Let's say I have a class something like the following:
class PostSerializer(serializers.HyperlinkedModelSerializer):
updated_at = serializers.DateTimeField()
def __init__(self, *args, **kwargs):
init = super().__init__(*args, **kwargs)
return init
I want to create a subclass of the PostSerializer class and I'd like to remove the updated_at constant property from the subclass-ed class.
class PostWithoutUpdatedAtSerializer(serializers.HyperlinkedModelSerializer):
# something to remove the updated_at property ?
def somefunc(self);
pass
I use a framework for example django so generally I cannot simply remove the property from the parent class, I need to subclass them. And of course obviously I need to "delete" the property, I cannot do updated_at = None, it's not a deleting.
How is it possible? Thanks.
It's not directly possible, since the attribute doesn't exist on your derived class at all (it does on the superclass), so there's nothing to remove or reassign.
Instead, the framework you're using (Django REST Framework, my magic ball tells me), uses a metaclass that inspects the class definition for field objects and puts them into cls._declared_fields on the class (along with any fields from the superclass(es)).
The real fields for your serializer instance are acquired by get_fields(), which by default just copies _declared_fields.
In other words, if your Django REST Framework serializer subclass should not serialize that field, customize get_fields():
def get_fields(self):
fields = super().get_fields()
fields.pop("updated_at", None) # remove field if it's there
return fields
I fetch the API like with this code
http://127.0.0.1:8000/api/mytexts/?genre=93
class MyTextSerializer(serializers.ModelSerializer):
class Meta:
model = MyText
fields = ('id','text','genre')
it returns id text genre successfully.
then now, I want to return the fetch value 93 or genre=93 in json.
So,I altered the code, but can't figure out yet..
class MyTextSerializer(serializers.ModelSerializer):
fetchBy = serializers.SerializerMethodField()
class Meta:
model = MyText
fields = ('id','text','genre','fetchBy)
def get_fetchBy: # error 'MyTextSerializer' object has no attribute 'get_fetchBy'
return ????
DRF's class based view pass request object to serializer with additional context by default. You can access this context using self.context syntax. So to fetch query param inside serializer you can do something like this:
class MyTextSerializer(serializers.ModelSerializer):
fetchBy = serializers.SerializerMethodField()
class Meta:
model = MyText
fields = ('id','text','genre','fetchBy')
def get_fetchBy(self, obj):
return self.context["request"].query_params.get("genre")
Not related to your actual question but one small remark about variable naming. Please note that according to PEP8 class's methods and attributes names should be lowercased and use _ as separator. For example: fetch_by and get_fetch_by.
The docs on using to_representation is somewhat short. This method is used by Django Rest Framework 3.0+ to change the representation of your data in an API.
Here' the documentation link:
http://www.django-rest-framework.org/api-guide/serializers/#overriding-serialization-and-deserialization-behavior
Here is my current code:
from django.forms.models import model_to_dict
class PersonListSerializer(serializers.ModelSerializer):
class Meta:
model = Person
fields = ('foo', 'bar',)
def to_representation(self, instance):
return model_to_dict(instance)
When I do this code, it returns all fields in the model instead of the fields that I have specified above in class Meta: fields.
Is it possible to reference the class Meta: fields within the to_representation method?
DRF's ModelSerializer already has all the logic to handle that. In your case you shouldn't even need to customize to_representation. If you need to customize it, I would recommend to first call super and then customize the output:
class PersonListSerializer(serializers.ModelSerializer):
class Meta:
model = Person
fields = ('foo', 'bar',)
def to_representation(self, instance):
data = super(PersonListSerializer, self).to_representation(instance)
data.update(...)
return data
P.S. if you are interested to know how it works, the magic actually does not happen in ModelSerializer.to_representation. As a matter of fact, it does not even implement that method. Its implemented on regular Serializer. All the magic with Django models actually happens in get_fields which calls get_field_names which then considers the Meta.fields parameters...
def to_representation(self, instance):
data = super(ResultLogSerializer, self).to_representation(instance)
data['username'] = instance.job_result.user.username
data['status'] = instance.job_result.status
data['created'] = instance.job_result.created
data['completed'] = instance.job_result.completed
return data
With Django REST Framework, a standard ModelSerializer will allow ForeignKey model relationships to be assigned or changed by POSTing an ID as an Integer.
What's the simplest way to get this behavior out of a nested serializer?
Note, I am only talking about assigning existing database objects, not nested creation.
