Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I'm trying to implement (what I think is) a pretty simple data model for a counter:

class VisitorDayTypeCounter(models.Model):
    visitType = models.CharField(max_length=60)
    visitDate = models.DateField('Visit Date')
    counter = models.IntegerField()

When someone comes through, it will look for a row that matches the visitType and visitDate; if this row doesn't exist, it will be created with counter=0.

Then we increment the counter and save.

My concern is that this process is totally a race. Two requests could simultaneously check to see if the entity is there, and both of them could create it. Between reading the counter and saving the result, another request could come through and increment it (resulting in a lost count).

So far I haven't really found a good way around this, either in the Django documentation or in the tutorial (in fact, it looks like the tutorial has a race condition in the Vote part of it).

How do I do this safely?

share|improve this question

7 Answers 7

up vote 1 down vote accepted

This is a bit of a hack. The raw SQL will make your code less portable, but it'll get rid of the race condition on the counter increment. In theory, this should increment the counter any time you do a query. I haven't tested this, so you should make sure the list gets interpolated in the query properly.

class VisitorDayTypeCounterManager(models.Manager):
    def get_query_set(self):
        qs = super(VisitorDayTypeCounterManager, self).get_query_set()

        from django.db import connection
        cursor = connection.cursor()

        pk_list = qs.values_list('id', flat=True)
        cursor.execute('UPDATE table_name SET counter = counter + 1 WHERE id IN %s', [pk_list])

        return qs

class VisitorDayTypeCounter(models.Model):

    objects = VisitorDayTypeCounterManager()
share|improve this answer
Isn't it still possible that the database will execute this query over two separate connections concurrently and still have a (much lower probability) race condition? It all depends on hidden transactions around this query implimented by the connection layer that make op atomic. – Tom Leys Nov 12 '08 at 3:23
If you watch the "Why I Hate Django" keynote from DjangoCon, this type of query is given as a proper, race condition-free way to do an increment in SQL (the hitch being that Django's ORM can't do it for you). – iconoplast Nov 12 '08 at 13:58
I'll watch your slides... you've pretty much confirmed my suspicion that the ORM wouldn't do it on its own. Thanks for the help! – Tony Arkles Nov 12 '08 at 14:03
If you look at Django Ticket 7210 – "Added expression support for QuerySet.update", it may seem that help is on the way to do this in a portable way using the ORM... – Ber Nov 14 '08 at 12:34
This answer may have been valid once but it is outdated for a long time now. Since Django 1.1 this is directly supported by Django's ORM. – bjunix Aug 24 '14 at 14:14

As of Django 1.1 you can use the ORM's F() expressions.

from django.db.models import F
product = Product.objects.get(name='Venezuelan Beaver Cheese')
product.number_sold = F('number_sold') + 1

For more details see the documentation:

share|improve this answer
Cool! That's an awesome approach. If only that had been there when I was working on this project. – Tony Arkles Dec 25 '09 at 4:15
Very cool indeed, thanks for the info! – Matt Caldwell Jan 8 '11 at 18:17
For modern Django installations, this is the correct answer and should be reflected as such by the OP. – claymation May 23 '12 at 18:18

If you truly want the counter to be accurate you could use a transaction but the amount of concurrency required will really drag your application and database down under any significant load. Instead think of going with a more messaging style approach and just keep dumping count records into a table for each visit where you'd want to increment the counter. Then when you want the total number of visits do a count on the visits table. You could also have a background process that ran any number of times a day that would sum the visits and then store that in the parent table. To save on space it would also delete any records from the child visits table that it summed up. You'll cut down on your concurrency costs a huge amount if you don't have multiple agents vying for the same resources (the counter).

share|improve this answer
Hey good call! I've been doing App Engine work primarily, and I got hung up on "transactions only act on one entry" and "doing aggregate functions is very expensive". That's a really simple way to solve the problem. Thanks! – Tony Arkles Nov 11 '08 at 18:27
I suppose it does depend on whether the process is going to be read-heavy or write-heavy. Counts are going to be read much more often than they'll be incremented in my system, so for the problem as stated, this might not be the best plan. However, it does solve other concerns I had, so thanks! – Tony Arkles Nov 11 '08 at 19:28
Depending on how stale the counts can be allowed to be, you could have a background process summing them up every so often. Then you would not be doing the aggregation per request. – Sam Corder Nov 11 '08 at 19:35
Interesting to know that this journaling method is similar to how transactions are made safe, atomic and recoverable under the hood in many databases (see the implementation details in Postgresql manual for instance). – Tom Leys Nov 12 '08 at 3:18

You can use patch from for support database level locking.

With patch this code will be atomic:

visitors = VisitorDayTypeCounter.objects.get(day=curday).for_update()
visitors.counter += 1
share|improve this answer
That is wicked cool. I didn't see that when I first asked the question (3 years ago!) – Tony Arkles Sep 17 '11 at 4:58

Two suggestions:

Add a unique_together to your model, and wrap the creation in an exception handler to catch duplicates:

class VisitorDayTypeCounter(models.Model):
    visitType = models.CharField(max_length=60)
    visitDate = models.DateField('Visit Date')
    counter = models.IntegerField()
    class Meta:
        unique_together = (('visitType', 'visitDate'))

After this, you could stlll have a minor race condition on the counter's update. If you get enough traffic to be concerned about that, I would suggest looking into transactions for finer grained database control. I don't think the ORM has direct support for locking/synchronization. The transaction documentation is available here.

share|improve this answer
The unique_together certainly makes me feel a bit more comfortable. Likely, there won't ever be enough traffic on this to cause the race to get hit, but since I'm learning Django at the same time, I figured I wanted to "do it right". Thanks for the help! – Tony Arkles Nov 11 '08 at 6:07
Yeah, I hear you. Maybe someone else around here will be aware of an ORM feature for handling this, or can clear up if some of the built-ins are safe against this scenario. – Daniel Naab Nov 11 '08 at 6:35

Why not use the database as the concurrency layer ? Add a primary key or unique constraint the table to visitType and visitDate. If I'm not mistaken, django does not exactly support this in their database Model class or at least I've not seen an example.

Once you've added the constraint/key to the table, then all you have to do is:

  1. check if the row is there. if it is, fetch it.
  2. insert the row. if there's no error you're fine and can move on.
  3. if there's an error (i.e. race condition), re-fetch the row. if there's no row, then it's a genuine error. Otherwise, you're fine.

It's nasty to do it this way, but it seems quick enough and would cover most situations.

share|improve this answer
It doesn't handle the case where two people go to update the counter at the same time. – Tony Arkles Nov 11 '08 at 6:28

Your should use database transactions to avoid this kind of race condition. A transaction lets you perform the whole operation of creating, reading, incrementing and saving the counter on an "all or nothing" base. If anything goes wrong it will roll back the whole thing and you can try again.

Check out the Django docs. There is a transaction middle ware, or you can use decorators around views or methods to create transactions.

share|improve this answer
I agree that transactions seem like the answer here, but it's not clear that the functionality will actually solve the increment problem -- the SELECT to get the row will still succeed, and the UPDATE to change the value of the counter will still succeed. If I'm wrong, an example would be awesome. – Tony Arkles Nov 11 '08 at 13:39
You would need to lock the table during the select to do it this way, and as mentioned by Sam that would drag down your performance. This is the best way if you don't incriment the counter often. – Tom Leys Nov 12 '08 at 3:20

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.