students.all()), [self.jason, self.peter])
self.assertEqual(list(self.school.alumni.all()), [self.jason, self.peter])
def test_back_button_bug(self):
"""
Some browsers had a bug where navigating away from the change page
and then clicking the browser's back button would clear the
filter_horizontal/filter_vertical widgets (#13614).
"""
from selenium.webdriver.common.by import By
self.school.students.set([self.lisa, self.peter])
self.school.alumni.set([self.lisa, self.peter])
self.admin_login(username="super", password="secret", login_url="/")
change_url = reverse(
"admin:admin_widgets_school_change", args=(self.school.id,)
)
self.selenium.get(self.live_server_url + change_url)
# Navigate away and go back to the change form page.
self.selenium.find_element(By.LINK_TEXT, "Home").click()
self.selenium.back()
expected_unselected_values = [
str(self.arthur.id),
str(self.bob.id),
str(self.cliff.id),
str(self.jason.id),
str(self.jenny.id),
str(self.john.id),
]
expected_selected_values = [str(self.lisa.id), str(self.peter.id)]
# Everything is still in place
self.assertSelectOptions("#id_students_from", expected_unselected_values)
self.assertSelectOptions("#id_students_to", expected_selected_values)
self.assertSelectOptions("#id_alumni_from", expected_unselected_values)
self.assertSelectOptions("#id_alumni_to", expected_selected_values)
def test_refresh_page(self):
"""
Horizontal and vertical filter widgets keep selected options on page
reload (#22955).
"""
self.school.students.add(self.arthur, self.jason)
self.school.alumni.add(self.arthur, self.jason)
self.admin_login(username="super", password="secret", login_url="/")
change_url = reverse(
"admin:admin_widgets_school_change", args=(self.school.id,)
)
self.selenium.get(self.live_server_url + change_url)
self.assertCountSeleniumElements("#id_students_to > option", 2)
# self.selenium.refresh() or send_keys(Keys.F5) does hard reload and
# doesn't replicate what happens when a user clicks the browser's
# 'Refresh' button.
with self.wait_page_loaded():
self.selenium.execute_script("location.reload()")
self.assertCountSeleniumElements("#id_students_to > option", 2)
class AdminRawIdWidgetSeleniumTests(AdminWidgetSeleniumTestCase):
def setUp(self):
super().setUp()
Band.objects.create(id=42, name="Bogey Blues")
Band.objects.create(id=98, name="Green Potatoes")
def test_ForeignKey(self):
from selenium.webdriver.common.by import By
self.admin_login(username="super", password="secret", login_url="/")
self.selenium.get(
self.live_server_url + reverse("admin:admin_widgets_event_add")
)
main_window = self.selenium.current_window_handle
# No value has been selected yet
self.assertEqual(
self.selenium.find_element(By.ID, "id_main_band").get_attribute("value"), ""
)
# Open the popup window and click on a band
self.selenium.find_element(By.ID, "lookup_id_main_band").click()
self.wait_for_and_switch_to_popup()
link = self.selenium.find_element(By.LINK_TEXT, "Bogey Blues")
self.assertIn("/band/42/", link.get_attribute("href"))
link.click()
# The field now contains the selected band's id
self.selenium.switch_to.window(main_window)
self.wait_for_value("#id_main_band", "42")
# Reopen the popup window and click on another band
self.selenium.find_element(By.ID, "lookup_id_main_band").click()
self.wait_for_and_switch_to_popup()
link = self.selenium.find_element(By.LINK_TEXT, "Green Potatoes")
self.assertIn("/band/98/", link.get_attribute("href"))
link.click()
# The field now contains the other selected band's id
self.selenium.switch_to.window(main_window)
self.wait_for_value("#id_main_band", "98")
def test_many_to_many(self):
from selenium.webdriver.common.by import By
self.admin_login(username="super", password="secret", login_url="/")
self.selenium.get(
self.live_server_url + reverse("admin:admin_widgets_event_add")
)
main_window = self.selenium.current_window_handle
# No value has been selected yet
self.assertEqual(
self.selenium.find_element(By.ID, "id_supporting_bands").get_attribute(
"value"
),
"",
)
# Help text for the field is displayed
self.assertEqual(
self.selenium.find_element(
By.CSS_SELECTOR, ".field-supporting_bands div.help"
).text,
"Supporting Bands.",
)
# Open the popup window and click on a band
self.selenium.find_element(By.ID, "lookup_id_supporting_bands").click()
self.wait_for_and_switch_to_popup()
link = self.selenium.find_element(By.LINK_TEXT, "Bogey Blues")
self.assertIn("/band/42/", link.get_attribute("href"))
link.click()
# The field now contains the selected band's id
self.selenium.switch_to.window(main_window)
self.wait_for_value("#id_supporting_bands", "42")
# Reopen the popup window and click on another band
self.selenium.find_element(By.ID, "lookup_id_supporting_bands").click()
self.wait_for_and_switch_to_popup()
link = self.selenium.find_element(By.LINK_TEXT, "Green Potatoes")
self.assertIn("/band/98/", link.get_attribute("href"))
link.click()
# The field now contains the two selected bands' ids
self.selenium.switch_to.window(main_window)
self.wait_for_value("#id_supporting_bands", "42,98")
class RelatedFieldWidgetSeleniumTests(AdminWidgetSeleniumTestCase):
def test_ForeignKey_using_to_field(self):
from selenium.webdriver.common.by import By
from selenium.webdriver.support.ui import Select
self.admin_login(username="super", password="secret", login_url="/")
self.selenium.get(
self.live_server_url + reverse("admin:admin_widgets_profile_add")
)
main_window = self.selenium.current_window_handle
# Click the Add User button to add new
self.selenium.find_element(By.ID, "add_id_user").click()
self.wait_for_and_switch_to_popup()
password_field = self.selenium.find_element(By.ID, "id_password")
password_field.send_keys("password")
username_field = self.selenium.find_element(By.ID, "id_username")
username_value = "newuser"
username_field.send_keys(username_value)
save_button_css_selector = ".submit-row > input[type=submit]"
self.selenium.find_element(By.CSS_SELECTOR, save_button_css_selector).click()
self.selenium.switch_to.window(main_window)
# The field now contains the new user
self.selenium.find_element(By.CSS_SELECTOR, "#id_user option[value=newuser]")
self.selenium.find_element(By.ID, "view_id_user").click()
self.wait_for_value("#id_username", "newuser")
self.selenium.back()
select = Select(self.selenium.find_element(By.ID, "id_user"))
select.select_by_value("newuser")
# Click the Change User button to change it
self.selenium.find_element(By.ID, "change_id_user").click()
self.wait_for_and_switch_to_popup()
username_field = self.selenium.find_element(By.ID, "id_username")
username_value = "changednewuser"
username_field.clear()
username_field.send_keys(username_value)
save_button_css_selector = ".submit-row > input[type=submit]"
self.selenium.find_element(By.CSS_SELECTOR, save_button_css_selector).click()
self.selenium.switch_to.window(main_window)
self.selenium.find_element(
By.CSS_SELECTOR, "#id_user option[value=changednewuser]"
)
self.selenium.find_element(By.ID, "view_id_user").click()
self.wait_for_value("#id_username", "changednewuser")
self.selenium.back()
select = Select(self.selenium.find_element(By.ID, "id_user"))
select.select_by_value("changednewuser")
# Go ahead and submit the form to make sure it works
self.selenium.find_element(By.CSS_SELECTOR, save_button_css_selector).click()
self.wait_for_text(
"li.success", "The profile “changednewuser” was added successfully."
)
profiles = Profile.objects.all()
self.assertEqual(len(profiles), 1)
self.assertEqual(profiles[0].user.username, username_value)
|
7d2c1f6ffb6c873616443eb06c14031904194b66d95c5cd4af95644f6349dece | import uuid
from django.contrib.auth.models import User
from django.db import models
class MyFileField(models.FileField):
pass
class Member(models.Model):
name = models.CharField(max_length=100)
birthdate = models.DateTimeField(blank=True, null=True)
gender = models.CharField(
max_length=1, blank=True, choices=[("M", "Male"), ("F", "Female")]
)
email = models.EmailField(blank=True)
def __str__(self):
return self.name
class Artist(models.Model):
pass
class Band(Artist):
uuid = models.UUIDField(unique=True, default=uuid.uuid4)
name = models.CharField(max_length=100)
style = models.CharField(max_length=20)
members = models.ManyToManyField(Member)
def __str__(self):
return self.name
class UnsafeLimitChoicesTo(models.Model):
band = models.ForeignKey(
Band,
models.CASCADE,
limit_choices_to={"name": '"&><escapeme'},
)
class Album(models.Model):
band = models.ForeignKey(Band, models.CASCADE, to_field="uuid")
featuring = models.ManyToManyField(Band, related_name="featured")
name = models.CharField(max_length=100)
cover_art = models.FileField(upload_to="albums")
backside_art = MyFileField(upload_to="albums_back", null=True)
def __str__(self):
return self.name
class ReleaseEvent(models.Model):
"""
Used to check that autocomplete widget correctly resolves attname for FK as
PK example.
