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Conflicts: docs/ref/django-admin.txt
496 lines
18 KiB
Plaintext
496 lines
18 KiB
Plaintext
==========================
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Serializing Django objects
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==========================
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Django's serialization framework provides a mechanism for "translating" Django
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models into other formats. Usually these other formats will be text-based and
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used for sending Django data over a wire, but it's possible for a
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serializer to handle any format (text-based or not).
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.. seealso::
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If you just want to get some data from your tables into a serialized
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form, you could use the :djadmin:`dumpdata` management command.
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Serializing data
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----------------
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At the highest level, serializing data is a very simple operation::
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from django.core import serializers
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data = serializers.serialize("xml", SomeModel.objects.all())
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The arguments to the ``serialize`` function are the format to serialize the data
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to (see `Serialization formats`_) and a
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:class:`~django.db.models.query.QuerySet` to serialize. (Actually, the second
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argument can be any iterator that yields Django model instances, but it'll
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almost always be a QuerySet).
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.. function:: django.core.serializers.get_serializer(format)
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You can also use a serializer object directly::
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XMLSerializer = serializers.get_serializer("xml")
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xml_serializer = XMLSerializer()
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xml_serializer.serialize(queryset)
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data = xml_serializer.getvalue()
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This is useful if you want to serialize data directly to a file-like object
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(which includes an :class:`~django.http.HttpResponse`)::
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with open("file.xml", "w") as out:
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xml_serializer.serialize(SomeModel.objects.all(), stream=out)
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.. note::
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Calling :func:`~django.core.serializers.get_serializer` with an unknown
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:ref:`format <serialization-formats>` will raise a
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``django.core.serializers.SerializerDoesNotExist`` exception.
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Subset of fields
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~~~~~~~~~~~~~~~~
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If you only want a subset of fields to be serialized, you can
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specify a ``fields`` argument to the serializer::
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from django.core import serializers
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data = serializers.serialize('xml', SomeModel.objects.all(), fields=('name','size'))
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In this example, only the ``name`` and ``size`` attributes of each model will
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be serialized.
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.. note::
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Depending on your model, you may find that it is not possible to
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deserialize a model that only serializes a subset of its fields. If a
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serialized object doesn't specify all the fields that are required by a
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model, the deserializer will not be able to save deserialized instances.
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Inherited Models
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~~~~~~~~~~~~~~~~
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If you have a model that is defined using an :ref:`abstract base class
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<abstract-base-classes>`, you don't have to do anything special to serialize
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that model. Just call the serializer on the object (or objects) that you want to
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serialize, and the output will be a complete representation of the serialized
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object.
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However, if you have a model that uses :ref:`multi-table inheritance
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<multi-table-inheritance>`, you also need to serialize all of the base classes
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for the model. This is because only the fields that are locally defined on the
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model will be serialized. For example, consider the following models::
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class Place(models.Model):
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name = models.CharField(max_length=50)
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class Restaurant(Place):
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serves_hot_dogs = models.BooleanField()
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If you only serialize the Restaurant model::
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data = serializers.serialize('xml', Restaurant.objects.all())
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the fields on the serialized output will only contain the ``serves_hot_dogs``
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attribute. The ``name`` attribute of the base class will be ignored.
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In order to fully serialize your ``Restaurant`` instances, you will need to
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serialize the ``Place`` models as well::
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all_objects = list(Restaurant.objects.all()) + list(Place.objects.all())
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data = serializers.serialize('xml', all_objects)
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Deserializing data
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------------------
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Deserializing data is also a fairly simple operation::
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for obj in serializers.deserialize("xml", data):
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do_something_with(obj)
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As you can see, the ``deserialize`` function takes the same format argument as
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``serialize``, a string or stream of data, and returns an iterator.
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However, here it gets slightly complicated. The objects returned by the
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``deserialize`` iterator *aren't* simple Django objects. Instead, they are
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special ``DeserializedObject`` instances that wrap a created -- but unsaved --
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object and any associated relationship data.
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Calling ``DeserializedObject.save()`` saves the object to the database.
