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django/tests/modeltests/generic_relations/models.py
Malcolm Tredinnick 953badbea5 Merged Unicode branch into trunk (r4952:5608). This should be fully
backwards compatible for all practical purposes.

Fixed #2391, #2489, #2996, #3322, #3344, #3370, #3406, #3432, #3454, #3492, #3582, #3690, #3878, #3891, #3937, #4039, #4141, #4227, #4286, #4291, #4300, #4452, #4702


git-svn-id: http://code.djangoproject.com/svn/django/trunk@5609 bcc190cf-cafb-0310-a4f2-bffc1f526a37
2007-07-04 12:11:04 +00:00

136 lines
4.9 KiB
Python

"""
34. Generic relations
Generic relations let an object have a foreign key to any object through a
content-type/object-id field. A generic foreign key can point to any object,
be it animal, vegetable, or mineral.
The canonical example is tags (although this example implementation is *far*
from complete).
"""
from django.db import models
from django.contrib.contenttypes.models import ContentType
from django.contrib.contenttypes import generic
class TaggedItem(models.Model):
"""A tag on an item."""
tag = models.SlugField()
content_type = models.ForeignKey(ContentType)
object_id = models.PositiveIntegerField()
content_object = generic.GenericForeignKey()
class Meta:
ordering = ["tag"]
def __unicode__(self):
return self.tag
class Animal(models.Model):
common_name = models.CharField(maxlength=150)
latin_name = models.CharField(maxlength=150)
tags = generic.GenericRelation(TaggedItem)
def __unicode__(self):
return self.common_name
class Vegetable(models.Model):
name = models.CharField(maxlength=150)
is_yucky = models.BooleanField(default=True)
tags = generic.GenericRelation(TaggedItem)
def __unicode__(self):
return self.name
class Mineral(models.Model):
name = models.CharField(maxlength=150)
hardness = models.PositiveSmallIntegerField()
# note the lack of an explicit GenericRelation here...
def __unicode__(self):
return self.name
__test__ = {'API_TESTS':"""
# Create the world in 7 lines of code...
>>> lion = Animal(common_name="Lion", latin_name="Panthera leo")
>>> platypus = Animal(common_name="Platypus", latin_name="Ornithorhynchus anatinus")
>>> eggplant = Vegetable(name="Eggplant", is_yucky=True)
>>> bacon = Vegetable(name="Bacon", is_yucky=False)
>>> quartz = Mineral(name="Quartz", hardness=7)
>>> for o in (lion, platypus, eggplant, bacon, quartz):
... o.save()
# Objects with declared GenericRelations can be tagged directly -- the API
# mimics the many-to-many API.
>>> bacon.tags.create(tag="fatty")
<TaggedItem: fatty>
>>> bacon.tags.create(tag="salty")
<TaggedItem: salty>
>>> lion.tags.create(tag="yellow")
<TaggedItem: yellow>
>>> lion.tags.create(tag="hairy")
<TaggedItem: hairy>
>>> lion.tags.all()
[<TaggedItem: hairy>, <TaggedItem: yellow>]
>>> bacon.tags.all()
[<TaggedItem: fatty>, <TaggedItem: salty>]
# You can easily access the content object like a foreign key.
>>> t = TaggedItem.objects.get(tag="salty")
>>> t.content_object
<Vegetable: Bacon>
# Recall that the Mineral class doesn't have an explicit GenericRelation
# defined. That's OK, because you can create TaggedItems explicitly.
>>> tag1 = TaggedItem(content_object=quartz, tag="shiny")
>>> tag2 = TaggedItem(content_object=quartz, tag="clearish")
>>> tag1.save()
>>> tag2.save()
# However, excluding GenericRelations means your lookups have to be a bit more
# explicit.
>>> from django.contrib.contenttypes.models import ContentType
>>> ctype = ContentType.objects.get_for_model(quartz)
>>> TaggedItem.objects.filter(content_type__pk=ctype.id, object_id=quartz.id)
[<TaggedItem: clearish>, <TaggedItem: shiny>]
# You can set a generic foreign key in the way you'd expect.
>>> tag1.content_object = platypus
>>> tag1.save()
>>> platypus.tags.all()
[<TaggedItem: shiny>]
>>> TaggedItem.objects.filter(content_type__pk=ctype.id, object_id=quartz.id)
[<TaggedItem: clearish>]
# If you delete an object with an explicit Generic relation, the related
# objects are deleted when the source object is deleted.
# Original list of tags:
>>> [(t.tag, t.content_type, t.object_id) for t in TaggedItem.objects.all()]
[(u'clearish', <ContentType: mineral>, 1), (u'fatty', <ContentType: vegetable>, 2), (u'hairy', <ContentType: animal>, 1), (u'salty', <ContentType: vegetable>, 2), (u'shiny', <ContentType: animal>, 2), (u'yellow', <ContentType: animal>, 1)]
>>> lion.delete()
>>> [(t.tag, t.content_type, t.object_id) for t in TaggedItem.objects.all()]
[(u'clearish', <ContentType: mineral>, 1), (u'fatty', <ContentType: vegetable>, 2), (u'salty', <ContentType: vegetable>, 2), (u'shiny', <ContentType: animal>, 2)]
# If Generic Relation is not explicitly defined, any related objects
# remain after deletion of the source object.
>>> quartz.delete()
>>> [(t.tag, t.content_type, t.object_id) for t in TaggedItem.objects.all()]
[(u'clearish', <ContentType: mineral>, 1), (u'fatty', <ContentType: vegetable>, 2), (u'salty', <ContentType: vegetable>, 2), (u'shiny', <ContentType: animal>, 2)]
# If you delete a tag, the objects using the tag are unaffected
# (other than losing a tag)
>>> tag = TaggedItem.objects.get(id=1)
>>> tag.delete()
>>> bacon.tags.all()
[<TaggedItem: salty>]
>>> [(t.tag, t.content_type, t.object_id) for t in TaggedItem.objects.all()]
[(u'clearish', <ContentType: mineral>, 1), (u'salty', <ContentType: vegetable>, 2), (u'shiny', <ContentType: animal>, 2)]
"""}