"""
album = models.ForeignKey(Album, models.CASCADE, primary_key=True)
name = models.CharField(max_length=100)
class Meta:
ordering = ["name"]
def __str__(self):
return self.name
class VideoStream(models.Model):
release_event = models.ForeignKey(ReleaseEvent, models.CASCADE)
class HiddenInventoryManager(models.Manager):
def get_queryset(self):
return super().get_queryset().filter(hidden=False)
class Inventory(models.Model):
barcode = models.PositiveIntegerField(unique=True)
parent = models.ForeignKey(
"self", models.SET_NULL, to_field="barcode", blank=True, null=True
)
name = models.CharField(blank=False, max_length=20)
hidden = models.BooleanField(default=False)
# see #9258
default_manager = models.Manager()
objects = HiddenInventoryManager()
def __str__(self):
return self.name
class Event(models.Model):
main_band = models.ForeignKey(
Band,
models.CASCADE,
limit_choices_to=models.Q(pk__gt=0),
related_name="events_main_band_at",
)
supporting_bands = models.ManyToManyField(
Band,
blank=True,
related_name="events_supporting_band_at",
help_text="Supporting Bands.",
)
start_date = models.DateField(blank=True, null=True)
start_time = models.TimeField(blank=True, null=True)
description = models.TextField(blank=True)
link = models.URLField(blank=True)
min_age = models.IntegerField(blank=True, null=True)
class Car(models.Model):
owner = models.ForeignKey(User, models.CASCADE)
make = models.CharField(max_length=30)
model = models.CharField(max_length=30)
def __str__(self):
return "%s %s" % (self.make, self.model)
class CarTire(models.Model):
"""
A single car tire. This to test that a user can only select their own cars.
"""
car = models.ForeignKey(Car, models.CASCADE)
class Honeycomb(models.Model):
id = models.UUIDField(primary_key=True, default=uuid.uuid4, editable=False)
location = models.CharField(max_length=20)
class Bee(models.Model):
"""
A model with a FK to a model that won't be registered with the admin
(Honeycomb) so the corresponding raw ID widget won't have a magnifying
glass link to select related honeycomb instances.
"""
honeycomb = models.ForeignKey(Honeycomb, models.CASCADE)
class Individual(models.Model):
"""
A model with a FK to itself. It won't be registered with the admin, so the
corresponding raw ID widget won't have a magnifying glass link to select
related instances (rendering will be called programmatically in this case).
"""
name = models.CharField(max_length=20)
parent = models.ForeignKey("self", models.SET_NULL, null=True)
soulmate = models.ForeignKey(
"self", models.CASCADE, null=True, related_name="soulmates"
)
class Company(models.Model):
name = models.CharField(max_length=20)
class Advisor(models.Model):
"""
A model with a m2m to a model that won't be registered with the admin
(Company) so the corresponding raw ID widget won't have a magnifying
glass link to select related company instances.
"""
name = models.CharField(max_length=20)
companies = models.ManyToManyField(Company)
class Student(models.Model):
name = models.CharField(max_length=255)
class Meta:
ordering = ("name",)
def __str__(self):
return self.name
class School(models.Model):
name = models.CharField(max_length=255)
students = models.ManyToManyField(Student, related_name="current_schools")
alumni = models.ManyToManyField(Student, related_name="previous_schools")
def __str__(self):
return self.name
class Profile(models.Model):
user = models.ForeignKey("auth.User", models.CASCADE, to_field="username")
def __str__(self):
return self.user.username
|
761c52f770320833463d31a025551f6ff79de6f90d3f3a583f09c74a3a2b5494 | from django.contrib import admin
from .models import (
Advisor,
Album,
Band,
Bee,
Car,
CarTire,
Event,
Inventory,
Member,
Profile,
ReleaseEvent,
School,
User,
VideoStream,
)
class WidgetAdmin(admin.AdminSite):
pass
class CarAdmin(admin.ModelAdmin):
list_display = ["make", "model", "owner"]
list_editable = ["owner"]
class CarTireAdmin(admin.ModelAdmin):
def formfield_for_foreignkey(self, db_field, request, **kwargs):
if db_field.name == "car":
kwargs["queryset"] = Car.objects.filter(owner=request.user)
return db_field.formfield(**kwargs)
return super().formfield_for_foreignkey(db_field, request, **kwargs)
class EventAdmin(admin.ModelAdmin):
raw_id_fields = ["main_band", "supporting_bands"]
class AlbumAdmin(admin.ModelAdmin):
fields = (
"name",
"cover_art",
)
readonly_fields = ("cover_art",)
class SchoolAdmin(admin.ModelAdmin):
filter_vertical = ("students",)
filter_horizontal = ("alumni",)
site = WidgetAdmin(name="widget-admin")
site.register(User)
site.register(Car, CarAdmin)
site.register(CarTire, CarTireAdmin)
site.register(Member)
site.register(Band)
site.register(Event, EventAdmin)
site.register(Album, AlbumAdmin)
site.register(ReleaseEvent, search_fields=["name"])
site.register(VideoStream, autocomplete_fields=["release_event"])
site.register(Inventory)
site.register(Bee)
site.register(Advisor)
site.register(School, SchoolAdmin)
site.register(Profile)
|
806fdff461d438e8689503c6e9f82cda8af133a850cf003a045f3c18d2fcb006 | from django import forms
from django.contrib import admin
from django.contrib.admin.widgets import AutocompleteSelect
from django.forms import ModelChoiceField
from django.test import TestCase, override_settings
from django.utils import translation
from .models import Album, Band, ReleaseEvent, VideoStream
class AlbumForm(forms.ModelForm):
class Meta:
model = Album
fields = ["band", "featuring"]
widgets = {
"band": AutocompleteSelect(
Album._meta.get_field("band"),
admin.site,
attrs={"class": "my-class"},
),
"featuring": AutocompleteSelect(
Album._meta.get_field("featuring"),
admin.site,
),
}
class NotRequiredBandForm(forms.Form):
band = ModelChoiceField(
queryset=Album.objects.all(),
widget=AutocompleteSelect(
Album._meta.get_field("band").remote_field, admin.site
),
required=False,
)
class RequiredBandForm(forms.Form):
band = ModelChoiceField(
queryset=Album.objects.all(),
widget=AutocompleteSelect(
Album._meta.get_field("band").remote_field, admin.site
),
required=True,
)
class VideoStreamForm(forms.ModelForm):
class Meta:
model = VideoStream
fields = ["release_event"]
widgets = {
"release_event": AutocompleteSelect(
VideoStream._meta.get_field("release_event"),
admin.site,
),
}
@override_settings(ROOT_URLCONF="admin_widgets.urls")
class AutocompleteMixinTests(TestCase):
empty_option = '<option value=""></option>'
maxDiff = 1000
def test_build_attrs(self):
form = AlbumForm()
attrs = form["band"].field.widget.get_context(
name="my_field", value=None, attrs={}
)["widget"]["attrs"]
self.assertEqual(
attrs,
{
"class": "my-class admin-autocomplete",
"data-ajax--cache": "true",
"data-ajax--delay": 250,
"data-ajax--type": "GET",
"data-ajax--url": "/autocomplete/",
"data-theme": "admin-autocomplete",
"data-allow-clear": "false",
"data-app-label": "admin_widgets",
"data-field-name": "band",
"data-model-name": "album",
"data-placeholder": "",
"lang": "en",
},
)
def test_build_attrs_no_custom_class(self):
form = AlbumForm()
attrs = form["featuring"].field.widget.get_context(
name="name", value=None, attrs={}
)["widget"]["attrs"]
self.assertEqual(attrs["class"], "admin-autocomplete")
def test_build_attrs_not_required_field(self):
form = NotRequiredBandForm()
attrs = form["band"].field.widget.build_attrs({})
self.assertJSONEqual(attrs["data-allow-clear"], True)
def test_build_attrs_required_field(self):
form = RequiredBandForm()
attrs = form["band"].field.widget.build_attrs({})
self.assertJSONEqual(attrs["data-allow-clear"], False)
def test_get_url(self):
rel = Album._meta.get_field("band")
w = AutocompleteSelect(rel, admin.site)
url = w.get_url()
self.assertEqual(url, "/autocomplete/")
def test_render_options(self):
beatles = Band.objects.create(name="The Beatles", style="rock")
who = Band.objects.create(name="The Who", style="rock")
# With 'band', a ForeignKey.
form = AlbumForm(initial={"band": beatles.uuid})
output = form.as_table()
selected_option = (
'<option value="%s" selected>The Beatles</option>' % beatles.uuid
)
option = '<option value="%s">The Who</option>' % who.uuid
self.assertIn(selected_option, output)
self.assertNotIn(option, output)
# With 'featuring', a ManyToManyField.
form = AlbumForm(initial={"featuring": [beatles.pk, who.pk]})
output = form.as_table()
selected_option = (
'<option value="%s" selected>The Beatles</option>' % beatles.pk
)
option = '<option value="%s" selected>The Who</option>' % who.pk
self.assertIn(selected_option, output)
self.assertIn(option, output)
def test_render_options_required_field(self):
"""Empty option is present if the field isn't required."""