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.. note::
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If the ``pk`` attribute in the serialized data doesn't exist or is
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null, a new instance will be saved to the database.
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.. versionchanged:: 1.6
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In previous versions of Django, the ``pk`` attribute had to be present
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on the serialized data or a ``DeserializationError`` would be raised.
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This ensures that deserializing is a non-destructive operation even if the
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data in your serialized representation doesn't match what's currently in the
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database. Usually, working with these ``DeserializedObject`` instances looks
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something like::
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for deserialized_object in serializers.deserialize("xml", data):
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if object_should_be_saved(deserialized_object):
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deserialized_object.save()
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In other words, the usual use is to examine the deserialized objects to make
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sure that they are "appropriate" for saving before doing so. Of course, if you
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trust your data source you could just save the object and move on.
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The Django object itself can be inspected as ``deserialized_object.object``.
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If fields in the serialized data do not exist on a model, a
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``DeserializationError`` will be raised unless the ``ignorenonexistent``
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argument is passed in as ``True``::
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serializers.deserialize("xml", data, ignorenonexistent=True)
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.. _serialization-formats:
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Serialization formats
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---------------------
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Django supports a number of serialization formats, some of which require you
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to install third-party Python modules:
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========== ==============================================================
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Identifier Information
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========== ==============================================================
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``xml`` Serializes to and from a simple XML dialect.
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``json`` Serializes to and from JSON_.
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``yaml`` Serializes to YAML (YAML Ain't a Markup Language). This
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serializer is only available if PyYAML_ is installed.
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========== ==============================================================
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.. _json: http://json.org/
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.. _PyYAML: http://www.pyyaml.org/
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XML
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~~~
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The basic XML serialization format is quite simple::
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<?xml version="1.0" encoding="utf-8"?>
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<django-objects version="1.0">
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<object pk="123" model="sessions.session">
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<field type="DateTimeField" name="expire_date">2013-01-16T08:16:59.844560+00:00</field>
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<!-- ... -->
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</object>
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</django-objects>
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The whole collection of objects that is either serialized or de-serialized is
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represented by a ``<django-objects>``-tag which contains multiple
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``<object>``-elements. Each such object has two attributes: "pk" and "model",
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the latter being represented by the name of the app ("sessions") and the
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lowercase name of the model ("session") separated by a dot.
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Each field of the object is serialized as a ``<field>``-element sporting the
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fields "type" and "name". The text content of the element represents the value
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that should be stored.
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Foreign keys and other relational fields are treated a little bit differently::
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<object pk="27" model="auth.permission">
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<!-- ... -->
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<field to="contenttypes.contenttype" name="content_type" rel="ManyToOneRel">9</field>
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<!-- ... -->
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</object>
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In this example we specify that the auth.Permission object with the PK 27 has
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a foreign key to the contenttypes.ContentType instance with the PK 9.
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ManyToMany-relations are exported for the model that binds them. For instance,
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the auth.User model has such a relation to the auth.Permission model::
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<object pk="1" model="auth.user">
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<!-- ... -->
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<field to="auth.permission" name="user_permissions" rel="ManyToManyRel">
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<object pk="46"></object>
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<object pk="47"></object>
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</field>
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</object>
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This example links the given user with the permission models with PKs 46 and 47.
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JSON
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~~~~
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When staying with the same example data as before it would be serialized as
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JSON in the following way::
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[
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{
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"pk": "4b678b301dfd8a4e0dad910de3ae245b",
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"model": "sessions.session",
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"fields": {
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"expire_date": "2013-01-16T08:16:59.844Z",
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...
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}
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}
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]
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The formatting here is a bit simpler than with XML. The whole collection
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is just represented as an array and the objects are represented by JSON objects
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with three properties: "pk", "model" and "fields". "fields" is again an object
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containing each field's name and value as property and property-value
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respectively.
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Foreign keys just have the PK of the linked object as property value.
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ManyToMany-relations are serialized for the model that defines them and are
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represented as a list of PKs.
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Date and datetime related types are treated in a special way by the JSON
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serializer to make the format compatible with `ECMA-262`_.
