This question is different from: Using __new__ on classes derived from Django's models does not work
That question asks how one can make
This question asks: What are the pitfalls of using
__new__ with Django models?
In particular, I have the following code, which exists to install a classmethod on the class, which needs to know which class it originates in (i.e. it needs to tell whether it is being called on a subclass or not). Will this blow up in unexpected ways?
class Director(models.Model, Specializable, DateFormatter, AdminURL, Supercedable): # my own mixin classes # all other properties etc snipped @staticmethod # necessary with django models def __new__(cls, *args, **kwargs): Specializable.create_subclass_translator(cls, install = 'create_from_officer') return models.Model.__new__(cls, *args, **kwargs)
create_subclass_translator does something like this:
@classmethod def create_subclass_translator(clazz, Baseclass, install=None): def create_from_other_instance(selfclass, old_instance, properties): if selfclass is Baseclass: raise TypeError("This method cannot be used on the base class") # snipped for concision return selfclass(**properties) new_method = classmethod(create_from_other_instance) if install and not hasattr(Baseclass, install): setattr(Baseclass, install, new_method) return new_method
For those who wonder what this is accomplishing, the classmethod
create_from_other_instance is a factory which simulates a model subclass instance changing from one subclass to another, by copying over the baseclass properties, and setting the
ancestor_link property correctly.