from typing import Any, Dict from django.core.exceptions import ImproperlyConfigured from django.db import models from .access_permissions import BaseAccessPermissions # noqa from .utils import convert_camel_case_to_pseudo_snake_case class MinMaxIntegerField(models.IntegerField): """ IntegerField with options to set a min- and a max-value. """ def __init__(self, min_value: int=None, max_value: int=None, *args: Any, **kwargs: Any) -> None: self.min_value, self.max_value = min_value, max_value super(MinMaxIntegerField, self).__init__(*args, **kwargs) def formfield(self, **kwargs: Any) -> Any: defaults = {'min_value': self.min_value, 'max_value': self.max_value} defaults.update(kwargs) return super(MinMaxIntegerField, self).formfield(**defaults) class RESTModelMixin: """ Mixin for Django models which are used in our REST API. """ access_permissions = None # type: BaseAccessPermissions def get_root_rest_element(self) -> models.Model: """ Returns the root rest instance. Uses self as default. """ return self @classmethod def get_access_permissions(cls) -> BaseAccessPermissions: """ Returns a container to handle access permissions for this model and its corresponding viewset. """ if cls.access_permissions is None: raise ImproperlyConfigured("A RESTModel needs to have an access_permission.") return cls.access_permissions @classmethod def get_collection_string(cls) -> str: """ Returns the string representing the name of the collection. Returns None if this is not a so called root rest instance. """ # TODO Check if this is a root rest element class and return None if not. app_label = cls._meta.app_label # type: ignore object_name = cls._meta.object_name # type: ignore return '/'.join( (convert_camel_case_to_pseudo_snake_case(app_label), convert_camel_case_to_pseudo_snake_case(object_name))) def get_rest_pk(self) -> int: """ Returns the primary key used in the REST API. By default this is the database pk. """ return self.pk # type: ignore def save(self, skip_autoupdate: bool=False, information: Dict[str, str]=None, *args: Any, **kwargs: Any) -> Any: """ Calls Django's save() method and afterwards hits the autoupdate system. If skip_autoupdate is set to True, then the autoupdate system is not informed about the model changed. This also means, that the model cache is not updated. You have to do this manually, by creating a collection element from the instance: CollectionElement.from_instance(instance) The optional argument information can be a dictionary that is given to the autoupdate system. """ # We don't know how to fix this circular import from .autoupdate import inform_changed_data return_value = super().save(*args, **kwargs) # type: ignore if not skip_autoupdate: inform_changed_data(self.get_root_rest_element(), information=information) return return_value def delete(self, skip_autoupdate: bool=False, information: Dict[str, str]=None, *args: Any, **kwargs: Any) -> Any: """ Calls Django's delete() method and afterwards hits the autoupdate system. If skip_autoupdate is set to True, then the autoupdate system is not informed about the model changed. This also means, that the model cache is not updated. You have to do this manually, by creating a collection element from the instance: CollectionElement.from_instance(instance, deleted=True) or CollectionElement.from_values(collection_string, id, deleted=True) The optional argument information can be a dictionary that is given to the autoupdate system. """ # We don't know how to fix this circular import from .autoupdate import inform_changed_data, inform_deleted_data instance_pk = self.pk # type: ignore return_value = super().delete(*args, **kwargs) # type: ignore if not skip_autoupdate: if self != self.get_root_rest_element(): # The deletion of a included element is a change of the root element. inform_changed_data(self.get_root_rest_element(), information=information) else: inform_deleted_data(self.get_collection_string(), instance_pk, information=information) return return_value