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604c5bc52a
The previous versions only worked on SQLite. They failed catastrophically on MySQL & PostgreSQL. git-svn-id: http://code.djangoproject.com/svn/django/trunk@10506 bcc190cf-cafb-0310-a4f2-bffc1f526a37
153 lines
4.1 KiB
Python
153 lines
4.1 KiB
Python
"""
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Models can have a ``managed`` attribute, which specifies whether the SQL code
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is generated for the table on various manage.py operations.
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"""
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from django.db import models
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# All of these models are creatd in the database by Django.
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class A01(models.Model):
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f_a = models.CharField(max_length=10, db_index=True)
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f_b = models.IntegerField()
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class Meta:
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db_table = 'A01'
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def __unicode__(self):
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return self.f_a
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class B01(models.Model):
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fk_a = models.ForeignKey(A01)
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f_a = models.CharField(max_length=10, db_index=True)
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f_b = models.IntegerField()
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class Meta:
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db_table = 'B01'
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# 'managed' is True by default. This tests we can set it explicitly.
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managed = True
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def __unicode__(self):
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return self.f_a
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class C01(models.Model):
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mm_a = models.ManyToManyField(A01, db_table='D01')
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f_a = models.CharField(max_length=10, db_index=True)
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f_b = models.IntegerField()
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class Meta:
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db_table = 'C01'
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def __unicode__(self):
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return self.f_a
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# All of these models use the same tables as the previous set (they are shadows
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# of possibly a subset of the columns). There should be no creation errors,
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# since we have told Django they aren't managed by Django.
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class A02(models.Model):
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f_a = models.CharField(max_length=10, db_index=True)
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class Meta:
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db_table = 'A01'
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managed = False
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def __unicode__(self):
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return self.f_a
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class B02(models.Model):
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class Meta:
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db_table = 'B01'
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managed = False
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fk_a = models.ForeignKey(A02)
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f_a = models.CharField(max_length=10, db_index=True)
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f_b = models.IntegerField()
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def __unicode__(self):
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return self.f_a
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# To re-use the many-to-many intermediate table, we need to manually set up
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# things up.
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class C02(models.Model):
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mm_a = models.ManyToManyField(A02, through="Intermediate")
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f_a = models.CharField(max_length=10, db_index=True)
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f_b = models.IntegerField()
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class Meta:
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db_table = 'C01'
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managed = False
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def __unicode__(self):
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return self.f_a
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class Intermediate(models.Model):
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a02 = models.ForeignKey(A02, db_column="a01_id")
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c02 = models.ForeignKey(C02, db_column="c01_id")
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class Meta:
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db_table = 'D01'
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managed = False
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#
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# These next models test the creation (or not) of many to many join tables
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# between managed and unmanaged models. A join table between two unmanaged
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# models shouldn't be automatically created (see #10647).
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#
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# Firstly, we need some models that will create the tables, purely so that the
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# tables are created. This is a test setup, not a requirement for unmanaged
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# models.
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class Proxy1(models.Model):
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class Meta:
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db_table = "unmanaged_models_proxy1"
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class Proxy2(models.Model):
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class Meta:
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db_table = "unmanaged_models_proxy2"
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class Unmanaged1(models.Model):
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class Meta:
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managed = False
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db_table = "unmanaged_models_proxy1"
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# Unmanged with an m2m to unmanaged: the intermediary table won't be created.
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class Unmanaged2(models.Model):
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mm = models.ManyToManyField(Unmanaged1)
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class Meta:
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managed = False
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db_table = "unmanaged_models_proxy2"
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# Here's an unmanaged model with an m2m to a managed one; the intermediary
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# table *will* be created (unless given a custom `through` as for C02 above).
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class Managed1(models.Model):
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mm = models.ManyToManyField(Unmanaged1)
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__test__ = {'API_TESTS':"""
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The main test here is that the all the models can be created without any
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database errors. We can also do some more simple insertion and lookup tests
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whilst we're here to show that the second of models do refer to the tables from
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the first set.
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# Insert some data into one set of models.
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>>> a = A01.objects.create(f_a="foo", f_b=42)
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>>> _ = B01.objects.create(fk_a=a, f_a="fred", f_b=1729)
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>>> c = C01.objects.create(f_a="barney", f_b=1)
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>>> c.mm_a = [a]
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# ... and pull it out via the other set.
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>>> A02.objects.all()
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[<A02: foo>]
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>>> b = B02.objects.all()[0]
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>>> b
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<B02: fred>
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>>> b.fk_a
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<A02: foo>
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>>> C02.objects.filter(f_a=None)
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[]
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>>> C02.objects.filter(mm_a=a.id)
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[<C02: barney>]
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"""}
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