I have hacked away around this in the past with additional 'id' fields in the serializer and with custom create and update methods, but this is such a seemingly simple and frequent issue for me that I'm curious to know the best way.
class Child(models.Model):
name = CharField(max_length=20)
class Parent(models.Model):
name = CharField(max_length=20)
phone_number = models.ForeignKey(PhoneNumber)
child = models.ForeignKey(Child)
class ChildSerializer(ModelSerializer):
class Meta:
model = Child
class ParentSerializer(ModelSerializer):
# phone_number relation is automatic and will accept ID integers
children = ChildSerializer() # this one will not
class Meta:
model = Parent
Updated on July 05 2020
This post is getting more attention and it indicates more people have a similar situation. So I decided to add a generic way to handle this problem. This generic way is best suitable for you if you have more serializers that need to change to this format
Since DRF doesn't provide this functionality out of the box, we need to create a serializer field first.
from rest_framework import serializers
class RelatedFieldAlternative(serializers.PrimaryKeyRelatedField):
def __init__(self, **kwargs):
self.serializer = kwargs.pop('serializer', None)
if self.serializer is not None and not issubclass(self.serializer, serializers.Serializer):
raise TypeError('"serializer" is not a valid serializer class')
super().__init__(**kwargs)
def use_pk_only_optimization(self):
return False if self.serializer else True
def to_representation(self, instance):
if self.serializer:
return self.serializer(instance, context=self.context).data
return super().to_representation(instance)
I am not well impressed with this class name, RelatedFieldAlternative, you can use anything you want.
Then use this new serializer field in your parent serializer as,
class ParentSerializer(ModelSerializer):
child = RelatedFieldAlternative(queryset=Child.objects.all(), serializer=ChildSerializer)
class Meta:
model = Parent
fields = '__all__'
Original Post
Using two different fields would be ok (as #Kevin Brown and #joslarson mentioned), but I think it's not perfect (to me). Because getting data from one key (child) and sending data to another key (child_id) might be a little bit ambiguous for front-end developers. (no offense at all)
So, what I suggest here is, override the to_representation() method of ParentSerializer will do the job.
def to_representation(self, instance):
response = super().to_representation(instance)
response['child'] = ChildSerializer(instance.child).data
return response
Complete representation of Serializer
class ChildSerializer(ModelSerializer):
class Meta:
model = Child
fields = '__all__'
class ParentSerializer(ModelSerializer):
class Meta:
model = Parent
fields = '__all__'
def to_representation(self, instance):
response = super().to_representation(instance)
response['child'] = ChildSerializer(instance.child).data
return response
Advantage of this method?
By using this method, we don't need two separate fields for creation and reading. Here both creation and reading can be done by using child key.
Sample payload to create parent instance
{
"name": "TestPOSTMAN_name",
"phone_number": 1,
"child": 1
}
Screenshot
The best solution here is to use two different fields: one for reading and the other for writing. Without doing some heavy lifting, it is difficult to get what you are looking for in a single field.
The read-only field would be your nested serializer (ChildSerializer in this case) and it will allow you to get the same nested representation that you are expecting. Most people define this as just child, because they already have their front-end written by this point and changing it would cause problems.
The write-only field would be a PrimaryKeyRelatedField, which is what you would typically use for assigning objects based on their primary key. This does not have to be write-only, especially if you are trying to go for symmetry between what is received and what is sent, but it sounds like that might suit you best. This field should have a source set to the foreign key field (child in this example) so it assigns it properly on creation and updating.
This has been brought up on the discussion group a few times, and I think this is still the best solution. Thanks to Sven Maurer for pointing it out.
Here's an example of what Kevin's answer is talking about, if you want to take that approach and use 2 separate fields.
In your models.py...
class Child(models.Model):
name = CharField(max_length=20)
class Parent(models.Model):
name = CharField(max_length=20)
phone_number = models.ForeignKey(PhoneNumber)
child = models.ForeignKey(Child)
then serializers.py...
class ChildSerializer(ModelSerializer):
class Meta:
model = Child
class ParentSerializer(ModelSerializer):
# if child is required
child = ChildSerializer(read_only=True)
# if child is a required field and you want write to child properties through parent
# child = ChildSerializer(required=False)
# otherwise the following should work (untested)
# child = ChildSerializer()
child_id = serializers.PrimaryKeyRelatedField(
queryset=Child.objects.all(), source='child', write_only=True)
class Meta:
model = Parent
Setting source=child lets child_id act as child would by default had it not be overridden (our desired behavior). write_only=True makes child_id available to write to, but keeps it from showing up in the response since the id already shows up in the ChildSerializer.
