import re from ..types import Field, InputObjectType, String from ..types.mutation import Mutation from ..utils.thenables import maybe_thenable class ClientIDMutation(Mutation): class Meta: abstract = True @classmethod def __init_subclass_with_meta__( cls, output=None, input_fields=None, arguments=None, name=None, **options ): input_class = getattr(cls, "Input", None) base_name = re.sub("Payload$", "", name or cls.__name__) assert not output, "Can't specify any output" assert not arguments, "Can't specify any arguments" bases = (InputObjectType,) if input_class: bases += (input_class,) if not input_fields: input_fields = {} cls.Input = type( f"{base_name}Input", bases, dict(input_fields, client_mutation_id=String(name="clientMutationId")), ) arguments = dict( input=cls.Input(required=True) # 'client_mutation_id': String(name='clientMutationId') ) mutate_and_get_payload = getattr(cls, "mutate_and_get_payload", None) if cls.mutate and cls.mutate.__func__ == ClientIDMutation.mutate.__func__: assert mutate_and_get_payload, ( f"{name or cls.__name__}.mutate_and_get_payload method is required" " in a ClientIDMutation." ) if not name: name = f"{base_name}Payload" super(ClientIDMutation, cls).__init_subclass_with_meta__( output=None, arguments=arguments, name=name, **options ) cls._meta.fields["client_mutation_id"] = Field(String, name="clientMutationId") @classmethod def mutate(cls, root, info, input): def on_resolve(payload): try: payload.client_mutation_id = input.get("client_mutation_id") except Exception: raise Exception( f"Cannot set client_mutation_id in the payload object {repr(payload)}" ) return payload result = cls.mutate_and_get_payload(root, info, **input) return maybe_thenable(result, on_resolve)