form = NotRequiredBandForm()
output = form.as_table()
self.assertIn(self.empty_option, output)
def test_render_options_not_required_field(self):
"""Empty option isn't present if the field isn't required."""
form = RequiredBandForm()
output = form.as_table()
self.assertNotIn(self.empty_option, output)
def test_render_options_fk_as_pk(self):
beatles = Band.objects.create(name="The Beatles", style="rock")
rubber_soul = Album.objects.create(name="Rubber Soul", band=beatles)
release_event = ReleaseEvent.objects.create(
name="Test Target", album=rubber_soul
)
form = VideoStreamForm(initial={"release_event": release_event.pk})
output = form.as_table()
selected_option = (
'<option value="%s" selected>Test Target</option>' % release_event.pk
)
self.assertIn(selected_option, output)
def test_media(self):
rel = Album._meta.get_field("band").remote_field
base_files = (
"admin/js/vendor/jquery/jquery.min.js",
"admin/js/vendor/select2/select2.full.min.js",
# Language file is inserted here.
"admin/js/jquery.init.js",
"admin/js/autocomplete.js",
)
languages = (
("de", "de"),
# Subsequent language codes are used when the language code is not
# supported.
("de-at", "de"),
("de-ch-1901", "de"),
("en-latn-us", "en"),
("nl-nl-x-informal", "nl"),
("zh-hans-HK", "zh-CN"),
# Language with code 00 does not exist.
("00", None),
# Language files are case sensitive.
("sr-cyrl", "sr-Cyrl"),
("zh-hans", "zh-CN"),
("zh-hant", "zh-TW"),
)
for lang, select_lang in languages:
with self.subTest(lang=lang):
if select_lang:
expected_files = (
base_files[:2]
+ (("admin/js/vendor/select2/i18n/%s.js" % select_lang),)
+ base_files[2:]
)
else:
expected_files = base_files
with translation.override(lang):
self.assertEqual(
AutocompleteSelect(rel, admin.site).media._js,
list(expected_files),
)
|
2d14c3c72519124a08000eba4d4d717113f16b689855a3e78de423f058176efb | from django.urls import path
from . import widgetadmin
urlpatterns = [
path("", widgetadmin.site.urls),
]
|
3b6ef01decf6c422fcb666eff61f169b12895bb70bb847532056c9717e9056bd | # Unittests for fixtures.
import json
import os
import re
from io import StringIO
from pathlib import Path
from django.core import management, serializers
from django.core.exceptions import ImproperlyConfigured
from django.core.serializers.base import DeserializationError
from django.db import IntegrityError, transaction
from django.db.models import signals
from django.test import (
TestCase,
TransactionTestCase,
override_settings,
skipIfDBFeature,
skipUnlessDBFeature,
)
from .models import (
Absolute,
Animal,
Article,
Book,
Child,
Circle1,
Circle2,
Circle3,
ExternalDependency,
M2MCircular1ThroughAB,
M2MCircular1ThroughBC,
M2MCircular1ThroughCA,
M2MCircular2ThroughAB,
M2MComplexA,
M2MComplexB,
M2MComplexCircular1A,
M2MComplexCircular1B,
M2MComplexCircular1C,
M2MComplexCircular2A,
M2MComplexCircular2B,
M2MSimpleA,
M2MSimpleB,
M2MSimpleCircularA,
M2MSimpleCircularB,
M2MThroughAB,
NKChild,
Parent,
Person,
RefToNKChild,
Store,
Stuff,
Thingy,
Widget,
)
_cur_dir = os.path.dirname(os.path.abspath(__file__))
class TestFixtures(TestCase):
def animal_pre_save_check(self, signal, sender, instance, **kwargs):
self.pre_save_checks.append(
(
"Count = %s (%s)" % (instance.count, type(instance.count)),
"Weight = %s (%s)" % (instance.weight, type(instance.weight)),
)
)
def test_duplicate_pk(self):
"""
This is a regression test for ticket #3790.
"""
# Load a fixture that uses PK=1
management.call_command(
"loaddata",
"sequence",
verbosity=0,
)
# Create a new animal. Without a sequence reset, this new object
# will take a PK of 1 (on Postgres), and the save will fail.
animal = Animal(
name="Platypus",
latin_name="Ornithorhynchus anatinus",
count=2,
weight=2.2,
)
animal.save()
self.assertGreater(animal.id, 1)
def test_loaddata_not_found_fields_not_ignore(self):
"""
Test for ticket #9279 -- Error is raised for entries in
the serialized data for fields that have been removed
from the database when not ignored.
"""
with self.assertRaises(DeserializationError):
management.call_command(
"loaddata",
"sequence_extra",
verbosity=0,
)
def test_loaddata_not_found_fields_ignore(self):
"""
Test for ticket #9279 -- Ignores entries in
the serialized data for fields that have been removed
from the database.
"""
management.call_command(
"loaddata",
"sequence_extra",
ignore=True,
verbosity=0,
)
self.assertEqual(Animal.specimens.all()[0].name, "Lion")
def test_loaddata_not_found_fields_ignore_xml(self):
"""
Test for ticket #19998 -- Ignore entries in the XML serialized data
for fields that have been removed from the model definition.
"""
management.call_command(
"loaddata",
"sequence_extra_xml",
ignore=True,
verbosity=0,
)
self.assertEqual(Animal.specimens.all()[0].name, "Wolf")
@skipIfDBFeature("interprets_empty_strings_as_nulls")
def test_pretty_print_xml(self):
"""
Regression test for ticket #4558 -- pretty printing of XML fixtures
doesn't affect parsing of None values.
"""
# Load a pretty-printed XML fixture with Nulls.
management.call_command(
"loaddata",
"pretty.xml",
verbosity=0,
)
self.assertIsNone(Stuff.objects.all()[0].name)
self.assertIsNone(Stuff.objects.all()[0].owner)
@skipUnlessDBFeature("interprets_empty_strings_as_nulls")
def test_pretty_print_xml_empty_strings(self):
"""
Regression test for ticket #4558 -- pretty printing of XML fixtures
doesn't affect parsing of None values.
"""
# Load a pretty-printed XML fixture with Nulls.
management.call_command(
"loaddata",
"pretty.xml",
verbosity=0,
)
self.assertEqual(Stuff.objects.all()[0].name, "")
self.assertIsNone(Stuff.objects.all()[0].owner)
def test_absolute_path(self):
"""
Regression test for ticket #6436 --
os.path.join will throw away the initial parts of a path if it
encounters an absolute path.
This means that if a fixture is specified as an absolute path,
we need to make sure we don't discover the absolute path in every
fixture directory.
"""
load_absolute_path = os.path.join(
os.path.dirname(__file__), "fixtures", "absolute.json"
)
management.call_command(
"loaddata",
load_absolute_path,
verbosity=0,
)
self.assertEqual(Absolute.objects.count(), 1)
def test_relative_path(self, path=["fixtures", "absolute.json"]):
relative_path = os.path.join(*path)
cwd = os.getcwd()
try:
os.chdir(_cur_dir)
management.call_command(
"loaddata",
relative_path,
verbosity=0,
)
finally:
os.chdir(cwd)
self.assertEqual(Absolute.objects.count(), 1)
@override_settings(FIXTURE_DIRS=[os.path.join(_cur_dir, "fixtures_1")])
def test_relative_path_in_fixture_dirs(self):
self.test_relative_path(path=["inner", "absolute.json"])
def test_path_containing_dots(self):
management.call_command(
"loaddata",
"path.containing.dots.json",
verbosity=0,
)
self.assertEqual(Absolute.objects.count(), 1)
def test_unknown_format(self):
"""
Test for ticket #4371 -- Loading data of an unknown format should fail
Validate that error conditions are caught correctly
"""
msg = (
"Problem installing fixture 'bad_fix.ture1': unkn is not a known "
"serialization format."
)
with self.assertRaisesMessage(management.CommandError, msg):
management.call_command(
"loaddata",
"bad_fix.ture1.unkn",
verbosity=0,
)
@override_settings(SERIALIZATION_MODULES={"unkn": "unexistent.path"})
def test_unimportable_serializer(self):
"""
Failing serializer import raises the proper error
"""
with self.assertRaisesMessage(ImportError, "No module named 'unexistent'"):
management.call_command(
"loaddata",
"bad_fix.ture1.unkn",
verbosity=0,
)
def test_invalid_data(self):
"""
Test for ticket #4371 -- Loading a fixture file with invalid data
using explicit filename.
Test for ticket #18213 -- warning conditions are caught correctly
"""
msg = "No fixture data found for 'bad_fixture2'. (File format may be invalid.)"
with self.assertWarnsMessage(RuntimeWarning, msg):
management.call_command(
"loaddata",
"bad_fixture2.xml",
verbosity=0,
)
def test_invalid_data_no_ext(self):
"""
Test for ticket #4371 -- Loading a fixture file with invalid data
without file extension.
