from collections import OrderedDict import six from graphene import Field, ObjectType from graphene.types.objecttype import ObjectTypeMeta from graphene.types.options import Options from graphene.types.utils import merge, yank_fields_from_attrs from graphene.utils.is_base_type import is_base_type from .converter import convert_django_field_with_choices from .registry import Registry, get_global_registry from .utils import (DJANGO_FILTER_INSTALLED, get_model_fields, is_valid_django_model) def construct_fields(options): _model_fields = get_model_fields(options.model) only_fields = options.only_fields exclude_fields = options.exclude_fields fields = OrderedDict() for field in _model_fields: name = field.name is_not_in_only = only_fields and name not in options.only_fields is_already_created = name in options.fields is_excluded = name in exclude_fields or is_already_created if is_not_in_only or is_excluded: # We skip this field if we specify only_fields and is not # in there. Or when we exclude this field in exclude_fields continue converted = convert_django_field_with_choices(field, options.registry) if not converted: continue fields[name] = converted return fields class DjangoObjectTypeMeta(ObjectTypeMeta): @staticmethod def __new__(cls, name, bases, attrs): # Also ensure initialization is only performed for subclasses of # DjangoObjectType if not is_base_type(bases, DjangoObjectTypeMeta): return type.__new__(cls, name, bases, attrs) defaults = dict( name=name, description=attrs.pop('__doc__', None), model=None, local_fields=None, only_fields=(), exclude_fields=(), interfaces=(), registry=None ) if DJANGO_FILTER_INSTALLED: # In case Django filter is available, then # we allow more attributes in Meta defaults.update( filter_fields=(), filter_order_by=(), ) options = Options( attrs.pop('Meta', None), **defaults ) if not options.registry: options.registry = get_global_registry() assert isinstance(options.registry, Registry), ( 'The attribute registry in {}.Meta needs to be an instance of ' 'Registry, received "{}".' ).format(name, options.registry) assert is_valid_django_model(options.model), ( 'You need to pass a valid Django Model in {}.Meta, received "{}".' ).format(name, options.model) cls = ObjectTypeMeta.__new__(cls, name, bases, dict(attrs, _meta=options)) options.registry.register(cls) options.django_fields = yank_fields_from_attrs( construct_fields(options), _as=Field, ) options.fields = merge( options.interface_fields, options.django_fields, options.base_fields, options.local_fields ) return cls class DjangoObjectType(six.with_metaclass(DjangoObjectTypeMeta, ObjectType)): @classmethod def is_type_of(cls, root, context, info): if isinstance(root, cls): return True if not is_valid_django_model(type(root)): raise Exception(( 'Received incompatible instance "{}".' ).format(root)) model = root._meta.model return model == cls._meta.model @classmethod def get_node(cls, id, context, info): try: return cls._meta.model.objects.get(id=id) except cls._meta.model.DoesNotExist: return None