Django JSONField with Pydantic models as a Schema.
Now supports both Pydantic v1 and v2! Please join the discussion if you have any thoughts or suggestions!
Install the package with pip install django-pydantic-field
.
import pydantic
from datetime import date
from uuid import UUID
from django.db import models
from django_pydantic_field import SchemaField
class Foo(pydantic.BaseModel):
count: int
size: float = 1.0
class Bar(pydantic.BaseModel):
slug: str = "foo_bar"
class MyModel(models.Model):
# Infer schema from field annotation
foo_field: Foo = SchemaField()
# or explicitly pass schema to the field
bar_list: typing.Sequence[Bar] = SchemaField(schema=list[Bar])
# Pydantic exportable types are supported
raw_date_map: dict[int, date] = SchemaField()
raw_uids: set[UUID] = SchemaField()
...
model = MyModel(
foo_field={"count": "5"},
bar_list=[{}],
raw_date_map={1: "1970-01-01"},
raw_uids={"17a25db0-27a4-11ed-904a-5ffb17f92734"}
)
model.save()
assert model.foo_field == Foo(count=5, size=1.0)
assert model.bar_list == [Bar(slug="foo_bar")]
assert model.raw_date_map == {1: date(1970, 1, 1)}
assert model.raw_uids == {UUID("17a25db0-27a4-11ed-904a-5ffb17f92734")}
Practically, schema could be of any type supported by Pydantic.
In addition, an external config
class can be passed for such schemes.
It is also possible to use SchemaField
with forward references and string literals, e.g the code below is also valid:
class MyModel(models.Model):
foo_field: "Foo" = SchemaField()
bar_list: typing.Sequence["Bar"] = SchemaField(schema=typing.ForwardRef("list[Bar]"))
class Foo(pydantic.BaseModel):
count: int
size: float = 1.0
class Bar(pydantic.BaseModel):
slug: str = "foo_bar"
In this case, exact type resolution will be postponed until initial access to the field. Usually this happens on the first instantiation of the model.
It is possible to create Django forms, which would validate against the given schema:
from django import forms
from django_pydantic_field.forms import SchemaField
class Foo(pydantic.BaseModel):
slug: str = "foo_bar"
class FooForm(forms.Form):
field = SchemaField(Foo) # `typing.ForwardRef("Foo")` is fine too, but only in Django 4+
form = FooForm(data={"field": '{"slug": "asdf"}'})
assert form.is_valid()
assert form.cleaned_data["field"] == Foo(slug="asdf")
django_pydantic_field
also supports auto-generated fields for ModelForm
and modelform_factory
:
class FooModelForm(forms.ModelForm):
class Meta:
model = Foo
fields = ["field"]
form = FooModelForm(data={"field": '{"slug": "asdf"}'})
assert form.is_valid()
assert form.cleaned_data["field"] == Foo(slug="asdf")
...
# ModelForm factory support
AnotherFooModelForm = modelform_factory(Foo, fields=["field"])
form = AnotherFooModelForm(data={"field": '{"slug": "bar_baz"}'})
assert form.is_valid()
assert form.cleaned_data["field"] == Foo(slug="bar_baz")
Note, that forward references would be resolved until field is being bound to the form instance.
from rest_framework import generics, serializers
from django_pydantic_field.rest_framework import SchemaField, AutoSchema
class MyModelSerializer(serializers.ModelSerializer):
foo_field = SchemaField(schema=Foo)
class Meta:
model = MyModel
fields = '__all__'
class SampleView(generics.RetrieveAPIView):
serializer_class = MyModelSerializer
# optional support of OpenAPI schema generation for Pydantic fields
schema = AutoSchema()
Global approach with typed parser
and renderer
classes
from rest_framework import views
from rest_framework.decorators import api_view, parser_classes, renderer_classes
from django_pydantic_field.rest_framework import SchemaRenderer, SchemaParser, AutoSchema
@api_view(["POST"])
@parser_classes([SchemaParser[Foo]]):
@renderer_classes([SchemaRenderer[list[Foo]]])
def foo_view(request):
assert isinstance(request.data, Foo)
count = request.data.count + 1
return Response([Foo(count=count)])
class FooClassBasedView(views.APIView):
parser_classes = [SchemaParser[Foo]]
renderer_classes = [SchemaRenderer[list[Foo]]]
# optional support of OpenAPI schema generation for Pydantic parsers/renderers
schema = AutoSchema()
def get(self, request, *args, **kwargs):
assert isinstance(request.data, Foo)
return Response([request.data])
def put(self, request, *args, **kwargs):
assert isinstance(request.data, Foo)
count = request.data.count + 1
return Response([request.data])
- Churkin Oleg for his Gist as a source of inspiration;
- Boutique Air Flight Operations platform as a test ground;