I have a legacy Django model which is a little to specific in its implementation for my tastes. I want to generate more specific subclasses of this model to handle differing scenarios, but want to retain a common base class for some common fields and methods. Sample model is as follows:
class SomeOldClass(models.Model): sharedField1 = models.CharField('This is a shared field1', max_length=10) sharedField2 = models.CharField('This is a shared field2', max_length=10) specificField1 = models.CharField('This is a specific field1', max_length=10)
Ultimately, I am trying to break out a subclass of SomeOldClass that shares sharedField1 and sharedField2.
class SomeOldSubclass(SomeOldClass): specificField1_new = models.CharField('This is a specific field1', max_length=10)
Note the _new appended to the specificField1 in SomeOldSubclass due to errors creating a field with the same name as a parent.
My plan is to have three south scripts:
- Schema migration to create the new app_someoldsubclass table
- Data migration script to copy values from app_someoldclass.specificField1 to app_someoldsubclass.specificField1_new
- Schema migration to drop specificField1 from app_someoldclass and rename specificField1_new to specificField1 in app_someoldsubclass
Sure, I could combine these scripts into one migration script, but bear with me.
With the classes as defined above, I created a schema migration script:
./manage.py schemamigration app --auto
Then, I created an empy data migration script:
./manage.py datamigration app copy_values
I modified the data migration script to add this in my forward method:
def forwards(self, orm): "Write your forwards methods here." for soc in orm.SomeOldClass.objects.all(): sosc = orm.SomeOldSubclass.objects.get_or_create(someoldclass_ptr=soc, specificField_new=soc.specificField1)
Note that because SomeOldSubclass inherits from SomeOldClass, I create a new SomeOldSubclass instance for each instance of SomeOldClass, and update the someoldclass_ptr and specificField1_new values.
Running the migrations creates a new row in app_someoldsubclass for each row in app_someoldclass as expected, with the value of specificField1_new the same as the same value in app_someoldclass.specificField1. But, now all the fields in app_someoldclass are completely wiped out. If I were to create an instance of the SomeOldClass model for an existing id,
sharedField1 would be
None. In fact the only value that is still valid is the id in app_someoldclass.
In fact, the only way for app_someoldclass to retain its original values is to modify my forward method to the following:
def forwards(self, orm): "Write your forwards methods here." for soc in orm.SomeOldClass.objects.all(): sosc = orm.SomeOldSubclass.objects.get_or_create(someoldclass_ptr=soc, specificField_new=soc.specificField1) soc.save()
(note addition of soc.save())
Is this expected behavior? I would assume that since I am not modifying my instances of SomeOldClass as represented by the soc object, that there would be no need to save it again. And even if I didn't save it, I surely wouldn't expect the data to get clobbered.
Is this a south thing? A django thing? A user error thing?