Test for ticket #18213 -- warning conditions are caught correctly
"""
msg = "No fixture data found for 'bad_fixture2'. (File format may be invalid.)"
with self.assertWarnsMessage(RuntimeWarning, msg):
management.call_command(
"loaddata",
"bad_fixture2",
verbosity=0,
)
def test_empty(self):
"""
Test for ticket #18213 -- Loading a fixture file with no data output a warning.
Previously empty fixture raises an error exception, see ticket #4371.
"""
msg = "No fixture data found for 'empty'. (File format may be invalid.)"
with self.assertWarnsMessage(RuntimeWarning, msg):
management.call_command(
"loaddata",
"empty",
verbosity=0,
)
def test_error_message(self):
"""
Regression for #9011 - error message is correct.
Change from error to warning for ticket #18213.
"""
msg = "No fixture data found for 'bad_fixture2'. (File format may be invalid.)"
with self.assertWarnsMessage(RuntimeWarning, msg):
management.call_command(
"loaddata",
"bad_fixture2",
"animal",
verbosity=0,
)
def test_pg_sequence_resetting_checks(self):
"""
Test for ticket #7565 -- PostgreSQL sequence resetting checks shouldn't
ascend to parent models when inheritance is used
(since they are treated individually).
"""
management.call_command(
"loaddata",
"model-inheritance.json",
verbosity=0,
)
self.assertEqual(Parent.objects.all()[0].id, 1)
self.assertEqual(Child.objects.all()[0].id, 1)
def test_close_connection_after_loaddata(self):
"""
Test for ticket #7572 -- MySQL has a problem if the same connection is
used to create tables, load data, and then query over that data.
To compensate, we close the connection after running loaddata.
This ensures that a new connection is opened when test queries are
issued.
"""
management.call_command(
"loaddata",
"big-fixture.json",
verbosity=0,
)
articles = Article.objects.exclude(id=9)
self.assertEqual(
list(articles.values_list("id", flat=True)), [1, 2, 3, 4, 5, 6, 7, 8]
)
# Just for good measure, run the same query again.
# Under the influence of ticket #7572, this will
# give a different result to the previous call.
self.assertEqual(
list(articles.values_list("id", flat=True)), [1, 2, 3, 4, 5, 6, 7, 8]
)
def test_field_value_coerce(self):
"""
Test for tickets #8298, #9942 - Field values should be coerced into the
correct type by the deserializer, not as part of the database write.
"""
self.pre_save_checks = []
signals.pre_save.connect(self.animal_pre_save_check)
try:
management.call_command(
"loaddata",
"animal.xml",
verbosity=0,
)
self.assertEqual(
self.pre_save_checks,
[("Count = 42 (<class 'int'>)", "Weight = 1.2 (<class 'float'>)")],
)
finally:
signals.pre_save.disconnect(self.animal_pre_save_check)
def test_dumpdata_uses_default_manager(self):
"""
Regression for #11286
Dumpdata honors the default manager. Dump the current contents of
the database as a JSON fixture
"""
management.call_command(
"loaddata",
"animal.xml",
verbosity=0,
)
management.call_command(
"loaddata",
"sequence.json",
verbosity=0,
)
animal = Animal(
name="Platypus",
latin_name="Ornithorhynchus anatinus",
count=2,
weight=2.2,
)
animal.save()
out = StringIO()
management.call_command(
"dumpdata",
"fixtures_regress.animal",
format="json",
stdout=out,
)
# Output order isn't guaranteed, so check for parts
data = out.getvalue()
# Get rid of artifacts like '000000002' to eliminate the differences
# between different Python versions.
data = re.sub("0{6,}[0-9]", "", data)
animals_data = sorted(
[
{
"pk": 1,
"model": "fixtures_regress.animal",
"fields": {
"count": 3,
"weight": 1.2,
"name": "Lion",
"latin_name": "Panthera leo",
},
},
{
"pk": 10,
"model": "fixtures_regress.animal",
"fields": {
"count": 42,
"weight": 1.2,
"name": "Emu",
"latin_name": "Dromaius novaehollandiae",
},
},
{
"pk": animal.pk,
"model": "fixtures_regress.animal",
"fields": {
"count": 2,
"weight": 2.2,
"name": "Platypus",
"latin_name": "Ornithorhynchus anatinus",
},
},
],
key=lambda x: x["pk"],
)
data = sorted(json.loads(data), key=lambda x: x["pk"])
self.maxDiff = 1024
self.assertEqual(data, animals_data)
def test_proxy_model_included(self):
"""
Regression for #11428 - Proxy models aren't included when you dumpdata
"""
out = StringIO()
# Create an instance of the concrete class
widget = Widget.objects.create(name="grommet")
management.call_command(
"dumpdata",
"fixtures_regress.widget",
"fixtures_regress.widgetproxy",
format="json",
stdout=out,
)
self.assertJSONEqual(
out.getvalue(),
'[{"pk": %d, "model": "fixtures_regress.widget", '
'"fields": {"name": "grommet"}}]' % widget.pk,
)
@skipUnlessDBFeature("supports_forward_references")
def test_loaddata_works_when_fixture_has_forward_refs(self):
"""
Forward references cause fixtures not to load in MySQL (InnoDB).
"""
management.call_command(
"loaddata",
"forward_ref.json",
verbosity=0,
)
self.assertEqual(Book.objects.all()[0].id, 1)
self.assertEqual(Person.objects.all()[0].id, 4)
def test_loaddata_raises_error_when_fixture_has_invalid_foreign_key(self):
"""
Data with nonexistent child key references raises error.
"""
with self.assertRaisesMessage(IntegrityError, "Problem installing fixture"):
management.call_command(
"loaddata",
"forward_ref_bad_data.json",
verbosity=0,
)
@skipUnlessDBFeature("supports_forward_references")
@override_settings(
FIXTURE_DIRS=[
os.path.join(_cur_dir, "fixtures_1"),
os.path.join(_cur_dir, "fixtures_2"),
]
)
def test_loaddata_forward_refs_split_fixtures(self):
"""
Regression for #17530 - should be able to cope with forward references
when the fixtures are not in the same files or directories.
"""
management.call_command(
"loaddata",
"forward_ref_1.json",
"forward_ref_2.json",
verbosity=0,
)
self.assertEqual(Book.objects.all()[0].id, 1)
self.assertEqual(Person.objects.all()[0].id, 4)
def test_loaddata_no_fixture_specified(self):
"""
Error is quickly reported when no fixtures is provided in the command
line.
"""
msg = (
"No database fixture specified. Please provide the path of at least one "
"fixture in the command line."
)
with self.assertRaisesMessage(management.CommandError, msg):
management.call_command(
"loaddata",
verbosity=0,
)
def test_ticket_20820(self):
"""
Regression for ticket #20820 -- loaddata on a model that inherits
from a model with a M2M shouldn't blow up.
"""
management.call_command(
"loaddata",
"special-article.json",
verbosity=0,
)
def test_ticket_22421(self):
"""
Regression for ticket #22421 -- loaddata on a model that inherits from
a grand-parent model with a M2M but via an abstract parent shouldn't
blow up.
"""
management.call_command(
"loaddata",
"feature.json",
verbosity=0,
)
def test_loaddata_with_m2m_to_self(self):
"""
Regression test for ticket #17946.
"""
management.call_command(
"loaddata",
"m2mtoself.json",
verbosity=0,
)
@override_settings(
FIXTURE_DIRS=[
os.path.join(_cur_dir, "fixtures_1"),
os.path.join(_cur_dir, "fixtures_1"),
]
)
def test_fixture_dirs_with_duplicates(self):
"""
settings.FIXTURE_DIRS cannot contain duplicates in order to avoid
repeated fixture loading.
"""
with self.assertRaisesMessage(
ImproperlyConfigured, "settings.FIXTURE_DIRS contains duplicates."
):
management.call_command("loaddata", "absolute.json", verbosity=0)
@override_settings(FIXTURE_DIRS=[os.path.join(_cur_dir, "fixtures")])
def test_fixture_dirs_with_default_fixture_path(self):
"""
settings.FIXTURE_DIRS cannot contain a default fixtures directory
for application (app/fixtures) in order to avoid repeated fixture loading.
"""
msg = (
"'%s' is a default fixture directory for the '%s' app "
"and cannot be listed in settings.FIXTURE_DIRS."
