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I have the following model :

class A:
  b = ForeignKey('B')

class B:
  a = ForeignKey('A', null=True)

I have several methods that decode a json object and create a tree of objects A and B. Suppose I have an object of type A that I want to save, I'm trying to write something like this

in class A :

def save(self, *args, **kwargs):
  self.b.save()
  super(A, self).save(*args, **kwargs)

in B :

def save(self, *args, **kwargs):
  if self.a:
    self.a.save()
  super(B, self).save(*args, **kwargs)

This does not work, even though A.b and B.a get assigned an id while calling save(), it still violates the not null constraint in A. I've read somewhere that this was due to how ORM works, and how the objects are cached somehow.

The solution proposed was to do something like this :

a = A()
b = B()
b.save()
a.b = b
a.save()

But for obvious reason of recursion, it's not appropriate in my case. So the only work around I can think of is to provide each objects with a method that recursively retrieve every object that need to be saved, and then do a for loop to save each one in the right order. I really would like to avoid this, since of course the actual model is more complex and involves more than two classes and more than one Foreign Key per class.

So I guess my question is simply : Is there a better way or a more common way to proceed in such situations ?

share|improve this question
up vote 2 down vote accepted

Well after some soul searching I found out that this was indeed a cache "problem". I don't have the time to look inside django code to understand how things really work, so if anyone have some interesting insights that would be great.

In the meantime, the solution I found is to force the object to clear its cache like this :

def save(self, *args, **kwargs):
  self.b.save()
  self.b = self.b # yes ...
  super(A, self).save(*args, **kwargs)

This does work, but for the record here is a little helper to automatically clear cache before any saving :

def clear_cache(obj):
  map(lambda x: obj.__setattr__(x, obj.__getattribute__(x)), \ # force reassignment
    map(lambda x: re.match('_(.*)_cache', x).groups()[0], \    # get attribute name
    filter(lambda x: x.find('_cache') != -1, dir(obj))))       # get all attribute with cache

@receiver(pre_save)
def cache_callback(sender, instance, **kwargs):
  clear_cache(instance)
share|improve this answer

It's worth noting that you're doing the save of the other objects before you call the superclass save method, which is probably the opposite of what you want.

Alternatively, and this might end up being cleaner, use post-save signals.

share|improve this answer
    
Well it depends which object you save first, and actually in my case both might happen, but if I can solve this one it would be great. – gobadiah Sep 10 '11 at 18:46
    
Oups enter sent the comment ... This is the right order, since when I save A, I want the foreign key to be valid, hence I have to save it first. So in my case I should use pre-save signals, which I tried and it still give me the not null constraint error. – gobadiah Sep 10 '11 at 18:48

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