Mutations ========= Introduction ------------ Graphene-Django makes it easy to perform mutations. With Graphene-Django we can take advantage of pre-existing Django features to quickly build CRUD functionality, while still using the core `graphene mutation `__ features to add custom mutations to a Django project. Simple example -------------- .. code:: python import graphene from graphene_django import DjangoObjectType from .models import Question class QuestionType(DjangoObjectType): class Meta: model = Question class QuestionMutation(graphene.Mutation): class Arguments: # The input arguments for this mutation text = graphene.String(required=True) id = graphene.ID() # The class attributes define the response of the mutation question = graphene.Field(QuestionType) def mutate(self, info, text, id): question = Question.objects.get(pk=id) question.text = text question.save() # Notice we return an instance of this mutation return QuestionMutation(question=question) class Mutation: update_question = QuestionMutation.Field() Django Forms ------------ Graphene-Django comes with mutation classes that will convert the fields on Django forms into inputs on a mutation. DjangoFormMutation ~~~~~~~~~~~~~~~~~~ .. code:: python from graphene_django.forms.mutation import DjangoFormMutation class MyForm(forms.Form): name = forms.CharField() class MyMutation(DjangoFormMutation): class Meta: form_class = MyForm ``MyMutation`` will automatically receive an ``input`` argument. This argument should be a ``dict`` where the key is ``name`` and the value is a string. DjangoModelFormMutation ~~~~~~~~~~~~~~~~~~~~~~~ ``DjangoModelFormMutation`` will pull the fields from a ``ModelForm``. .. code:: python from graphene_django.forms.mutation import DjangoModelFormMutation class Pet(models.Model): name = models.CharField() class PetForm(forms.ModelForm): class Meta: model = Pet fields = ('name',) # This will get returned when the mutation completes successfully class PetType(DjangoObjectType): class Meta: model = Pet class PetMutation(DjangoModelFormMutation): pet = Field(PetType) class Meta: form_class = PetForm ``PetMutation`` will grab the fields from ``PetForm`` and turn them into inputs. If the form is valid then the mutation will lookup the ``DjangoObjectType`` for the ``Pet`` model and return that under the key ``pet``. Otherwise it will return a list of errors. You can change the input name (default is ``input``) and the return field name (default is the model name lowercase). .. code:: python class PetMutation(DjangoModelFormMutation): class Meta: form_class = PetForm input_field_name = 'data' return_field_name = 'my_pet' Form validation ~~~~~~~~~~~~~~~ Form mutations will call ``is_valid()`` on your forms. If the form is valid then the class method ``perform_mutate(form, info)`` is called on the mutation. Override this method to change how the form is saved or to return a different Graphene object type. If the form is *not* valid then a list of errors will be returned. These errors have two fields: ``field``, a string containing the name of the invalid form field, and ``messages``, a list of strings with the validation messages. Django REST Framework --------------------- You can re-use your Django Rest Framework serializer with Graphene Django mutations. You can create a Mutation based on a serializer by using the `SerializerMutation` base class: .. code:: python from graphene_django.rest_framework.mutation import SerializerMutation class MyAwesomeMutation(SerializerMutation): class Meta: serializer_class = MySerializer Create/Update Operations ~~~~~~~~~~~~~~~~~~~~~~~~ By default ModelSerializers accept create and update operations. To customize this use the `model_operations` attribute on the ``SerializerMutation`` class. The update operation looks up models by the primary key by default. You can customize the look up with the ``lookup_field`` attribute on the ``SerializerMutation`` class. .. code:: python from graphene_django.rest_framework.mutation import SerializerMutation from .serializers imoprt MyModelSerializer class AwesomeModelMutation(SerializerMutation): class Meta: serializer_class = MyModelSerializer model_operations = ['create', 'update'] lookup_field = 'id' Overriding Update Queries ~~~~~~~~~~~~~~~~~~~~~~~~~ Use the method ``get_serializer_kwargs`` to override how updates are applied. .. code:: python from graphene_django.rest_framework.mutation import SerializerMutation from .serializers imoprt MyModelSerializer class AwesomeModelMutation(SerializerMutation): class Meta: serializer_class = MyModelSerializer @classmethod def get_serializer_kwargs(cls, root, info, **input): if 'id' in input: instance = Post.objects.filter( id=input['id'], owner=info.context.user ).first() if instance: return {'instance': instance, 'data': input, 'partial': True} else: raise http.Http404 return {'data': input, 'partial': True} Relay ----- You can use relay with mutations. A Relay mutation must inherit from ``ClientIDMutation`` and implement the ``mutate_and_get_payload`` method: .. code:: python import graphene from graphene import relay from graphene_django import DjangoObjectType from graphql_relay import from_global_id from .queries import QuestionType class QuestionMutation(relay.ClientIDMutation): class Input: text = graphene.String(required=True) id = graphene.ID() question = graphene.Field(QuestionType) @classmethod def mutate_and_get_payload(cls, root, info, text, id): question = Question.objects.get(pk=from_global_id(id)[1]) question.text = text question.save() return QuestionMutation(question=question) Notice that the ``class Arguments`` is renamed to ``class Input`` with relay. This is due to a deprecation of ``class Arguments`` in graphene 2.0. Relay ClientIDMutation accept a ``clientIDMutation`` argument. This argument is also sent back to the client with the mutation result (you do not have to do anything). For services that manage a pool of many GraphQL requests in bulk, the ``clientIDMutation`` allows you to match up a specific mutation with the response.