% (os.path.join(_cur_dir, "fixtures"), "fixtures_regress")
)
with self.assertRaisesMessage(ImproperlyConfigured, msg):
management.call_command("loaddata", "absolute.json", verbosity=0)
@override_settings(
FIXTURE_DIRS=[
os.path.join(_cur_dir, "fixtures_1"),
os.path.join(_cur_dir, "fixtures_2"),
]
)
def test_loaddata_with_valid_fixture_dirs(self):
management.call_command(
"loaddata",
"absolute.json",
verbosity=0,
)
@override_settings(FIXTURE_DIRS=[Path(_cur_dir) / "fixtures_1"])
def test_fixtures_dir_pathlib(self):
management.call_command("loaddata", "inner/absolute.json", verbosity=0)
self.assertQuerysetEqual(Absolute.objects.all(), [1], transform=lambda o: o.pk)
class NaturalKeyFixtureTests(TestCase):
def test_nk_deserialize(self):
"""
Test for ticket #13030 - Python based parser version
natural keys deserialize with fk to inheriting model
"""
management.call_command(
"loaddata",
"model-inheritance.json",
verbosity=0,
)
management.call_command(
"loaddata",
"nk-inheritance.json",
verbosity=0,
)
self.assertEqual(NKChild.objects.get(pk=1).data, "apple")
self.assertEqual(RefToNKChild.objects.get(pk=1).nk_fk.data, "apple")
def test_nk_deserialize_xml(self):
"""
Test for ticket #13030 - XML version
natural keys deserialize with fk to inheriting model
"""
management.call_command(
"loaddata",
"model-inheritance.json",
verbosity=0,
)
management.call_command(
"loaddata",
"nk-inheritance.json",
verbosity=0,
)
management.call_command(
"loaddata",
"nk-inheritance2.xml",
verbosity=0,
)
self.assertEqual(NKChild.objects.get(pk=2).data, "banana")
self.assertEqual(RefToNKChild.objects.get(pk=2).nk_fk.data, "apple")
def test_nk_on_serialize(self):
"""
Natural key requirements are taken into account when serializing models.
"""
management.call_command(
"loaddata",
"forward_ref_lookup.json",
verbosity=0,
)
out = StringIO()
management.call_command(
"dumpdata",
"fixtures_regress.book",
"fixtures_regress.person",
"fixtures_regress.store",
verbosity=0,
format="json",
use_natural_foreign_keys=True,
use_natural_primary_keys=True,
stdout=out,
)
self.assertJSONEqual(
out.getvalue(),
"""
[{"fields": {"main": null, "name": "Amazon"},
"model": "fixtures_regress.store"},
{"fields": {"main": null, "name": "Borders"},
"model": "fixtures_regress.store"},
{"fields": {"name": "Neal Stephenson"}, "model": "fixtures_regress.person"},
{"pk": 1, "model": "fixtures_regress.book",
"fields": {"stores": [["Amazon"], ["Borders"]],
"name": "Cryptonomicon", "author": ["Neal Stephenson"]}}]
""",
)
def test_dependency_sorting(self):
"""
It doesn't matter what order you mention the models, Store *must* be
serialized before then Person, and both must be serialized before Book.
"""
sorted_deps = serializers.sort_dependencies(
[("fixtures_regress", [Book, Person, Store])]
)
self.assertEqual(sorted_deps, [Store, Person, Book])
def test_dependency_sorting_2(self):
sorted_deps = serializers.sort_dependencies(
[("fixtures_regress", [Book, Store, Person])]
)
self.assertEqual(sorted_deps, [Store, Person, Book])
def test_dependency_sorting_3(self):
sorted_deps = serializers.sort_dependencies(
[("fixtures_regress", [Store, Book, Person])]
)
self.assertEqual(sorted_deps, [Store, Person, Book])
def test_dependency_sorting_4(self):
sorted_deps = serializers.sort_dependencies(
[("fixtures_regress", [Store, Person, Book])]
)
self.assertEqual(sorted_deps, [Store, Person, Book])
def test_dependency_sorting_5(self):
sorted_deps = serializers.sort_dependencies(
[("fixtures_regress", [Person, Book, Store])]
)
self.assertEqual(sorted_deps, [Store, Person, Book])
def test_dependency_sorting_6(self):
sorted_deps = serializers.sort_dependencies(
[("fixtures_regress", [Person, Store, Book])]
)
self.assertEqual(sorted_deps, [Store, Person, Book])
def test_dependency_sorting_dangling(self):
sorted_deps = serializers.sort_dependencies(
[("fixtures_regress", [Person, Circle1, Store, Book])]
)
self.assertEqual(sorted_deps, [Circle1, Store, Person, Book])
def test_dependency_sorting_tight_circular(self):
with self.assertRaisesMessage(
RuntimeError,
"Can't resolve dependencies for fixtures_regress.Circle1, "
"fixtures_regress.Circle2 in serialized app list.",
):
serializers.sort_dependencies(
[("fixtures_regress", [Person, Circle2, Circle1, Store, Book])]
)
def test_dependency_sorting_tight_circular_2(self):
with self.assertRaisesMessage(
RuntimeError,
"Can't resolve dependencies for fixtures_regress.Circle1, "
"fixtures_regress.Circle2 in serialized app list.",
):
serializers.sort_dependencies(
[("fixtures_regress", [Circle1, Book, Circle2])]
)
def test_dependency_self_referential(self):
with self.assertRaisesMessage(
RuntimeError,
"Can't resolve dependencies for fixtures_regress.Circle3 in "
"serialized app list.",
):
serializers.sort_dependencies([("fixtures_regress", [Book, Circle3])])
def test_dependency_sorting_long(self):
with self.assertRaisesMessage(
RuntimeError,
"Can't resolve dependencies for fixtures_regress.Circle1, "
"fixtures_regress.Circle2, fixtures_regress.Circle3 in serialized "
"app list.",
):
serializers.sort_dependencies(
[("fixtures_regress", [Person, Circle2, Circle1, Circle3, Store, Book])]
)
def test_dependency_sorting_normal(self):
sorted_deps = serializers.sort_dependencies(
[("fixtures_regress", [Person, ExternalDependency, Book])]
)
self.assertEqual(sorted_deps, [Person, Book, ExternalDependency])
def test_normal_pk(self):
"""
Normal primary keys work on a model with natural key capabilities.
"""
management.call_command(
"loaddata",
"non_natural_1.json",
verbosity=0,
)
management.call_command(
"loaddata",
"forward_ref_lookup.json",
verbosity=0,
)
management.call_command(
"loaddata",
"non_natural_2.xml",
verbosity=0,
)
books = Book.objects.all()
self.assertQuerysetEqual(
books,
[
"<Book: Cryptonomicon by Neal Stephenson (available at Amazon, "
"Borders)>",
"<Book: Ender's Game by Orson Scott Card (available at Collins "
"Bookstore)>",
"<Book: Permutation City by Greg Egan (available at Angus and "
"Robertson)>",
],
transform=repr,
)
class M2MNaturalKeyFixtureTests(TestCase):
"""Tests for ticket #14426."""
def test_dependency_sorting_m2m_simple(self):
"""
M2M relations without explicit through models SHOULD count as dependencies
Regression test for bugs that could be caused by flawed fixes to
#14226, namely if M2M checks are removed from sort_dependencies
altogether.
"""
sorted_deps = serializers.sort_dependencies(
[("fixtures_regress", [M2MSimpleA, M2MSimpleB])]
)
self.assertEqual(sorted_deps, [M2MSimpleB, M2MSimpleA])
def test_dependency_sorting_m2m_simple_circular(self):
"""
Resolving circular M2M relations without explicit through models should
fail loudly
"""
with self.assertRaisesMessage(
RuntimeError,
"Can't resolve dependencies for fixtures_regress.M2MSimpleCircularA, "
"fixtures_regress.M2MSimpleCircularB in serialized app list.",
):
serializers.sort_dependencies(
[("fixtures_regress", [M2MSimpleCircularA, M2MSimpleCircularB])]
)
def test_dependency_sorting_m2m_complex(self):
"""
M2M relations with explicit through models should NOT count as
dependencies. The through model itself will have dependencies, though.
"""
sorted_deps = serializers.sort_dependencies(
[("fixtures_regress", [M2MComplexA, M2MComplexB, M2MThroughAB])]
)
# Order between M2MComplexA and M2MComplexB doesn't matter. The through
# model has dependencies to them though, so it should come last.
self.assertEqual(sorted_deps[-1], M2MThroughAB)
def test_dependency_sorting_m2m_complex_circular_1(self):
"""
Circular M2M relations with explicit through models should be serializable
"""
A, B, C, AtoB, BtoC, CtoA = (
M2MComplexCircular1A,
M2MComplexCircular1B,
M2MComplexCircular1C,
M2MCircular1ThroughAB,
M2MCircular1ThroughBC,
M2MCircular1ThroughCA,
)
sorted_deps = serializers.sort_dependencies(
[("fixtures_regress", [A, B, C, AtoB, BtoC, CtoA])]
)
# The dependency sorting should not result in an error, and the
# through model should have dependencies to the other models and as
# such come last in the list.
self.assertEqual(sorted_deps[:3], [A, B, C])
self.assertEqual(sorted_deps[3:], [AtoB, BtoC, CtoA])
def test_dependency_sorting_m2m_complex_circular_2(self):
"""
Circular M2M relations with explicit through models should be serializable
This test tests the circularity with explicit natural_key.dependencies
"""
sorted_deps = serializers.sort_dependencies(
[
(
"fixtures_regress",
[M2MComplexCircular2A, M2MComplexCircular2B, M2MCircular2ThroughAB],
)
]
)
self.assertEqual(sorted_deps[:2], [M2MComplexCircular2A, M2MComplexCircular2B])
self.assertEqual(sorted_deps[2:], [M2MCircular2ThroughAB])
def test_dump_and_load_m2m_simple(self):
"""
Test serializing and deserializing back models with simple M2M relations
"""
a = M2MSimpleA.objects.create(data="a")
b1 = M2MSimpleB.objects.create(data="b1")
b2 = M2MSimpleB.objects.create(data="b2")
a.b_set.add(b1)
a.b_set.add(b2)
out = StringIO()
management.call_command(
"dumpdata",
"fixtures_regress.M2MSimpleA",
"fixtures_regress.M2MSimpleB",
use_natural_foreign_keys=True,
stdout=out,
)
for model in [M2MSimpleA, M2MSimpleB]:
model.objects.all().delete()
objects = serializers.deserialize("json", out.getvalue())
for obj in objects:
obj.save()
new_a = M2MSimpleA.objects.get_by_natural_key("a")
self.assertCountEqual(new_a.b_set.all(), [b1, b2])
class TestTicket11101(TransactionTestCase):
available_apps = ["fixtures_regress"]
@skipUnlessDBFeature("supports_transactions")
def test_ticket_11101(self):
"""Fixtures can be rolled back (ticket #11101)."""
