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384a721e1c
git-svn-id: http://code.djangoproject.com/svn/django/trunk@8030 bcc190cf-cafb-0310-a4f2-bffc1f526a37
191 lines
4.7 KiB
Python
191 lines
4.7 KiB
Python
# coding: utf-8
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"""
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Tests for some corner cases with deleting.
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"""
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from django.db import models
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class DefaultRepr(object):
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def __repr__(self):
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return u"<%s: %s>" % (self.__class__.__name__, self.__dict__)
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class A(DefaultRepr, models.Model):
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pass
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class B(DefaultRepr, models.Model):
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a = models.ForeignKey(A)
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class C(DefaultRepr, models.Model):
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b = models.ForeignKey(B)
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class D(DefaultRepr, models.Model):
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c = models.ForeignKey(C)
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a = models.ForeignKey(A)
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# Simplified, we have:
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# A
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# B -> A
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# C -> B
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# D -> C
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# D -> A
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# So, we must delete Ds first of all, then Cs then Bs then As.
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# However, if we start at As, we might find Bs first (in which
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# case things will be nice), or find Ds first.
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# Some mutually dependent models, but nullable
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class E(DefaultRepr, models.Model):
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f = models.ForeignKey('F', null=True, related_name='e_rel')
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class F(DefaultRepr, models.Model):
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e = models.ForeignKey(E, related_name='f_rel')
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__test__ = {'API_TESTS': """
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### Tests for models A,B,C,D ###
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## First, test the CollectedObjects data structure directly
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>>> from django.db.models.query import CollectedObjects
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>>> g = CollectedObjects()
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>>> g.add("key1", 1, "item1", None)
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False
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>>> g["key1"]
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{1: 'item1'}
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>>> g.add("key2", 1, "item1", "key1")
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False
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>>> g.add("key2", 2, "item2", "key1")
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False
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>>> g["key2"]
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{1: 'item1', 2: 'item2'}
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>>> g.add("key3", 1, "item1", "key1")
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False
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>>> g.add("key3", 1, "item1", "key2")
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True
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>>> g.ordered_keys()
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['key3', 'key2', 'key1']
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>>> g.add("key2", 1, "item1", "key3")
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True
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>>> g.ordered_keys()
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Traceback (most recent call last):
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...
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CyclicDependency: There is a cyclic dependency of items to be processed.
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## Second, test the usage of CollectedObjects by Model.delete()
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# Due to the way that transactions work in the test harness,
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# doing m.delete() here can work but fail in a real situation,
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# since it may delete all objects, but not in the right order.
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# So we manually check that the order of deletion is correct.
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# Also, it is possible that the order is correct 'accidentally', due
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# solely to order of imports etc. To check this, we set the order
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# that 'get_models()' will retrieve to a known 'nice' order, and
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# then try again with a known 'tricky' order. Slightly naughty
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# access to internals here :-)
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# If implementation changes, then the tests may need to be simplified:
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# - remove the lines that set the .keyOrder and clear the related
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# object caches
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# - remove the second set of tests (with a2, b2 etc)
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>>> from django.db.models.loading import cache
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>>> def clear_rel_obj_caches(models):
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... for m in models:
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... if hasattr(m._meta, '_related_objects_cache'):
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... del m._meta._related_objects_cache
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# Nice order
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>>> cache.app_models['delete'].keyOrder = ['a', 'b', 'c', 'd']
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>>> clear_rel_obj_caches([A, B, C, D])
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>>> a1 = A()
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>>> a1.save()
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>>> b1 = B(a=a1)
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>>> b1.save()
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>>> c1 = C(b=b1)
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>>> c1.save()
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>>> d1 = D(c=c1, a=a1)
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>>> d1.save()
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>>> o = CollectedObjects()
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>>> a1._collect_sub_objects(o)
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>>> o.keys()
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[<class 'modeltests.delete.models.D'>, <class 'modeltests.delete.models.C'>, <class 'modeltests.delete.models.B'>, <class 'modeltests.delete.models.A'>]
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>>> a1.delete()
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# Same again with a known bad order
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>>> cache.app_models['delete'].keyOrder = ['d', 'c', 'b', 'a']
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>>> clear_rel_obj_caches([A, B, C, D])
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>>> a2 = A()
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>>> a2.save()
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>>> b2 = B(a=a2)
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>>> b2.save()
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>>> c2 = C(b=b2)
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>>> c2.save()
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>>> d2 = D(c=c2, a=a2)
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>>> d2.save()
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>>> o = CollectedObjects()
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>>> a2._collect_sub_objects(o)
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>>> o.keys()
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[<class 'modeltests.delete.models.D'>, <class 'modeltests.delete.models.C'>, <class 'modeltests.delete.models.B'>, <class 'modeltests.delete.models.A'>]
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>>> a2.delete()
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### Tests for models E,F - nullable related fields ###
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## First, test the CollectedObjects data structure directly
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>>> g = CollectedObjects()
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>>> g.add("key1", 1, "item1", None)
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False
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>>> g.add("key2", 1, "item1", "key1", nullable=True)
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False
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>>> g.add("key1", 1, "item1", "key2")
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True
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>>> g.ordered_keys()
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['key1', 'key2']
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## Second, test the usage of CollectedObjects by Model.delete()
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>>> e1 = E()
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>>> e1.save()
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>>> f1 = F(e=e1)
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>>> f1.save()
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>>> e1.f = f1
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>>> e1.save()
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# Since E.f is nullable, we should delete F first (after nulling out
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# the E.f field), then E.
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>>> o = CollectedObjects()
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>>> e1._collect_sub_objects(o)
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>>> o.keys()
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[<class 'modeltests.delete.models.F'>, <class 'modeltests.delete.models.E'>]
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>>> e1.delete()
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>>> e2 = E()
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>>> e2.save()
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>>> f2 = F(e=e2)
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>>> f2.save()
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>>> e2.f = f2
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>>> e2.save()
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# Same deal as before, though we are starting from the other object.
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>>> o = CollectedObjects()
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>>> f2._collect_sub_objects(o)
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>>> o.keys()
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[<class 'modeltests.delete.models.F'>, <class 'modeltests.delete.models.E'>]
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>>> f2.delete()
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"""
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}
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