There is a way to substitute a field on create/update operation:
class ChildSerializer(ModelSerializer):
class Meta:
model = Child
class ParentSerializer(ModelSerializer):
child = ChildSerializer()
# called on create/update operations
def to_internal_value(self, data):
self.fields['child'] = serializers.PrimaryKeyRelatedField(
queryset=Child.objects.all())
return super(ParentSerializer, self).to_internal_value(data)
class Meta:
model = Parent
A few people here have placed a way to keep one field but still be able to get the details when retrieving the object and create it with only the ID. I made a little more generic implementation if people are interested:
First off the tests:
from rest_framework.relations import PrimaryKeyRelatedField
from django.test import TestCase
from .serializers import ModelRepresentationPrimaryKeyRelatedField, ProductSerializer
from .factories import SomethingElseFactory
from .models import SomethingElse
class TestModelRepresentationPrimaryKeyRelatedField(TestCase):
def setUp(self):
self.serializer = ModelRepresentationPrimaryKeyRelatedField(
model_serializer_class=SomethingElseSerializer,
queryset=SomethingElse.objects.all(),
)
def test_inherits_from_primary_key_related_field(self):
assert issubclass(ModelRepresentationPrimaryKeyRelatedField, PrimaryKeyRelatedField)
def test_use_pk_only_optimization_returns_false(self):
self.assertFalse(self.serializer.use_pk_only_optimization())
def test_to_representation_returns_serialized_object(self):
obj = SomethingElseFactory()
ret = self.serializer.to_representation(obj)
self.assertEqual(ret, SomethingElseSerializer(instance=obj).data)
Then the class itself:
from rest_framework.relations import PrimaryKeyRelatedField
class ModelRepresentationPrimaryKeyRelatedField(PrimaryKeyRelatedField):
def __init__(self, **kwargs):
self.model_serializer_class = kwargs.pop('model_serializer_class')
super().__init__(**kwargs)
def use_pk_only_optimization(self):
return False
def to_representation(self, value):
return self.model_serializer_class(instance=value).data
The usage is like so, if you have a serializer somewhere:
class YourSerializer(ModelSerializer):
something_else = ModelRepresentationPrimaryKeyRelatedField(queryset=SomethingElse.objects.all(), model_serializer_class=SomethingElseSerializer)
This will allow you to create an object with a foreign key still only with the PK, but will return the full serialized nested model when retrieving the object you created (or whenever really).
There is a package for that! Check out PresentablePrimaryKeyRelatedField in Drf Extra Fields package.
https://github.com/Hipo/drf-extra-fields
I think the approach outlined by Kevin probably would be the best solution, but I couldn't ever get it to work. DRF kept throwing errors when I had both a nested serializer and a primary key field set. Removing one or the other would function, but obviously didn't give me the result I needed. The best I could come up with is creating two different serializers for reading and writing, Like so...
serializers.py:
class ChildSerializer(serializers.ModelSerializer):
class Meta:
model = Child
class ParentSerializer(serializers.ModelSerializer):
class Meta:
abstract = True
model = Parent
fields = ('id', 'child', 'foo', 'bar', 'etc')
class ParentReadSerializer(ParentSerializer):
child = ChildSerializer()
views.py
class ParentViewSet(viewsets.ModelViewSet):
serializer_class = ParentSerializer
queryset = Parent.objects.all()
def get_serializer_class(self):
if self.request.method == 'GET':
return ParentReadSerializer
else:
return self.serializer_class
Here's how I've solved this problem.
serializers.py
class ChildSerializer(ModelSerializer):
def to_internal_value(self, data):
if data.get('id'):
return get_object_or_404(Child.objects.all(), pk=data.get('id'))
return super(ChildSerializer, self).to_internal_value(data)
You'll just pass your nested child serializer just as you get it from the serializer ie child as a json/dictionary. in to_internal_value we instantiate the child object if it has a valid ID so that DRF can further work with the object.