with transaction.atomic():
management.call_command(
"loaddata",
"thingy.json",
verbosity=0,
)
self.assertEqual(Thingy.objects.count(), 1)
transaction.set_rollback(True)
self.assertEqual(Thingy.objects.count(), 0)
class TestLoadFixtureFromOtherAppDirectory(TestCase):
"""
#23612 -- fixtures path should be normalized to allow referencing relative
paths on Windows.
"""
current_dir = os.path.abspath(os.path.dirname(__file__))
# relative_prefix is something like tests/fixtures_regress or
# fixtures_regress depending on how runtests.py is invoked.
# All path separators must be / in order to be a proper regression test on
# Windows, so replace as appropriate.
relative_prefix = os.path.relpath(current_dir, os.getcwd()).replace("\\", "/")
fixtures = [relative_prefix + "/fixtures/absolute.json"]
def test_fixtures_loaded(self):
count = Absolute.objects.count()
self.assertGreater(count, 0, "Fixtures not loaded properly.")
|
1f94a5d8cf5568383196bd496e2e040fb33eaf90e7f7ed16191ba99fbeac8210 | from django.contrib.auth.models import User
from django.db import models
class Animal(models.Model):
name = models.CharField(max_length=150)
latin_name = models.CharField(max_length=150)
count = models.IntegerField()
weight = models.FloatField()
# use a non-default name for the default manager
specimens = models.Manager()
def __str__(self):
return self.name
class Plant(models.Model):
name = models.CharField(max_length=150)
class Meta:
# For testing when upper case letter in app name; regression for #4057
db_table = "Fixtures_regress_plant"
class Stuff(models.Model):
name = models.CharField(max_length=20, null=True)
owner = models.ForeignKey(User, models.SET_NULL, null=True)
def __str__(self):
return self.name + " is owned by " + str(self.owner)
class Absolute(models.Model):
name = models.CharField(max_length=40)
class Parent(models.Model):
name = models.CharField(max_length=10)
class Meta:
ordering = ("id",)
class Child(Parent):
data = models.CharField(max_length=10)
# Models to regression test #7572, #20820
class Channel(models.Model):
name = models.CharField(max_length=255)
class Article(models.Model):
title = models.CharField(max_length=255)
channels = models.ManyToManyField(Channel)
class Meta:
ordering = ("id",)
# Subclass of a model with a ManyToManyField for test_ticket_20820
class SpecialArticle(Article):
pass
# Models to regression test #22421
class CommonFeature(Article):
class Meta:
abstract = True
class Feature(CommonFeature):
pass
# Models to regression test #11428
class Widget(models.Model):
name = models.CharField(max_length=255)
class Meta:
ordering = ("name",)
def __str__(self):
return self.name
class WidgetProxy(Widget):
class Meta:
proxy = True
# Check for forward references in FKs and M2Ms with natural keys
class TestManager(models.Manager):
def get_by_natural_key(self, key):
return self.get(name=key)
class Store(models.Model):
name = models.CharField(max_length=255, unique=True)
main = models.ForeignKey("self", models.SET_NULL, null=True)
objects = TestManager()
class Meta:
ordering = ("name",)
def __str__(self):
return self.name
def natural_key(self):
return (self.name,)
class Person(models.Model):
name = models.CharField(max_length=255, unique=True)
objects = TestManager()
class Meta:
ordering = ("name",)
def __str__(self):
return self.name
# Person doesn't actually have a dependency on store, but we need to define
# one to test the behavior of the dependency resolution algorithm.
def natural_key(self):
return (self.name,)
natural_key.dependencies = ["fixtures_regress.store"]
class Book(models.Model):
name = models.CharField(max_length=255)
author = models.ForeignKey(Person, models.CASCADE)
stores = models.ManyToManyField(Store)
class Meta:
ordering = ("name",)
def __str__(self):
return "%s by %s (available at %s)" % (
self.name,
self.author.name,
", ".join(s.name for s in self.stores.all()),
)
class NKManager(models.Manager):
def get_by_natural_key(self, data):
return self.get(data=data)
class NKChild(Parent):
data = models.CharField(max_length=10, unique=True)
objects = NKManager()
def natural_key(self):
return (self.data,)
def __str__(self):
return "NKChild %s:%s" % (self.name, self.data)
class RefToNKChild(models.Model):
text = models.CharField(max_length=10)
nk_fk = models.ForeignKey(NKChild, models.CASCADE, related_name="ref_fks")
nk_m2m = models.ManyToManyField(NKChild, related_name="ref_m2ms")
def __str__(self):
return "%s: Reference to %s [%s]" % (
self.text,
self.nk_fk,
", ".join(str(o) for o in self.nk_m2m.all()),
)
# ome models with pathological circular dependencies
class Circle1(models.Model):
name = models.CharField(max_length=255, unique=True)
def natural_key(self):
return (self.name,)
natural_key.dependencies = ["fixtures_regress.circle2"]
class Circle2(models.Model):
name = models.CharField(max_length=255, unique=True)
def natural_key(self):
return (self.name,)
natural_key.dependencies = ["fixtures_regress.circle1"]
class Circle3(models.Model):
name = models.CharField(max_length=255, unique=True)
def natural_key(self):
return (self.name,)
natural_key.dependencies = ["fixtures_regress.circle3"]
class Circle4(models.Model):
name = models.CharField(max_length=255, unique=True)
def natural_key(self):
return (self.name,)
natural_key.dependencies = ["fixtures_regress.circle5"]
class Circle5(models.Model):
name = models.CharField(max_length=255, unique=True)
def natural_key(self):
return (self.name,)
natural_key.dependencies = ["fixtures_regress.circle6"]
class Circle6(models.Model):
name = models.CharField(max_length=255, unique=True)
def natural_key(self):
return (self.name,)
natural_key.dependencies = ["fixtures_regress.circle4"]
class ExternalDependency(models.Model):
name = models.CharField(max_length=255, unique=True)
def natural_key(self):
return (self.name,)
natural_key.dependencies = ["fixtures_regress.book"]
# Model for regression test of #11101
class Thingy(models.Model):
name = models.CharField(max_length=255)
class M2MToSelf(models.Model):
parent = models.ManyToManyField("self", blank=True)
class BaseNKModel(models.Model):
"""
Base model with a natural_key and a manager with `get_by_natural_key`
"""
data = models.CharField(max_length=20, unique=True)
objects = NKManager()
class Meta:
abstract = True
def __str__(self):
return self.data
def natural_key(self):
return (self.data,)
class M2MSimpleA(BaseNKModel):
b_set = models.ManyToManyField("M2MSimpleB")
class M2MSimpleB(BaseNKModel):
pass
class M2MSimpleCircularA(BaseNKModel):
b_set = models.ManyToManyField("M2MSimpleCircularB")
class M2MSimpleCircularB(BaseNKModel):
a_set = models.ManyToManyField("M2MSimpleCircularA")
class M2MComplexA(BaseNKModel):
b_set = models.ManyToManyField("M2MComplexB", through="M2MThroughAB")
class M2MComplexB(BaseNKModel):
pass
class M2MThroughAB(BaseNKModel):
a = models.ForeignKey(M2MComplexA, models.CASCADE)
b = models.ForeignKey(M2MComplexB, models.CASCADE)
class M2MComplexCircular1A(BaseNKModel):
b_set = models.ManyToManyField(
"M2MComplexCircular1B", through="M2MCircular1ThroughAB"
)
class M2MComplexCircular1B(BaseNKModel):
c_set = models.ManyToManyField(
"M2MComplexCircular1C", through="M2MCircular1ThroughBC"
)
class M2MComplexCircular1C(BaseNKModel):
a_set = models.ManyToManyField(
"M2MComplexCircular1A", through="M2MCircular1ThroughCA"
)
class M2MCircular1ThroughAB(BaseNKModel):
a = models.ForeignKey(M2MComplexCircular1A, models.CASCADE)
b = models.ForeignKey(M2MComplexCircular1B, models.CASCADE)
class M2MCircular1ThroughBC(BaseNKModel):
b = models.ForeignKey(M2MComplexCircular1B, models.CASCADE)
c = models.ForeignKey(M2MComplexCircular1C, models.CASCADE)
class M2MCircular1ThroughCA(BaseNKModel):
c = models.ForeignKey(M2MComplexCircular1C, models.CASCADE)
a = models.ForeignKey(M2MComplexCircular1A, models.CASCADE)
class M2MComplexCircular2A(BaseNKModel):
b_set = models.ManyToManyField(
"M2MComplexCircular2B", through="M2MCircular2ThroughAB"
)
class M2MComplexCircular2B(BaseNKModel):
def natural_key(self):
return (self.data,)
# Fake the dependency for a circularity
natural_key.dependencies = ["fixtures_regress.M2MComplexCircular2A"]
class M2MCircular2ThroughAB(BaseNKModel):
a = models.ForeignKey(M2MComplexCircular2A, models.CASCADE)
b = models.ForeignKey(M2MComplexCircular2B, models.CASCADE)
|
a878aebb8429c471f721a772f7bd0ec0846ee50a272d9c605fdd27934e2249fe | from django.core.exceptions import FieldError
from django.test import TestCase
from .models import (
Entry,
Line,
Post,
RegressionModelSplit,
SelfRefer,
SelfReferChild,
SelfReferChildSibling,
Tag,
TagCollection,
Worksheet,
)
class M2MRegressionTests(TestCase):
def test_multiple_m2m(self):
