Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

There is a lot of topics on Django concurrency, but after checking a lot of those, I don't feel I have found my answer when it comes to transactions.

Django version 1.3.1. Postgresql version 8.4.7.

A very simple version of my models could look like this:

def Member(Model):
  money = PositiveIntegerField(default=0)
  user = OneToOneField(User, related_name='member', primary_key=True)

def Bet(Model):
  total_money = PositiveIntegerField(default=0)

I also have a table Money which is a relation between Member and Bet. It's not directly linked to my problem but it helps me monitor it, because it can't be impacted by any concurrency issues. i.e I just have to count my table Money to test if the fields money of Member and total_money of Bet are correct.

I can't rely only on the table Money though, and I need my fields to be correct, because I filter a lot using them.

My first try for the bet function was something like this (just with a lot more modifications to a lot more tables).

def bid(user_pk, bet_pk, value):
  #create Money object
  member = User.objects.get(user_pk).member = F('money') - value
  bet = Bet.objects.get(bet_pk)
  bet.total_money = F('total_money') + value

This version was working just fine until I get my first crash during one transaction. I had also to copy paste all the tests from my clean() functions in bid(), because I'm not really able to use clean() or full_clean() in this case (especially if bet raises, after member is saved).

So I decided to give a try to django transaction.

def bid(user_pk, bet_pk, value):
    #create money object
    member = User.objects.get(user_pk).member -= value
    bet = Bet.objects.get(bet_pk)
    bet.total_money += value

But without the possibility to use F() object inside of manual transaction (which makes sense). I ended up with a lot of concurrency issues.

I see only two solutions:

  • Only create Money objects during the bid()/transaction, then have an asynchronous worker (Celery ?) that updates the related fields in Member and Bet.

  • Create a list of bid()/transaction (Redis ?), and make all transactions that modify money related fields synchronous.

Am I missing an obvious and easier solution ? If not, what solution would you recommend using which technology ?

share|improve this question
up vote 1 down vote accepted

would this work?

def bid(user_pk, bet_pk, value):
    Member.objects.filter(user__pk=user_pk).update(money=F('money') - value)
    Bet.objects.filter(pk=bet_pk).update(total_money=F('total_money') + value)

share|improve this answer
At least it doesn't raise, which is already a nice improvement from my version with an use of transaction + F object. Thanks a lot. It's a bit late for me (I have a lot of modifications to make to try it), but I'll try that definitively tomorrow. – Ashe Jan 31 '12 at 5:42
Ok all my tests are green with that solution, I'll push that on prod soon and check if I don't detect any concurrency issues anymore. The only drawbacks I see are: - I can't use clean functions because obviously the value aren't updated. - Pre save and post save functions don't work with update (and I wonder if update is really supposed to be used to modify one item) - I had to drop the update of the money_max field I had in the Member table. I don't think you can write something like that with F: update(money_max=max(F('money'), F('money_max'))). I will just write my own sql query. – Ashe Jan 31 '12 at 19:08
I found a way to do the max stuff: members = Member.objects.filter(user__id=member_pk) members.update(money=F('money') - value) members.filter(money_max__lt=F('money')).update(money_max=F('money')) – Ashe Jan 31 '12 at 21:57

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.