django1/tests/serializers/test_natural.py

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from django.core import serializers
from django.db import connection
from django.test import TestCase
from .models import Child, FKDataNaturalKey, NaturalKeyAnchor
from .tests import register_tests
class NaturalKeySerializerTests(TestCase):
pass
def natural_key_serializer_test(format, self):
# Create all the objects defined in the test data
with connection.constraint_checks_disabled():
objects = [
NaturalKeyAnchor.objects.create(id=1100, data="Natural Key Anghor"),
FKDataNaturalKey.objects.create(id=1101, data_id=1100),
FKDataNaturalKey.objects.create(id=1102, data_id=None),
]
# Serialize the test database
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serialized_data = serializers.serialize(format, objects, indent=2, use_natural_foreign_keys=True)
for obj in serializers.deserialize(format, serialized_data):
obj.save()
# Assert that the deserialized data is the same
# as the original source
for obj in objects:
instance = obj.__class__.objects.get(id=obj.pk)
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self.assertEqual(
obj.data, instance.data,
"Objects with PK=%d not equal; expected '%s' (%s), got '%s' (%s)" % (
obj.pk, obj.data, type(obj.data), instance, type(instance.data),
)
)
def natural_key_test(format, self):
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book1 = {
'data': '978-1590597255',
'title': 'The Definitive Guide to Django: Web Development Done Right',
}
book2 = {'data': '978-1590599969', 'title': 'Practical Django Projects'}
# Create the books.
adrian = NaturalKeyAnchor.objects.create(**book1)
james = NaturalKeyAnchor.objects.create(**book2)
# Serialize the books.
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string_data = serializers.serialize(
format, NaturalKeyAnchor.objects.all(), indent=2,
use_natural_foreign_keys=True, use_natural_primary_keys=True,
)
# Delete one book (to prove that the natural key generation will only
# restore the primary keys of books found in the database via the
# get_natural_key manager method).
james.delete()
# Deserialize and test.
books = list(serializers.deserialize(format, string_data))
self.assertEqual(len(books), 2)
self.assertEqual(books[0].object.title, book1['title'])
self.assertEqual(books[0].object.pk, adrian.pk)
self.assertEqual(books[1].object.title, book2['title'])
self.assertIsNone(books[1].object.pk)
def natural_pk_mti_test(format, self):
"""
If serializing objects in a multi-table inheritance relationship using
natural primary keys, the natural foreign key for the parent is output in
the fields of the child so it's possible to relate the child to the parent
when deserializing.
"""
child_1 = Child.objects.create(parent_data='1', child_data='1')
child_2 = Child.objects.create(parent_data='2', child_data='2')
string_data = serializers.serialize(
format,
[child_1.parent_ptr, child_2.parent_ptr, child_2, child_1],
use_natural_foreign_keys=True, use_natural_primary_keys=True,
)
child_1.delete()
child_2.delete()
for obj in serializers.deserialize(format, string_data):
obj.save()
children = Child.objects.all()
self.assertEqual(len(children), 2)
for child in children:
# If it's possible to find the superclass from the subclass and it's
# the correct superclass, it's working.
self.assertEqual(child.child_data, child.parent_data)
# Dynamically register tests for each serializer
register_tests(NaturalKeySerializerTests, 'test_%s_natural_key_serializer', natural_key_serializer_test)
register_tests(NaturalKeySerializerTests, 'test_%s_serializer_natural_keys', natural_key_test)
register_tests(NaturalKeySerializerTests, 'test_%s_serializer_natural_pks_mti', natural_pk_mti_test)