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django/tests/modeltests/m2m_through/models.py
Russell Keith-Magee 585b7acaa3 Fixed #10109 -- Removed the use of raw SQL in many-to-many fields by introducing an autogenerated through model.
This is the first part of Alex Gaynor's GSoC project to add Multi-db support to Django.

git-svn-id: http://code.djangoproject.com/svn/django/trunk@11710 bcc190cf-cafb-0310-a4f2-bffc1f526a37
2009-11-03 14:02:49 +00:00

338 lines
11 KiB
Python

from django.db import models
from datetime import datetime
# M2M described on one of the models
class Person(models.Model):
name = models.CharField(max_length=128)
class Meta:
ordering = ('name',)
def __unicode__(self):
return self.name
class Group(models.Model):
name = models.CharField(max_length=128)
members = models.ManyToManyField(Person, through='Membership')
custom_members = models.ManyToManyField(Person, through='CustomMembership', related_name="custom")
nodefaultsnonulls = models.ManyToManyField(Person, through='TestNoDefaultsOrNulls', related_name="testnodefaultsnonulls")
class Meta:
ordering = ('name',)
def __unicode__(self):
return self.name
class Membership(models.Model):
person = models.ForeignKey(Person)
group = models.ForeignKey(Group)
date_joined = models.DateTimeField(default=datetime.now)
invite_reason = models.CharField(max_length=64, null=True)
class Meta:
ordering = ('date_joined', 'invite_reason', 'group')
def __unicode__(self):
return "%s is a member of %s" % (self.person.name, self.group.name)
class CustomMembership(models.Model):
person = models.ForeignKey(Person, db_column="custom_person_column", related_name="custom_person_related_name")
group = models.ForeignKey(Group)
weird_fk = models.ForeignKey(Membership, null=True)
date_joined = models.DateTimeField(default=datetime.now)
def __unicode__(self):
return "%s is a member of %s" % (self.person.name, self.group.name)
class Meta:
db_table = "test_table"
class TestNoDefaultsOrNulls(models.Model):
person = models.ForeignKey(Person)
group = models.ForeignKey(Group)
nodefaultnonull = models.CharField(max_length=5)
class PersonSelfRefM2M(models.Model):
name = models.CharField(max_length=5)
friends = models.ManyToManyField('self', through="Friendship", symmetrical=False)
def __unicode__(self):
return self.name
class Friendship(models.Model):
first = models.ForeignKey(PersonSelfRefM2M, related_name="rel_from_set")
second = models.ForeignKey(PersonSelfRefM2M, related_name="rel_to_set")
date_friended = models.DateTimeField()
__test__ = {'API_TESTS':"""
>>> from datetime import datetime
### Creation and Saving Tests ###
>>> bob = Person.objects.create(name='Bob')
>>> jim = Person.objects.create(name='Jim')
>>> jane = Person.objects.create(name='Jane')
>>> rock = Group.objects.create(name='Rock')
>>> roll = Group.objects.create(name='Roll')
# We start out by making sure that the Group 'rock' has no members.
>>> rock.members.all()
[]
# To make Jim a member of Group Rock, simply create a Membership object.
>>> m1 = Membership.objects.create(person=jim, group=rock)
# We can do the same for Jane and Rock.
>>> m2 = Membership.objects.create(person=jane, group=rock)
# Let's check to make sure that it worked. Jane and Jim should be members of Rock.
>>> rock.members.all()
[<Person: Jane>, <Person: Jim>]
# Now we can add a bunch more Membership objects to test with.
>>> m3 = Membership.objects.create(person=bob, group=roll)
>>> m4 = Membership.objects.create(person=jim, group=roll)
>>> m5 = Membership.objects.create(person=jane, group=roll)
# We can get Jim's Group membership as with any ForeignKey.
>>> jim.group_set.all()
[<Group: Rock>, <Group: Roll>]
# Querying the intermediary model works like normal.
# In this case we get Jane's membership to Rock.
>>> m = Membership.objects.get(person=jane, group=rock)
>>> m
<Membership: Jane is a member of Rock>
# Now we set some date_joined dates for further testing.
>>> m2.invite_reason = "She was just awesome."