# Multiple m2m references to model must be distinguished when
# accessing the relations through an instance attribute.
s1 = SelfRefer.objects.create(name="s1")
s2 = SelfRefer.objects.create(name="s2")
s3 = SelfRefer.objects.create(name="s3")
s1.references.add(s2)
s1.related.add(s3)
e1 = Entry.objects.create(name="e1")
t1 = Tag.objects.create(name="t1")
t2 = Tag.objects.create(name="t2")
e1.topics.add(t1)
e1.related.add(t2)
self.assertSequenceEqual(s1.references.all(), [s2])
self.assertSequenceEqual(s1.related.all(), [s3])
self.assertSequenceEqual(e1.topics.all(), [t1])
self.assertSequenceEqual(e1.related.all(), [t2])
def test_m2m_managers_reused(self):
s1 = SelfRefer.objects.create(name="s1")
e1 = Entry.objects.create(name="e1")
self.assertIs(s1.references, s1.references)
self.assertIs(s1.related, s1.related)
self.assertIs(e1.topics, e1.topics)
self.assertIs(e1.related, e1.related)
def test_internal_related_name_not_in_error_msg(self):
# The secret internal related names for self-referential many-to-many
# fields shouldn't appear in the list when an error is made.
msg = (
"Choices are: id, name, references, related, selfreferchild, "
"selfreferchildsibling"
)
with self.assertRaisesMessage(FieldError, msg):
SelfRefer.objects.filter(porcupine="fred")
def test_m2m_inheritance_symmetry(self):
# Test to ensure that the relationship between two inherited models
# with a self-referential m2m field maintains symmetry
sr_child = SelfReferChild(name="Hanna")
sr_child.save()
sr_sibling = SelfReferChildSibling(name="Beth")
sr_sibling.save()
sr_child.related.add(sr_sibling)
self.assertSequenceEqual(sr_child.related.all(), [sr_sibling.selfrefer_ptr])
self.assertSequenceEqual(sr_sibling.related.all(), [sr_child.selfrefer_ptr])
def test_m2m_pk_field_type(self):
# Regression for #11311 - The primary key for models in a m2m relation
# doesn't have to be an AutoField
w = Worksheet(id="abc")
w.save()
w.delete()
def test_add_m2m_with_base_class(self):
# Regression for #11956 -- You can add an object to a m2m with the
# base class without causing integrity errors
t1 = Tag.objects.create(name="t1")
t2 = Tag.objects.create(name="t2")
c1 = TagCollection.objects.create(name="c1")
c1.tags.set([t1, t2])
c1 = TagCollection.objects.get(name="c1")
self.assertCountEqual(c1.tags.all(), [t1, t2])
self.assertCountEqual(t1.tag_collections.all(), [c1])
def test_manager_class_caching(self):
e1 = Entry.objects.create()
e2 = Entry.objects.create()
t1 = Tag.objects.create()
t2 = Tag.objects.create()
# Get same manager twice in a row:
self.assertIs(t1.entry_set.__class__, t1.entry_set.__class__)
self.assertIs(e1.topics.__class__, e1.topics.__class__)
# Get same manager for different instances
self.assertIs(e1.topics.__class__, e2.topics.__class__)
self.assertIs(t1.entry_set.__class__, t2.entry_set.__class__)
def test_m2m_abstract_split(self):
# Regression for #19236 - an abstract class with a 'split' method
# causes a TypeError in add_lazy_relation
m1 = RegressionModelSplit(name="1")
m1.save()
def test_assigning_invalid_data_to_m2m_doesnt_clear_existing_relations(self):
t1 = Tag.objects.create(name="t1")
t2 = Tag.objects.create(name="t2")
c1 = TagCollection.objects.create(name="c1")
c1.tags.set([t1, t2])
with self.assertRaisesMessage(TypeError, "'int' object is not iterable"):
c1.tags.set(7)
c1.refresh_from_db()
self.assertSequenceEqual(c1.tags.order_by("name"), [t1, t2])
def test_multiple_forwards_only_m2m(self):
# Regression for #24505 - Multiple ManyToManyFields to same "to"
# model with related_name set to '+'.
foo = Line.objects.create(name="foo")
bar = Line.objects.create(name="bar")
post = Post.objects.create()
post.primary_lines.add(foo)
post.secondary_lines.add(bar)
self.assertSequenceEqual(post.primary_lines.all(), [foo])
self.assertSequenceEqual(post.secondary_lines.all(), [bar])
|
4e709cd62c642252af2cd938504fa039a7e9c35352f9cfc9a17b468dbccd8e58 | from django.contrib.auth import models as auth
from django.db import models
# No related name is needed here, since symmetrical relations are not
# explicitly reversible.
class SelfRefer(models.Model):
name = models.CharField(max_length=10)
references = models.ManyToManyField("self")
related = models.ManyToManyField("self")
def __str__(self):
return self.name
class Tag(models.Model):
name = models.CharField(max_length=10)
def __str__(self):
return self.name
# Regression for #11956 -- a many to many to the base class
class TagCollection(Tag):
tags = models.ManyToManyField(Tag, related_name="tag_collections")
def __str__(self):
return self.name
# A related_name is required on one of the ManyToManyField entries here because
# they are both addressable as reverse relations from Tag.
class Entry(models.Model):
name = models.CharField(max_length=10)
topics = models.ManyToManyField(Tag)
related = models.ManyToManyField(Tag, related_name="similar")
def __str__(self):
return self.name
# Two models both inheriting from a base model with a self-referential m2m field
class SelfReferChild(SelfRefer):
pass
class SelfReferChildSibling(SelfRefer):
pass
# Many-to-Many relation between models, where one of the PK's isn't an Autofield
class Line(models.Model):
name = models.CharField(max_length=100)
def __str__(self):
return self.name
class Worksheet(models.Model):
id = models.CharField(primary_key=True, max_length=100)
lines = models.ManyToManyField(Line, blank=True)
# Regression for #11226 -- A model with the same name that another one to
# which it has a m2m relation. This shouldn't cause a name clash between
# the automatically created m2m intermediary table FK field names when
# running migrate
class User(models.Model):
name = models.CharField(max_length=30)
friends = models.ManyToManyField(auth.User)
class BadModelWithSplit(models.Model):
name = models.CharField(max_length=1)
class Meta:
abstract = True
def split(self):
raise RuntimeError("split should not be called")
class RegressionModelSplit(BadModelWithSplit):
"""
Model with a split method should not cause an error in add_lazy_relation
"""
others = models.ManyToManyField("self")
# Regression for #24505 -- Two ManyToManyFields with the same "to" model
# and related_name set to '+'.
class Post(models.Model):
primary_lines = models.ManyToManyField(Line, related_name="+")
secondary_lines = models.ManyToManyField(Line, related_name="+")
|
4e62a3732c2a71eb66c3b3560f0f0687cd72b1db03e010d1bbc1e475940d97a0 | from django.db import migrations
class Migration(migrations.Migration):
dependencies = [
("migrations", "0001_initial"),
]
operations = [
migrations.RemoveField(
model_name="ipaddressfield",
name="ip",
),
]
|
7126e2999a81bf8090ab4b63fb5fdfb3a61fdd79b82e0f2e7e88d2a66a7691e0 | from django.db import migrations, models
class Migration(migrations.Migration):
dependencies = []
operations = [
migrations.CreateModel(
name="IPAddressField",
fields=[
(
"id",
models.AutoField(
verbose_name="ID",
serialize=False,
auto_created=True,
primary_key=True,
),
),
("ip", models.IPAddressField(null=True, blank=True)),
],
),
]
|
f5a22511da37b6dfa6905d232ad856d2236b66c840b565203d389d25b354f328 | from django.db import migrations
class Migration(migrations.Migration):
dependencies = [("migrations", "a")]
|
44b0c91d9cc60a079d8ff8be9ef997f824fd2df8d239a16a62a488e7dcb0e921 | from django.db import migrations, models
class Migration(migrations.Migration):
dependencies = [
("migrations", "0001_initial"),
]
operations = [
migrations.CreateModel(
"Book",
[
("id", models.AutoField(primary_key=True)),
(
"author",
models.ForeignKey("migrations.Author", models.SET_NULL, null=True),
),
],
)
]
|
837d132d60d3961e1007ece6470acf942906964363283ebbd47e8fa968b45457 | from django.db import migrations, models
class Migration(migrations.Migration):
operations = [
migrations.CreateModel(
"Salamander",
[
("id", models.AutoField(primary_key=True)),
("size", models.IntegerField(default=0)),
("silly_field", models.BooleanField(default=False)),
],
),
]
|
b1208727717fc9456d68694d77dda1a341b148b4df382cced37ae60253092a85 | from django.db import migrations, models
class Migration(migrations.Migration):
"""
This is a wee bit crazy, but it's just to show that run_before works.
