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847f46e9bf
Most QuerySet methods are mapped onto the Manager and, in general, it isn't necessary to call .all() on the manager.
302 lines
12 KiB
Python
302 lines
12 KiB
Python
from django.core.exceptions import FieldError
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from django.test import TestCase
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from .models import (
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BigChild,
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Child,
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ChildProxy,
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Primary,
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RefreshPrimaryProxy,
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Secondary,
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ShadowChild,
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)
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class AssertionMixin:
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def assert_delayed(self, obj, num):
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"""
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Instances with deferred fields look the same as normal instances when
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we examine attribute values. Therefore, this method returns the number
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of deferred fields on returned instances.
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"""
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count = len(obj.get_deferred_fields())
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self.assertEqual(count, num)
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class DeferTests(AssertionMixin, TestCase):
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@classmethod
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def setUpTestData(cls):
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cls.s1 = Secondary.objects.create(first="x1", second="y1")
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cls.p1 = Primary.objects.create(name="p1", value="xx", related=cls.s1)
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def test_defer(self):
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qs = Primary.objects.all()
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self.assert_delayed(qs.defer("name")[0], 1)
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self.assert_delayed(qs.defer("name").get(pk=self.p1.pk), 1)
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self.assert_delayed(qs.defer("related__first")[0], 0)
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self.assert_delayed(qs.defer("name").defer("value")[0], 2)
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def test_only(self):
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qs = Primary.objects.all()
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self.assert_delayed(qs.only("name")[0], 2)
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self.assert_delayed(qs.only("name").get(pk=self.p1.pk), 2)
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self.assert_delayed(qs.only("name").only("value")[0], 2)
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self.assert_delayed(qs.only("related__first")[0], 2)
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# Using 'pk' with only() should result in 3 deferred fields, namely all
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# of them except the model's primary key see #15494
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self.assert_delayed(qs.only("pk")[0], 3)
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# You can use 'pk' with reverse foreign key lookups.
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# The related_id is always set even if it's not fetched from the DB,
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# so pk and related_id are not deferred.
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self.assert_delayed(self.s1.primary_set.only("pk")[0], 2)
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def test_defer_only_chaining(self):
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qs = Primary.objects.all()
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self.assert_delayed(qs.only("name", "value").defer("name")[0], 2)
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self.assert_delayed(qs.defer("name").only("value", "name")[0], 2)
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self.assert_delayed(qs.defer("name").only("name").only("value")[0], 2)
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self.assert_delayed(qs.defer("name").only("value")[0], 2)
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self.assert_delayed(qs.only("name").defer("value")[0], 2)
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self.assert_delayed(qs.only("name").defer("name").defer("value")[0], 1)
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self.assert_delayed(qs.only("name").defer("name", "value")[0], 1)
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def test_defer_only_clear(self):
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qs = Primary.objects.all()
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self.assert_delayed(qs.only("name").defer("name")[0], 0)
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self.assert_delayed(qs.defer("name").only("name")[0], 0)
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def test_defer_on_an_already_deferred_field(self):
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qs = Primary.objects.all()
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self.assert_delayed(qs.defer("name")[0], 1)
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self.assert_delayed(qs.defer("name").defer("name")[0], 1)
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def test_defer_none_to_clear_deferred_set(self):
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qs = Primary.objects.all()
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self.assert_delayed(qs.defer("name", "value")[0], 2)
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self.assert_delayed(qs.defer(None)[0], 0)
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self.assert_delayed(qs.only("name").defer(None)[0], 0)
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def test_only_none_raises_error(self):
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msg = "Cannot pass None as an argument to only()."
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with self.assertRaisesMessage(TypeError, msg):
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Primary.objects.only(None)
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def test_defer_extra(self):
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qs = Primary.objects.all()
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self.assert_delayed(qs.defer("name").extra(select={"a": 1})[0], 1)
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self.assert_delayed(qs.extra(select={"a": 1}).defer("name")[0], 1)
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def test_defer_values_does_not_defer(self):
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# User values() won't defer anything (you get the full list of
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# dictionaries back), but it still works.
