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728548e483
Squashed commit of the following:
commit 63ddb271a44df389b2c302e421fc17b7f0529755
Author: Aymeric Augustin <aymeric.augustin@m4x.org>
Date: Sun Sep 29 22:51:00 2013 +0200
Clarified interactions between atomic and exceptions.
commit 2899ec299228217c876ba3aa4024e523a41c8504
Author: Aymeric Augustin <aymeric.augustin@m4x.org>
Date: Sun Sep 22 22:45:32 2013 +0200
Fixed TransactionManagementError in tests.
Previous commit introduced an additional check to prevent running
queries in transactions that will be rolled back, which triggered a few
failures in the tests. In practice using transaction.atomic instead of
the low-level savepoint APIs was enough to fix the problems.
commit 4a639b059ea80aeb78f7f160a7d4b9f609b9c238
Author: Aymeric Augustin <aymeric.augustin@m4x.org>
Date: Tue Sep 24 22:24:17 2013 +0200
Allowed nesting constraint_checks_disabled inside atomic.
Since MySQL handles transactions loosely, this isn't a problem.
commit 2a4ab1cb6e83391ff7e25d08479e230ca564bfef
Author: Aymeric Augustin <aymeric.augustin@m4x.org>
Date: Sat Sep 21 18:43:12 2013 +0200
Prevented running queries in transactions that will be rolled back.
This avoids a counter-intuitive behavior in an edge case on databases
with non-atomic transaction semantics.
It prevents using savepoint_rollback() inside an atomic block without
calling set_rollback(False) first, which is backwards-incompatible in
tests.
Refs #21134.
commit 8e3db393853c7ac64a445b66e57f3620a3fde7b0
Author: Aymeric Augustin <aymeric.augustin@m4x.org>
Date: Sun Sep 22 22:14:17 2013 +0200
Replaced manual savepoints by atomic blocks.
This ensures the rollback flag is handled consistently in internal APIs.
264 lines
9.2 KiB
Python
264 lines
9.2 KiB
Python
from __future__ import unicode_literals
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from django.core.exceptions import FieldError
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from django.db.models import F
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from django.db import transaction
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from django.test import TestCase
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from django.utils import six
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from .models import Company, Employee
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class ExpressionsTests(TestCase):
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def test_filter(self):
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Company.objects.create(
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name="Example Inc.", num_employees=2300, num_chairs=5,
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ceo=Employee.objects.create(firstname="Joe", lastname="Smith")
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)
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Company.objects.create(
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name="Foobar Ltd.", num_employees=3, num_chairs=4,
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ceo=Employee.objects.create(firstname="Frank", lastname="Meyer")
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)
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Company.objects.create(
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name="Test GmbH", num_employees=32, num_chairs=1,
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ceo=Employee.objects.create(firstname="Max", lastname="Mustermann")
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)
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company_query = Company.objects.values(
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"name", "num_employees", "num_chairs"
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).order_by(
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"name", "num_employees", "num_chairs"
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)
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# We can filter for companies where the number of employees is greater
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# than the number of chairs.
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self.assertQuerysetEqual(
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company_query.filter(num_employees__gt=F("num_chairs")), [
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{
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"num_chairs": 5,
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"name": "Example Inc.",
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"num_employees": 2300,
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},
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{
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"num_chairs": 1,
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"name": "Test GmbH",
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"num_employees": 32
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},
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],
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lambda o: o
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)
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# We can set one field to have the value of another field
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# Make sure we have enough chairs
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company_query.update(num_chairs=F("num_employees"))
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self.assertQuerysetEqual(
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company_query, [
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{
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"num_chairs": 2300,
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"name": "Example Inc.",
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"num_employees": 2300
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},
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{
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"num_chairs": 3,
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"name": "Foobar Ltd.",
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"num_employees": 3
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},
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{
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"num_chairs": 32,
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"name": "Test GmbH",
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"num_employees": 32
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}
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],
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lambda o: o
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)
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# We can perform arithmetic operations in expressions
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# Make sure we have 2 spare chairs
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company_query.update(num_chairs=F("num_employees")+2)
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self.assertQuerysetEqual(
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company_query, [
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{
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'num_chairs': 2302,
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'name': 'Example Inc.',
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'num_employees': 2300
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},
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{
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'num_chairs': 5,
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'name': 'Foobar Ltd.',
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'num_employees': 3
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},
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{
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'num_chairs': 34,
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'name': 'Test GmbH',
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'num_employees': 32
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}
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],
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lambda o: o,
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)
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# Law of order of operations is followed
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company_query.update(
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num_chairs=F('num_employees') + 2 * F('num_employees')
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)
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self.assertQuerysetEqual(
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company_query, [
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{
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'num_chairs': 6900,
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'name': 'Example Inc.',
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'num_employees': 2300
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},
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{
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'num_chairs': 9,
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'name': 'Foobar Ltd.',
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'num_employees': 3
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},
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{
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'num_chairs': 96,
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'name': 'Test GmbH',
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'num_employees': 32
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}
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],
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lambda o: o,
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)
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# Law of order of operations can be overridden by parentheses
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company_query.update(
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num_chairs=((F('num_employees') + 2) * F('num_employees'))
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)
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self.assertQuerysetEqual(
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company_query, [
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{
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'num_chairs': 5294600,
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'name': 'Example Inc.',
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'num_employees': 2300
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},
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{
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'num_chairs': 15,
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'name': 'Foobar Ltd.',
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'num_employees': 3
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},
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{
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'num_chairs': 1088,
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'name': 'Test GmbH',
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'num_employees': 32
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}
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],
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lambda o: o,
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)
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# The relation of a foreign key can become copied over to an other
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# foreign key.
