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There are many Stack Overflow posts about recursion using the post_save signal, to which the comments and answers are overwhelmingly: "why not override save()" or a save that is only fired upon created == True.

Well I believe there's a good case for not using save() - for example, I am adding a temporary application that handles order fulfillment data completely separate from our Order model.

The rest of the framework is blissfully unaware of the fulfillment application and using post_save hooks isolates all fulfillment related code from our Order model.

If we drop the fulfillment service, nothing about our core code has to change. We delete the fulfillment app, and that's it.

So, are there any decent methods to ensure the post_save signal doesn't fire the same handler twice?

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Is this just a rumination, or do you have a specific situation where you've observed multiple firings of the same handler for a single event? E.g. save() fires post_save, which causes some other handler to save() the same object again and thus cause another firing of post_save? –  Peter Rowell May 31 '12 at 19:44
    
@PeterRowell, yes, if your post_save handler needs to save the sender instance, it will trigger post_save again. –  Yuji 'Tomita' Tomita May 31 '12 at 20:18

6 Answers 6

up vote 16 down vote accepted

How about disconnecting then reconnecting the signal within your post_save function:

def my_post_save_handler(sender, instance, **kwargs):
    post_save.disconnect(my_post_save_handler, sender=Order)
    instance.do_stuff()
    instance.save()
    post_save.connect(my_post_save_handler, sender=Order)
post_save.connect(my_post_save_handler, sender=Order)
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I had read about this method, and wondered if there was a cleaner solution... I tried leaving attributes on the object being saved to detect if the handler had modified the object once, but it doesn't seem to persist. Any other options? –  Yuji 'Tomita' Tomita May 31 '12 at 20:20
    
I don't believe there is any clean solution. –  dgel May 31 '12 at 20:58
1  
hah - I googled my own question and just used this again :) Thanks! –  Yuji 'Tomita' Tomita Aug 8 '12 at 21:50
    
so when you reconnect, if you have code below the "post_save.connect" in the my_post_save_save_handler, it'll run the rest of the code? –  dtc Feb 12 '13 at 23:52
3  
this is dangerous, while your signal is disconnected instances could be saved and now your handler will be missed. –  Daniel Jun 18 at 9:17

you can use update instead of save in the signal handler

quersyset.filter(pk=instance.pk).update(....)
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very interesting! Let me think about this one.. thanks! –  Yuji 'Tomita' Tomita May 31 '12 at 20:21
2  
Hmm, but what if some other signal handler does a save() instead of update()? –  Peter Rowell May 31 '12 at 20:38
    
This worked great for me! –  BigglesZX Dec 3 '12 at 17:25

Don't disconnect signals. If any new model of the same type is generated while the signal is disconnected the handler function won't be fired. Signals are global across Django and several requests can be running concurrently, making some fail while others run their post_save handler.

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You should use queryset.update() instead of Model.save() but you need to take care of something else:

It's important to note that when you use it, if you want to use the new object you should get his object again, because it will not change the self object, for example:

>>> MyModel.objects.create(pk=1, text='')
>>> el = MyModel.objects.get(pk=1)
>>> queryset.filter(pk=1).update(text='Updated')
>>> print el.text
>>> ''

So, if you want to use the new object you should do again:

>>> MyModel.objects.create(pk=1, text='')
>>> el = MyModel.objects.get(pk=1)
>>> queryset.filter(pk=1).update(text='Updated')
>>> el = MyModel.objects.get(pk=1) # Do it again
>>> print el.text
>>> 'Updated'
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You could also check the raw argument in post_save and then call save_baseinstead of save.

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Actually, save_base sends the signal; not save. –  Manuel Faux May 20 at 22:11
    
Of course, but you cannot send raw=True from the save method. –  dragoon May 21 at 6:50
    
Now I got your point. Keeping this in mind, this is definitely a way to go for me. –  Manuel Faux May 21 at 7:35

I think creating a save_without_signals() method on the model is more explicit:

class MyModel()
    def __init__():
        # Call super here.
        self._disable_signals = False

    def save_without_signals(self):
        """
        This allows for updating the model from code running inside post_save()
        signals without going into an infinite loop:
        """
        self._disable_signals = True
        self.save()
        self._disable_signals = False

def my_model_post_save(sender, instance, *args, **kwargs):
    if not instance._disable_signals:
        # Execute the code here.
share|improve this answer
    
I like it. One suggestion though: instead of overriding __init__ you could just do if not getattr(instance, '_disable_signals', False) –  dgel Oct 22 at 20:39

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