"""
dependencies = [
("migrations", "0001_initial"),
]
run_before = [
("migrations", "0002_second"),
]
operations = [
migrations.CreateModel(
"Author",
[
("id", models.AutoField(primary_key=True)),
("name", models.CharField(max_length=255)),
("slug", models.SlugField(null=True)),
("age", models.IntegerField(default=0)),
],
)
]
|
b84caec702c64a8ed5362f468050589cc6a5ddb854b5b7b0a06e9fa8fc0724bb | from django.db import migrations, models
class Migration(migrations.Migration):
initial = False
operations = [
migrations.CreateModel(
"Author",
[
("id", models.AutoField(primary_key=True)),
("name", models.CharField(max_length=255)),
("slug", models.SlugField(null=True)),
("age", models.IntegerField(default=0)),
("silly_field", models.BooleanField(default=False)),
],
),
migrations.CreateModel(
"Tribble",
[
("id", models.AutoField(primary_key=True)),
("fluffy", models.BooleanField(default=True)),
],
),
migrations.AlterUniqueTogether(
name="author",
unique_together={("name", "slug")},
),
]
|
19f80c8e883be1adfce640a4575a898b5e4831d6166b2fe06fbc66a8861128ad | from django.db import migrations, models
class Migration(migrations.Migration):
dependencies = [
("auth", "__first__"),
]
operations = [
migrations.CreateModel(
"Book",
[
("id", models.AutoField(primary_key=True)),
("user", models.ForeignKey("auth.User", models.SET_NULL, null=True)),
],
)
]
|
75c6fa74f0699b11f342bc38e2a2872203863b286c749fdf97c8b356c5a70bd5 | from django.db import migrations, models
class Migration(migrations.Migration):
dependencies = [("migrations", "0001_initial")]
operations = [
migrations.CreateModel(
"Something",
[
("id", models.AutoField(primary_key=True)),
],
),
]
|
8aee97fb77b3794cceb16e2c7b405e9e739712a129aaa03763fd135e21015765 | from django.db import migrations, models
class Migration(migrations.Migration):
dependencies = [("migrations", "0001_initial")]
operations = [
migrations.CreateModel(
"SomethingElse",
[
("id", models.AutoField(primary_key=True)),
],
),
]
|
c6ef1e2e6f5f4316a97f836f1574d295fa68bc2a67d3bdabe2ca34c93a449981 | from django.db import migrations, models
class Migration(migrations.Migration):
initial = True
operations = [
migrations.CreateModel(
"Author",
[
("id", models.AutoField(primary_key=True)),
],
),
]
|
085c0219229b4b97c6acde34aaca8907b04a04976aa1e5db5959d55316050642 | from django.db import migrations, models
class Migration(migrations.Migration):
operations = [
migrations.CreateModel(
"Author",
[
("id", models.AutoField(primary_key=True)),
("name", models.CharField(max_length=255)),
("slug", models.SlugField(null=True)),
("age", models.IntegerField(default=0)),
("silly_field", models.BooleanField(default=False)),
],
),
migrations.CreateModel(
"Tribble",
[
("id", models.AutoField(primary_key=True)),
("fluffy", models.BooleanField(default=True)),
],
),
]
|
2983e87f84e6dea26e61c7dbfec0028d4cb28d0c79cef0d37b1bc8566fb67f75 | from django.db import migrations, models
class Migration(migrations.Migration):
dependencies = [
("migrations", "thefirst"),
("migrations2", "0002_second"),
]
operations = [
migrations.DeleteModel("Tribble"),
migrations.RemoveField("Author", "silly_field"),
migrations.AddField("Author", "rating", models.IntegerField(default=0)),
migrations.CreateModel(
"Book",
[
("id", models.AutoField(primary_key=True)),
(
"author",
models.ForeignKey("migrations.Author", models.SET_NULL, null=True),
),
],
),
]
|
4f174760db101e45c6f99e48c448ef5cc7ea293268b5120e19a042735bf2b181 | from django.conf import settings
from django.db import migrations, models
class Migration(migrations.Migration):
dependencies = [
migrations.swappable_dependency(settings.AUTH_USER_MODEL),
]
operations = [
migrations.CreateModel(
"Author",
[
("id", models.AutoField(primary_key=True)),
("name", models.CharField(max_length=255)),
],
),
migrations.CreateModel(
"Tribble",
[
("id", models.AutoField(primary_key=True)),
(
"author",
models.ForeignKey(
settings.AUTH_USER_MODEL, models.CASCADE, to_field="id"
),
),
],
),
]
|
fe3b85cbd46423b0d813de5185e6d7b2b76d35a3c8869da826dea6889cbc595d | from django.db import migrations, models
class Migration(migrations.Migration):
dependencies = [
("migrations", "0001_initial"),
]
operations = [
migrations.DeleteModel("Tribble"),
migrations.RemoveField("Author", "silly_field"),
migrations.AddField("Author", "rating", models.IntegerField(default=0)),
migrations.CreateModel(
"Book",
[
("id", models.AutoField(primary_key=True)),
(
"author",
models.ForeignKey("migrations.Author", models.SET_NULL, null=True),
),
],
),
]
|
33080b1311d3520b9eb46a9e4e56d93e48127918a7a8509aaba6d5b873df2251 | from django.db import migrations, models
class Migration(migrations.Migration):
initial = True
operations = [
migrations.CreateModel(
"Author",
[
("id", models.AutoField(primary_key=True)),
("name", models.CharField(max_length=255)),
("slug", models.SlugField(null=True)),
("age", models.IntegerField(default=0)),
("silly_field", models.BooleanField(default=False)),
],
),
migrations.CreateModel(
"Tribble",
[
("id", models.AutoField(primary_key=True)),
("fluffy", models.BooleanField(default=True)),
],
),
migrations.AddField(
model_name="tribble",
name="bool",
field=models.BooleanField(default=False),
),
migrations.AlterUniqueTogether(
name="author",
unique_together={("name", "slug")},
),
]
|
fbc3ca22022b9bcff82eab8735e0e5f7aa82a0434ca9ff1eba381ff9d304eb28 | from django.db import migrations, models
def raise_error(apps, schema_editor):
# Test operation in non-atomic migration is not wrapped in transaction
Publisher = apps.get_model("migrations", "Publisher")
Publisher.objects.create(name="Test Publisher")
raise RuntimeError("Abort migration")
class Migration(migrations.Migration):
atomic = False
operations = [
migrations.CreateModel(
"Publisher",
[
("name", models.CharField(primary_key=True, max_length=255)),
],
),
migrations.RunPython(raise_error),
migrations.CreateModel(
"Book",
[
("title", models.CharField(primary_key=True, max_length=255)),
(
"publisher",
models.ForeignKey(
"migrations.Publisher", models.SET_NULL, null=True
),
),
],
),
]
|
c92c79f09b615fe64ac4180800585d0deffd3dd11db4c9e3c039d1a8663f17a7 | from django.db import migrations
class Migration(migrations.Migration):
dependencies = [("migrations", "5_auto")]
operations = [migrations.RunPython(migrations.RunPython.noop)]
|
909f279c7724c15eb49b15bb2293a4cfcc6016b471c588cc5dbe50ace37c6189 | from django.db import migrations
class Migration(migrations.Migration):
dependencies = [("migrations", "1_auto")]
operations = [migrations.RunPython(migrations.RunPython.noop)]
|
87998831af05271f000272b5c580ffb8d0f8b32b5d82ecaacd250c295dda26f3 | from django.db import migrations
class Migration(migrations.Migration):
operations = [migrations.RunPython(migrations.RunPython.noop)]
|
74e513e6cf5321ff406329b5d421b1c6c8cec8b7a5705bc000cf1fde6e36ebd9 | from django.db import migrations
class Migration(migrations.Migration):
dependencies = [("migrations", "3_auto")]
operations = [migrations.RunPython(migrations.RunPython.noop)]
|
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