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self.assertEqual(
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Primary.objects.defer("name").values()[0],
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{
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"id": self.p1.id,
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"name": "p1",
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"value": "xx",
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"related_id": self.s1.id,
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},
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)
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def test_only_values_does_not_defer(self):
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self.assertEqual(
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Primary.objects.only("name").values()[0],
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{
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"id": self.p1.id,
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"name": "p1",
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"value": "xx",
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"related_id": self.s1.id,
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},
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)
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def test_get(self):
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# Using defer() and only() with get() is also valid.
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qs = Primary.objects.all()
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self.assert_delayed(qs.defer("name").get(pk=self.p1.pk), 1)
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self.assert_delayed(qs.only("name").get(pk=self.p1.pk), 2)
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def test_defer_with_select_related(self):
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obj = Primary.objects.select_related().defer(
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"related__first", "related__second"
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)[0]
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self.assert_delayed(obj.related, 2)
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self.assert_delayed(obj, 0)
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def test_only_with_select_related(self):
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obj = Primary.objects.select_related().only("related__first")[0]
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self.assert_delayed(obj, 2)
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self.assert_delayed(obj.related, 1)
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self.assertEqual(obj.related_id, self.s1.pk)
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self.assertEqual(obj.name, "p1")
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def test_defer_select_related_raises_invalid_query(self):
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msg = (
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"Field Primary.related cannot be both deferred and traversed "
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"using select_related at the same time."
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)
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with self.assertRaisesMessage(FieldError, msg):
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Primary.objects.defer("related").select_related("related")[0]
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def test_only_select_related_raises_invalid_query(self):
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msg = (
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"Field Primary.related cannot be both deferred and traversed using "
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"select_related at the same time."
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)
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with self.assertRaisesMessage(FieldError, msg):
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Primary.objects.only("name").select_related("related")[0]
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def test_defer_foreign_keys_are_deferred_and_not_traversed(self):
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# select_related() overrides defer().
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with self.assertNumQueries(1):
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obj = Primary.objects.defer("related").select_related()[0]
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self.assert_delayed(obj, 1)
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self.assertEqual(obj.related.id, self.s1.pk)
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def test_saving_object_with_deferred_field(self):
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# Saving models with deferred fields is possible (but inefficient,
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# since every field has to be retrieved first).
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Primary.objects.create(name="p2", value="xy", related=self.s1)
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obj = Primary.objects.defer("value").get(name="p2")
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obj.name = "a new name"
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obj.save()
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self.assertQuerysetEqual(
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Primary.objects.all(),
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[
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"p1",
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"a new name",
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],
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lambda p: p.name,
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ordered=False,
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)
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def test_defer_baseclass_when_subclass_has_no_added_fields(self):
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# Regression for #10572 - A subclass with no extra fields can defer
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# fields from the base class
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Child.objects.create(name="c1", value="foo", related=self.s1)
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# You can defer a field on a baseclass when the subclass has no fields
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obj = Child.objects.defer("value").get(name="c1")
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self.assert_delayed(obj, 1)
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self.assertEqual(obj.name, "c1")
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self.assertEqual(obj.value, "foo")
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def test_only_baseclass_when_subclass_has_no_added_fields(self):
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# You can retrieve a single column on a base class with no fields
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Child.objects.create(name="c1", value="foo", related=self.s1)
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obj = Child.objects.only("name").get(name="c1")
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# on an inherited model, its PK is also fetched, hence '3' deferred fields.