>>> m2.date_joined = datetime(2006, 1, 1)
>>> m2.save()
>>> m5.date_joined = datetime(2004, 1, 1)
>>> m5.save()
>>> m3.date_joined = datetime(2004, 1, 1)
>>> m3.save()
# It's not only get that works. Filter works like normal as well.
>>> Membership.objects.filter(person=jim)
[<Membership: Jim is a member of Rock>, <Membership: Jim is a member of Roll>]
### Forward Descriptors Tests ###
# Due to complications with adding via an intermediary model,
# the add method is not provided.
>>> rock.members.add(bob)
Traceback (most recent call last):
...
AttributeError: 'ManyRelatedManager' object has no attribute 'add'
# Create is also disabled as it suffers from the same problems as add.
>>> rock.members.create(name='Anne')
Traceback (most recent call last):
...
AttributeError: Cannot use create() on a ManyToManyField which specifies an intermediary model. Use m2m_through.Membership's Manager instead.
# Remove has similar complications, and is not provided either.
>>> rock.members.remove(jim)
Traceback (most recent call last):
...
AttributeError: 'ManyRelatedManager' object has no attribute 'remove'
# Here we back up the list of all members of Rock.
>>> backup = list(rock.members.all())
# ...and we verify that it has worked.
>>> backup
[<Person: Jane>, <Person: Jim>]
# The clear function should still work.
>>> rock.members.clear()
# Now there will be no members of Rock.
>>> rock.members.all()
[]
# Assignment should not work with models specifying a through model for many of
# the same reasons as adding.
>>> rock.members = backup
Traceback (most recent call last):
...
AttributeError: Cannot set values on a ManyToManyField which specifies an intermediary model. Use m2m_through.Membership's Manager instead.
# Let's re-save those instances that we've cleared.
>>> m1.save()
>>> m2.save()
# Verifying that those instances were re-saved successfully.
>>> rock.members.all()
[<Person: Jane>, <Person: Jim>]
### Reverse Descriptors Tests ###
# Due to complications with adding via an intermediary model,
# the add method is not provided.
>>> bob.group_set.add(rock)
Traceback (most recent call last):
...
AttributeError: 'ManyRelatedManager' object has no attribute 'add'
# Create is also disabled as it suffers from the same problems as add.
>>> bob.group_set.create(name='Funk')
Traceback (most recent call last):
...
AttributeError: Cannot use create() on a ManyToManyField which specifies an intermediary model. Use m2m_through.Membership's Manager instead.
# Remove has similar complications, and is not provided either.
>>> jim.group_set.remove(rock)
Traceback (most recent call last):
...
AttributeError: 'ManyRelatedManager' object has no attribute 'remove'
# Here we back up the list of all of Jim's groups.
>>> backup = list(jim.group_set.all())
>>> backup
[<Group: Rock>, <Group: Roll>]
# The clear function should still work.
>>> jim.group_set.clear()
# Now Jim will be in no groups.
>>> jim.group_set.all()
[]
# Assignment should not work with models specifying a through model for many of
# the same reasons as adding.
>>> jim.group_set = backup
Traceback (most recent call last):
...
AttributeError: Cannot set values on a ManyToManyField which specifies an intermediary model. Use m2m_through.Membership's Manager instead.