I started by implementing something similar to JPG's solution before I found this answer, and noticed that it breaks the built-in Django Rest Framework's templates. Now, that isn't such a big deal (as their solution works wonderfully via requests/postman/AJAX/curl/etc.), but if someone's new (like me) and wants the built-in DRF form to help them along the way, here's my solution (after cleaning it up and integrating some of JPG's ideas):
class NestedKeyField(serializers.PrimaryKeyRelatedField):
def __init__(self, **kwargs):
self.serializer = kwargs.pop('serializer', None)
if self.serializer is not None and not issubclass(self.serializer, serializers.Serializer):
raise TypeError('You need to pass a instance of serialzers.Serializer or atleast something that inherits from it.')
super().__init__(**kwargs)
def use_pk_only_optimization(self):
return not self.serializer
def to_representation(self, value):
if self.serializer:
return dict(self.serializer(value, context=self.context).data)
else:
return super().to_representation(value)
def get_choices(self, cutoff=None):
queryset = self.get_queryset()
if queryset is None:
return {}
if cutoff is not None:
queryset = queryset[:cutoff]
return OrderedDict([
(
self.to_representation(item)['id'] if self.serializer else self.to_representation(item), # If you end up using another column-name for your primary key, you'll have to change this extraction-key here so it maps the select-element properly.
self.display_value(item)
)
for item in queryset
])
and an example below,
Child Serializer class:
class ChildSerializer(serializers.ModelSerializer):
class Meta:
model = ChildModel
fields = '__all__'
Parent Serializer Class:
class ParentSerializer(serializers.ModelSerializer):
same_field_name_as_model_foreign_key = NestedKeyField(queryset=ChildModel.objects.all(), serializer=ChildSerializer)
class Meta:
model = ParentModel
fields = '__all__'
Based on the answers of both JPG and Bono, I came up with a solution that handles the OpenAPI Schema generator of DRF as well.
The actual field class is:
from rest_framework import serializers
class ModelRepresentationPrimaryKeyRelatedField(serializers.PrimaryKeyRelatedField):
def __init__(self, **kwargs):
self.response_serializer_class = kwargs.pop('response_serializer_class', None)
if self.response_serializer_class is not None \
and not issubclass(self.response_serializer_class, serializers.Serializer):
raise TypeError('"serializer" is not a valid serializer class')
super(ModelRepresentationPrimaryKeyRelatedField, self).__init__(**kwargs)
def use_pk_only_optimization(self):
return False if self.response_serializer_class else True
def to_representation(self, instance):
if self.response_serializer_class is not None:
return self.response_serializer_class(instance, context=self.context).data
return super(ModelRepresentationPrimaryKeyRelatedField, self).to_representation(instance)
The extended AutoSchema class is:
import inspect
from rest_framework.schemas.openapi import AutoSchema
from .fields import ModelRepresentationPrimaryKeyRelatedField
class CustomSchema(AutoSchema):
def _map_field(self, field):
if isinstance(field, ModelRepresentationPrimaryKeyRelatedField) \
and hasattr(field, 'response_serializer_class'):
frame = inspect.currentframe().f_back
while frame is not None:
method_name = frame.f_code.co_name
if method_name == '_get_request_body':
break
elif method_name == '_get_responses':
field = field.response_serializer_class()
return super(CustomSchema, self)._map_field(field)
frame = frame.f_back
return super(CustomSchema, self)._map_field(field)
Then on your Dganjo's project settings you can define this new Schema class to be used globally like:
REST_FRAMEWORK = {
'DEFAULT_SCHEMA_CLASS': '<path_to_custom_schema>.CustomSchema',
}
Lastly from within your models you can use the new field type like:
class ExampleSerializer(serializers.ModelSerializer):
test_field = ModelRepresentationPrimaryKeyRelatedField(queryset=Test.objects.all(), response_serializer_class=TestListSerializer)
I have been also stuck in the same situation. But what i have done that i have created two serializers for the following models as follow:
class Base_Location(models.Model):
Base_Location_id = models.AutoField(primary_key = True)
Base_Location_Name = models.CharField(max_length=50, db_column="Base_Location_Name")
class Location(models.Model):
Location_id = models.AutoField(primary_key = True)
Location_Name = models.CharField(max_length=50, db_column="Location_Name")
Base_Location_id = models.ForeignKey(Base_Location, db_column="Base_Location_id", related_name="Location_Base_Location", on_delete=models.CASCADE)
This is my parent serializer
class BaseLocationSerializer(serializers.ModelSerializer):
class Meta:
model = Base_Location
fields = "__all__"
I'm using this serializer only for get request so in response i got data with foreign key also because of nested serializer
class LocationSerializerList(serializers.ModelSerializer): <-- using for get request
Base_Location_id = BaseLocationSerializer()
class Meta:
model = Location
fields = "__all__"
Screenshot of get method request and response in postman
I'm using this serializer only for post request so while sending post request i do not need to include any additional information rather than primary key field value
class LocationSerializerInsert(serializers.ModelSerializer): <-- using for post request
class Meta:
model = Location
fields = "__all__"
Screenshot of post method request and response in postman
Here's what I'm using all over. This may be the simplest, most straight forward method which needs no hacks etc, and is directly using DRF without jumping thru hoops. Happy to hear disagreements with this approach.