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self.assert_delayed(obj, 3)
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self.assertEqual(obj.name, "c1")
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self.assertEqual(obj.value, "foo")
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def test_defer_of_overridden_scalar(self):
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ShadowChild.objects.create()
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obj = ShadowChild.objects.defer("name").get()
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self.assertEqual(obj.name, "adonis")
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class BigChildDeferTests(AssertionMixin, TestCase):
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@classmethod
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def setUpTestData(cls):
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cls.s1 = Secondary.objects.create(first="x1", second="y1")
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BigChild.objects.create(name="b1", value="foo", related=cls.s1, other="bar")
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def test_defer_baseclass_when_subclass_has_added_field(self):
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# You can defer a field on a baseclass
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obj = BigChild.objects.defer("value").get(name="b1")
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self.assert_delayed(obj, 1)
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self.assertEqual(obj.name, "b1")
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self.assertEqual(obj.value, "foo")
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self.assertEqual(obj.other, "bar")
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def test_defer_subclass(self):
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# You can defer a field on a subclass
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obj = BigChild.objects.defer("other").get(name="b1")
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self.assert_delayed(obj, 1)
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self.assertEqual(obj.name, "b1")
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self.assertEqual(obj.value, "foo")
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self.assertEqual(obj.other, "bar")
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def test_defer_subclass_both(self):
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# Deferring fields from both superclass and subclass works.
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obj = BigChild.objects.defer("other", "value").get(name="b1")
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self.assert_delayed(obj, 2)
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def test_only_baseclass_when_subclass_has_added_field(self):
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# You can retrieve a single field on a baseclass
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obj = BigChild.objects.only("name").get(name="b1")
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# when inherited model, its PK is also fetched, hence '4' deferred fields.
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self.assert_delayed(obj, 4)
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self.assertEqual(obj.name, "b1")
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self.assertEqual(obj.value, "foo")
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self.assertEqual(obj.other, "bar")
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def test_only_subclass(self):
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# You can retrieve a single field on a subclass
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obj = BigChild.objects.only("other").get(name="b1")
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self.assert_delayed(obj, 4)
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self.assertEqual(obj.name, "b1")
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self.assertEqual(obj.value, "foo")
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self.assertEqual(obj.other, "bar")
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class TestDefer2(AssertionMixin, TestCase):
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def test_defer_proxy(self):
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"""
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Ensure select_related together with only on a proxy model behaves
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as expected. See #17876.
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"""
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related = Secondary.objects.create(first="x1", second="x2")
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ChildProxy.objects.create(name="p1", value="xx", related=related)
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children = ChildProxy.objects.select_related().only("id", "name")
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self.assertEqual(len(children), 1)
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child = children[0]
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self.assert_delayed(child, 2)
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self.assertEqual(child.name, "p1")
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self.assertEqual(child.value, "xx")
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def test_defer_inheritance_pk_chaining(self):
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"""
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When an inherited model is fetched from the DB, its PK is also fetched.
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When getting the PK of the parent model it is useful to use the already
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fetched parent model PK if it happens to be available.
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"""
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s1 = Secondary.objects.create(first="x1", second="y1")
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bc = BigChild.objects.create(name="b1", value="foo", related=s1, other="bar")
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bc_deferred = BigChild.objects.only("name").get(pk=bc.pk)
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with self.assertNumQueries(0):
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bc_deferred.id
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self.assertEqual(bc_deferred.pk, bc_deferred.id)
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def test_eq(self):
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s1 = Secondary.objects.create(first="x1", second="y1")
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s1_defer = Secondary.objects.only("pk").get(pk=s1.pk)
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self.assertEqual(s1, s1_defer)
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self.assertEqual(s1_defer, s1)
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def test_refresh_not_loading_deferred_fields(self):
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s = Secondary.objects.create()
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rf = Primary.objects.create(name="foo", value="bar", related=s)
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rf2 = Primary.objects.only("related", "value").get()
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rf.name = "new foo"
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rf.value = "new bar"
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rf.save()
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with self.assertNumQueries(1):
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rf2.refresh_from_db()
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self.assertEqual(rf2.value, "new bar")
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with self.assertNumQueries(1):
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self.assertEqual(rf2.name, "new foo")
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def test_custom_refresh_on_deferred_loading(self):
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s = Secondary.objects.create()
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rf = RefreshPrimaryProxy.objects.create(name="foo", value="bar", related=s)
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rf2 = RefreshPrimaryProxy.objects.only("related").get()
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rf.name = "new foo"
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rf.value = "new bar"
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rf.save()
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with self.assertNumQueries(1):
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# Customized refresh_from_db() reloads all deferred fields on
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# access of any of them.
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self.assertEqual(rf2.name, "new foo")
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self.assertEqual(rf2.value, "new bar")
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