# Let's re-save those instances that we've cleared.
>>> m1.save()
>>> m4.save()
# Verifying that those instances were re-saved successfully.
>>> jim.group_set.all()
[<Group: Rock>, <Group: Roll>]
### Custom Tests ###
# Let's see if we can query through our second relationship.
>>> rock.custom_members.all()
[]
# We can query in the opposite direction as well.
>>> bob.custom.all()
[]
# Let's create some membership objects in this custom relationship.
>>> cm1 = CustomMembership.objects.create(person=bob, group=rock)
>>> cm2 = CustomMembership.objects.create(person=jim, group=rock)
# If we get the number of people in Rock, it should be both Bob and Jim.
>>> rock.custom_members.all()
[<Person: Bob>, <Person: Jim>]
# Bob should only be in one custom group.
>>> bob.custom.all()
[<Group: Rock>]
# Let's make sure our new descriptors don't conflict with the FK related_name.
>>> bob.custom_person_related_name.all()
[<CustomMembership: Bob is a member of Rock>]
### SELF-REFERENTIAL TESTS ###
# Let's first create a person who has no friends.
>>> tony = PersonSelfRefM2M.objects.create(name="Tony")
>>> tony.friends.all()
[]
# Now let's create another person for Tony to be friends with.
>>> chris = PersonSelfRefM2M.objects.create(name="Chris")
>>> f = Friendship.objects.create(first=tony, second=chris, date_friended=datetime.now())
# Tony should now show that Chris is his friend.
>>> tony.friends.all()
[<PersonSelfRefM2M: Chris>]
# But we haven't established that Chris is Tony's Friend.
>>> chris.friends.all()
[]
# So let's do that now.
>>> f2 = Friendship.objects.create(first=chris, second=tony, date_friended=datetime.now())
# Having added Chris as a friend, let's make sure that his friend set reflects
# that addition.
>>> chris.friends.all()
[<PersonSelfRefM2M: Tony>]
# Chris gets mad and wants to get rid of all of his friends.
>>> chris.friends.clear()
# Now he should not have any more friends.
>>> chris.friends.all()
[]
# Since this isn't a symmetrical relation, Tony's friend link still exists.
>>> tony.friends.all()
[<PersonSelfRefM2M: Chris>]
### QUERY TESTS ###
# We can query for the related model by using its attribute name (members, in
# this case).
>>> Group.objects.filter(members__name='Bob')
[<Group: Roll>]
# To query through the intermediary model, we specify its model name.
# In this case, membership.
>>> Group.objects.filter(membership__invite_reason="She was just awesome.")
[<Group: Rock>]
# If we want to query in the reverse direction by the related model, use its
# model name (group, in this case).
>>> Person.objects.filter(group__name="Rock")
[<Person: Jane>, <Person: Jim>]
# If the m2m field has specified a related_name, using that will work.
>>> Person.objects.filter(custom__name="Rock")
[<Person: Bob>, <Person: Jim>]
# To query through the intermediary model in the reverse direction, we again
# specify its model name (membership, in this case).
>>> Person.objects.filter(membership__invite_reason="She was just awesome.")
[<Person: Jane>]
# Let's see all of the groups that Jane joined after 1 Jan 2005:
>>> Group.objects.filter(membership__date_joined__gt=datetime(2005, 1, 1), membership__person =jane)
[<Group: Rock>]
# Queries also work in the reverse direction: Now let's see all of the people
# that have joined Rock since 1 Jan 2005:
>>> Person.objects.filter(membership__date_joined__gt=datetime(2005, 1, 1), membership__group=rock)
[<Person: Jane>, <Person: Jim>]
# Conceivably, queries through membership could return correct, but non-unique
# querysets. To demonstrate this, we query for all people who have joined a
# group after 2004:
>>> Person.objects.filter(membership__date_joined__gt=datetime(2004, 1, 1))
[<Person: Jane>, <Person: Jim>, <Person: Jim>]
# Jim showed up twice, because he joined two groups ('Rock', and 'Roll'):
>>> [(m.person.name, m.group.name) for m in
... Membership.objects.filter(date_joined__gt=datetime(2004, 1, 1))]
[(u'Jane', u'Rock'), (u'Jim', u'Rock'), (u'Jim', u'Roll')]
# QuerySet's distinct() method can correct this problem.
>>> Person.objects.filter(membership__date_joined__gt=datetime(2004, 1, 1)).distinct()
[<Person: Jane>, <Person: Jim>]
"""}