Let's say I've got a bunch of models M_1, ..., M_n, ..., M_2n, so there are 2n models in total. Each of the first n models has a (required) foreign key referencing a model of the last n models. So: say that model M_x has a (required) foreign key FK_x to the model M_2x, where 1 <= x <= n.
For each model M_x (1 <= x <= n) I now like to have a model form MF_x. I require that MF_x excludes the foreign key FK_x, such that FK_x does not show up in the form. Since FK_x is a required field though, I require that the field is provided on form instantiation like this:
model_2x_instance = M_2x.objects.create(**some_data) model_x_instance = M_x(FK_x=model_2x_instance, ...) form_x_instance = MF_x(instance=model_x_instance)
The __init__ of MF_x then does the following to check that the 'instance' argument is given and has the foreign key FK_x to the model M_2x set:
def __init__(self, *args, **kwargs): instance = kwargs.get('instance', None) if not instance: raise InstanceRequiredError if not hasattr(instance, 'FK_x') or not instance.FK_x: raise ForeignKeyRequiredError ...
The clean method of MF_x then injects the excluded FK_x back into the cleaned_data dictionary, such that the form can create/modify the M_x instance:
def clean(self): self.cleaned_data.update(FK_x=self.instance.FK_x) return super(...).clean()
The problem now is, that I don't like to repeat that two code snippets for each of those model forms. But I can't think of a neat way to refactor this such that everything is DRY.
If I could write something like this:
class Meta: exclude_but_require_and_inject_later = 'FK_x'
a common base class for all the model forms MF_x (1 <= x <= n) could apply the code snippets above for every such excluded field. But it's (reasonably) not possible to extend the Meta class with own keywords.