In the view's perform_create (or equivalent), fetch the FK model database object corresponding to the field sent in the POST request, and then send that into the Serializer. The field in the POST request can be anything that can be used to filter and locate the DB object, need not be an ID.
This is documented here: https://www.django-rest-framework.org/api-guide/generic-views/#genericapiview
These hooks are particularly useful for setting attributes that are
implicit in the request, but are not part of the request data. For
instance, you might set an attribute on the object based on the
request user, or based on a URL keyword argument.
def perform_create(self, serializer):
serializer.save(user=self.request.user)
This method also has the advantage of maintaining parity between the read and write side, by not sending a nested representation for child in the response to the GET or POST.
Given the example posted by the OP:
class Child(models.Model):
name = CharField(max_length=20)
class Parent(models.Model):
name = CharField(max_length=20)
phone_number = models.ForeignKey(PhoneNumber)
child = models.ForeignKey(Child)
class ChildSerializer(ModelSerializer):
class Meta:
model = Child
class ParentSerializer(ModelSerializer):
# Note this is different from the OP's example. This will send the
# child name in the response
child = serializers.ReadOnlyField(source='child.name')
class Meta:
model = Parent
fields = ('name', 'phone_number', 'child')
In the View's perform_create:
class SomethingView(generics.ListCreateAPIView):
serializer_class = ParentSerializer
def perform_create(self, serializer):
child_name = self.request.data.get('child_name', None)
child_obj = get_object_or_404(Child.objects, name=child_name)
serializer.save(child=child_obj)
PS: Please note that I've not tested this above snippet, however its based on a pattern I'm using in many places so it should work as is.
When fields need to be filled programmatically in Django Rest Framework, the pre_save method may be overridden in the APIView, and the needed fields can be populated there, like:
def pre_save(self, obj):
obj.owner = self.request.user
This works great for flat objects, but in case of nested situations, the nested object cannot be accessed in the pre_save method. The only solution I found so far is to override the save_object method, and check if the object is an instance of the nested class, and if so, populate that field there. Although this works, I don't like the solution, and would like to know if anyone found a better way?
Demonstrating the situation:
class Notebook(models.Model):
owner = models.ForeignKey(User)
class Note(models.Model):
owner = models.ForeignKey(User)
notebook = models.ForeignKey(Notebook)
note = models.TextField()
class NoteSerializer(serializers.ModelSerializer):
owner = serializers.Field(source='owner.username')
class Meta:
model = Note
fields = ('note', 'owner')
class NotebookSerializer(serializers.ModelSerializer):
notes = NoteSerializer(many=True)
owner = serializers.Field(source='owner.username')
class Meta:
model = Notebook
fields = ('notes', 'owner')
def save_object(self, obj, **kwargs):
if isinstance(obj, Note):
obj.owner = obj.notebook.owner
return super(NotebookSerializer, self).save_object(obj, **kwargs)
class NotebookCreateAPIView(CreateAPIView):
model = Notebook
permission_classes = (IsAuthenticated,)
serializer_class = NotebookSerializer
def pre_save(self, obj):
obj.owner = self.request.user
Before asking why don't I use different endpoints for creating notebooks and notes separately, let me say that I do that, but I also need a functionality to provide initial notes on creation of the notebook, so that's why I need this kind of endpoint as well.
Also, before I figured out this hackish solution, I actually expected that I will have to override the save_object method of the NoteSerializer class itself, but it turned out in case of nested objects, it won't even be called, only the root object's save_objects method, for all the nested objects, but I guess it was a design decision.
So once again, is this solvable in a more idiomatic way?
You can access the request in your serializer context.
So my approach to this would be:
class NoteSerializer(serializers.ModelSerializer):
owner = serializers.Field(source='owner.username')
def restore_object(self, attrs, instance=None):
instance = super(NoteSerializer, self).restore_object(attrs, instance)
instance.owner = self.context['request'].user
return instance
class Meta:
model = Note
fields = ('note', 'owner')
And the same on the NotebookSerializer.
The Serializer context will be made available to all used serializers in the ViewSet.