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Be aware that not all Django output can be passed unmodified to :mod:`json`.
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In particular, :ref:`lazy translation objects <lazy-translations>` need a
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`special encoder`_ written for them. Something like this will work::
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import json
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from django.utils.functional import Promise
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from django.utils.encoding import force_text
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from django.core.serializers.json import DjangoJSONEncoder
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class LazyEncoder(DjangoJSONEncoder):
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def default(self, obj):
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if isinstance(obj, Promise):
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return force_text(obj)
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return super(LazyEncoder, self).default(obj)
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.. _special encoder: http://docs.python.org/library/json.html#encoders-and-decoders
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.. _ecma-262: http://www.ecma-international.org/ecma-262/5.1/#sec-15.9.1.15
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YAML
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~~~~
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YAML serialization looks quite similar to JSON. The object list is serialized
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as a sequence mappings with the keys "pk", "model" and "fields". Each field is
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again a mapping with the key being name of the field and the value the value::
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- fields: {expire_date: !!timestamp '2013-01-16 08:16:59.844560+00:00'}
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model: sessions.session
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pk: 4b678b301dfd8a4e0dad910de3ae245b
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Referential fields are again just represented by the PK or sequence of PKs.
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.. _topics-serialization-natural-keys:
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Natural keys
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------------
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The default serialization strategy for foreign keys and many-to-many relations
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is to serialize the value of the primary key(s) of the objects in the relation.
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This strategy works well for most objects, but it can cause difficulty in some
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circumstances.
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Consider the case of a list of objects that have a foreign key referencing
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:class:`~django.contrib.contenttypes.models.ContentType`. If you're going to
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serialize an object that refers to a content type, then you need to have a way
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to refer to that content type to begin with. Since ``ContentType`` objects are
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automatically created by Django during the database synchronization process,
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the primary key of a given content type isn't easy to predict; it will
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depend on how and when :djadmin:`migrate` was executed. This is true for all
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models which automatically generate objects, notably including
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:class:`~django.contrib.auth.models.Permission`,
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:class:`~django.contrib.auth.models.Group`, and
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:class:`~django.contrib.auth.models.User`.
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.. warning::
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You should never include automatically generated objects in a fixture or
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other serialized data. By chance, the primary keys in the fixture
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may match those in the database and loading the fixture will
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have no effect. In the more likely case that they don't match, the fixture
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loading will fail with an :class:`~django.db.IntegrityError`.
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There is also the matter of convenience. An integer id isn't always
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the most convenient way to refer to an object; sometimes, a
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more natural reference would be helpful.
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It is for these reasons that Django provides *natural keys*. A natural
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key is a tuple of values that can be used to uniquely identify an
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object instance without using the primary key value.
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Deserialization of natural keys
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Consider the following two models::
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from django.db import models
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class Person(models.Model):
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first_name = models.CharField(max_length=100)
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last_name = models.CharField(max_length=100)
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birthdate = models.DateField()
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class Meta:
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unique_together = (('first_name', 'last_name'),)
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class Book(models.Model):
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name = models.CharField(max_length=100)
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author = models.ForeignKey(Person)
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Ordinarily, serialized data for ``Book`` would use an integer to refer to
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the author. For example, in JSON, a Book might be serialized as::
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...
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{
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"pk": 1,
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"model": "store.book",
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"fields": {
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"name": "Mostly Harmless",
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"author": 42
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}
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}
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...
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This isn't a particularly natural way to refer to an author. It
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requires that you know the primary key value for the author; it also
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requires that this primary key value is stable and predictable.
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However, if we add natural key handling to Person, the fixture becomes
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much more humane. To add natural key handling, you define a default
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Manager for Person with a ``get_by_natural_key()`` method. In the case
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of a Person, a good natural key might be the pair of first and last
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name::
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from django.db import models
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class PersonManager(models.Manager):
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def get_by_natural_key(self, first_name, last_name):
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return self.get(first_name=first_name, last_name=last_name)
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class Person(models.Model):
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objects = PersonManager()
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first_name = models.CharField(max_length=100)
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last_name = models.CharField(max_length=100)
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birthdate = models.DateField()
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class Meta:
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unique_together = (('first_name', 'last_name'),)
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Now books can use that natural key to refer to ``Person`` objects::
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...