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self.assertEqual(
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Company.objects.update(point_of_contact=F('ceo')),
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3
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)
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self.assertQuerysetEqual(
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Company.objects.all(), [
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"Joe Smith",
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"Frank Meyer",
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"Max Mustermann",
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],
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lambda c: six.text_type(c.point_of_contact),
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ordered=False
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)
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c = Company.objects.all()[0]
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c.point_of_contact = Employee.objects.create(firstname="Guido", lastname="van Rossum")
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c.save()
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# F Expressions can also span joins
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self.assertQuerysetEqual(
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Company.objects.filter(ceo__firstname=F("point_of_contact__firstname")), [
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"Foobar Ltd.",
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"Test GmbH",
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],
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lambda c: c.name,
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ordered=False
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)
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Company.objects.exclude(
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ceo__firstname=F("point_of_contact__firstname")
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).update(name="foo")
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self.assertEqual(
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Company.objects.exclude(
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ceo__firstname=F('point_of_contact__firstname')
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).get().name,
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"foo",
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)
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with transaction.atomic():
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with self.assertRaises(FieldError):
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Company.objects.exclude(
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ceo__firstname=F('point_of_contact__firstname')
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).update(name=F('point_of_contact__lastname'))
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# F expressions can be used to update attributes on single objects
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test_gmbh = Company.objects.get(name="Test GmbH")
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self.assertEqual(test_gmbh.num_employees, 32)
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test_gmbh.num_employees = F("num_employees") + 4
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test_gmbh.save()
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test_gmbh = Company.objects.get(pk=test_gmbh.pk)
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self.assertEqual(test_gmbh.num_employees, 36)
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# F expressions cannot be used to update attributes which are foreign
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# keys, or attributes which involve joins.
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test_gmbh.point_of_contact = None
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test_gmbh.save()
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self.assertTrue(test_gmbh.point_of_contact is None)
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def test():
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test_gmbh.point_of_contact = F("ceo")
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self.assertRaises(ValueError, test)
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test_gmbh.point_of_contact = test_gmbh.ceo
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test_gmbh.save()
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test_gmbh.name = F("ceo__last_name")
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self.assertRaises(FieldError, test_gmbh.save)
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# F expressions cannot be used to update attributes on objects which do
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# not yet exist in the database
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acme = Company(
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name="The Acme Widget Co.", num_employees=12, num_chairs=5,
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ceo=test_gmbh.ceo
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)
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acme.num_employees = F("num_employees") + 16
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self.assertRaises(TypeError, acme.save)
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def test_ticket_18375_join_reuse(self):
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# Test that reverse multijoin F() references and the lookup target
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# the same join. Pre #18375 the F() join was generated first, and the
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# lookup couldn't reuse that join.
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qs = Employee.objects.filter(
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company_ceo_set__num_chairs=F('company_ceo_set__num_employees'))
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self.assertEqual(str(qs.query).count('JOIN'), 1)
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def test_ticket_18375_kwarg_ordering(self):
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# The next query was dict-randomization dependent - if the "gte=1"
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# was seen first, then the F() will reuse the join generated by the
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# gte lookup, if F() was seen first, then it generated a join the
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# other lookups could not reuse.
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qs = Employee.objects.filter(
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company_ceo_set__num_chairs=F('company_ceo_set__num_employees'),
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company_ceo_set__num_chairs__gte=1)
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self.assertEqual(str(qs.query).count('JOIN'), 1)
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def test_ticket_18375_kwarg_ordering_2(self):
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# Another similar case for F() than above. Now we have the same join
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# in two filter kwargs, one in the lhs lookup, one in F. Here pre
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# #18375 the amount of joins generated was random if dict
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# randomization was enabled, that is the generated query dependend
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# on which clause was seen first.
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qs = Employee.objects.filter(
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company_ceo_set__num_employees=F('pk'),
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pk=F('company_ceo_set__num_employees')
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)
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self.assertEqual(str(qs.query).count('JOIN'), 1)
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def test_ticket_18375_chained_filters(self):
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# Test that F() expressions do not reuse joins from previous filter.
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qs = Employee.objects.filter(
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company_ceo_set__num_employees=F('pk')
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).filter(
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company_ceo_set__num_employees=F('company_ceo_set__num_employees')
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)
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self.assertEqual(str(qs.query).count('JOIN'), 2)
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