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{
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"pk": 1,
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"model": "store.book",
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"fields": {
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"name": "Mostly Harmless",
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"author": ["Douglas", "Adams"]
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}
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}
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...
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When you try to load this serialized data, Django will use the
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``get_by_natural_key()`` method to resolve ``["Douglas", "Adams"]``
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into the primary key of an actual ``Person`` object.
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.. note::
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Whatever fields you use for a natural key must be able to uniquely
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identify an object. This will usually mean that your model will
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have a uniqueness clause (either unique=True on a single field, or
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``unique_together`` over multiple fields) for the field or fields
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in your natural key. However, uniqueness doesn't need to be
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enforced at the database level. If you are certain that a set of
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fields will be effectively unique, you can still use those fields
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as a natural key.
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Serialization of natural keys
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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So how do you get Django to emit a natural key when serializing an object?
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Firstly, you need to add another method -- this time to the model itself::
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class Person(models.Model):
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objects = PersonManager()
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first_name = models.CharField(max_length=100)
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last_name = models.CharField(max_length=100)
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birthdate = models.DateField()
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def natural_key(self):
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return (self.first_name, self.last_name)
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class Meta:
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unique_together = (('first_name', 'last_name'),)
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That method should always return a natural key tuple -- in this
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example, ``(first name, last name)``. Then, when you call
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``serializers.serialize()``, you provide a ``use_natural_keys=True``
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argument::
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>>> serializers.serialize('json', [book1, book2], indent=2, use_natural_keys=True)
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When ``use_natural_keys=True`` is specified, Django will use the
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``natural_key()`` method to serialize any reference to objects of the
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type that defines the method.
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If you are using :djadmin:`dumpdata` to generate serialized data, you
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use the :djadminopt:`--natural` command line flag to generate natural keys.
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.. note::
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You don't need to define both ``natural_key()`` and
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``get_by_natural_key()``. If you don't want Django to output
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natural keys during serialization, but you want to retain the
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ability to load natural keys, then you can opt to not implement
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the ``natural_key()`` method.
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Conversely, if (for some strange reason) you want Django to output
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natural keys during serialization, but *not* be able to load those
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key values, just don't define the ``get_by_natural_key()`` method.
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Dependencies during serialization
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Since natural keys rely on database lookups to resolve references, it
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is important that the data exists before it is referenced. You can't make
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a "forward reference" with natural keys -- the data you're referencing
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must exist before you include a natural key reference to that data.
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To accommodate this limitation, calls to :djadmin:`dumpdata` that use
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the :djadminopt:`--natural` option will serialize any model with a
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``natural_key()`` method before serializing standard primary key objects.
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However, this may not always be enough. If your natural key refers to
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another object (by using a foreign key or natural key to another object
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as part of a natural key), then you need to be able to ensure that
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the objects on which a natural key depends occur in the serialized data
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before the natural key requires them.
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To control this ordering, you can define dependencies on your
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``natural_key()`` methods. You do this by setting a ``dependencies``
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attribute on the ``natural_key()`` method itself.
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For example, let's add a natural key to the ``Book`` model from the
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example above::
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class Book(models.Model):
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name = models.CharField(max_length=100)
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author = models.ForeignKey(Person)
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def natural_key(self):
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return (self.name,) + self.author.natural_key()
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The natural key for a ``Book`` is a combination of its name and its
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author. This means that ``Person`` must be serialized before ``Book``.
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To define this dependency, we add one extra line::
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def natural_key(self):
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return (self.name,) + self.author.natural_key()
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natural_key.dependencies = ['example_app.person']
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This definition ensures that all ``Person`` objects are serialized before
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any ``Book`` objects. In turn, any object referencing ``Book`` will be
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serialized after both ``Person`` and ``Book`` have been serialized.
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