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I'm new to Python and Django, so please be patient with me.

I have the following models:

class User(models.Model):
   name = models.CharField(max_length = 50)

class Post(models.Model):
   userBy = models.ForeignKey(User, related_name='post_user')
   userWall = models.ForeignKey(User, related_name='receive_user')
   timestamp = models.DateTimeField()
   post = models.TextField()

class Friend(models.Model):
   user1 = models.ForeignKey(User, related_name='request_user')
   user2 = models.ForeignKey(User, related_name='accept_user')
   isApproved = models.BooleanField()
   class Meta:
      unique_together = (('user1', 'user2'), )

I know that this may not be the best/easiest way to handle it with Django, but I learned it this way and I want to keep it like this.

Now, all I want to do is get all the post from one person and it's friends. The question now is how to do it with the Django filters?

I think in SQL it would look something like this:

SELECT p.* FORM Post p, Friend f 
    (f.user1=THEUSER AND f.user2=p.userBy) OR
    (f.user2=THEUSER AND f.user1=p.userBy)

With no guarantee of correctness, just to give an idea of the result I'm looking for.

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2 Answers 2

up vote 8 down vote accepted
from django.db.models import Q

Post.objects.filter( \
    Q(userBy=some_user) | \
    Q(userBy__accept_user__user1=some_user) | \


Sorry, that was my fault. I didn't pay attention to your related_name values. See updated code above. Using userBy__accept_user or userBy__request_user alone won't work because that'll be a reference to Friend which you can't compare to to User. What we're doing here is following the reverse relationship to Friend and then once we're there, seeing if the other user on the friend request is the user in question.

This also illustrates the importance of describing reverse relationships appropriately. Many people make the same mistake you've made here and name the related_name after the model they're creating the FK to (User), when actually, when we're talking about reversing the FK, we're now talking about Friend. Simply, your related names would make more sense as something like: friend_requests and accepted_friends.

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is there a foreign key from User that has to point to Friends ? –  cesar09 Oct 12 '12 at 21:11
No. The "__friend" bit follows the relationship backwards, since Friend has a FK to User. –  Chris Pratt Oct 12 '12 at 21:29
For more information see the documentation for lookups that span relationships. –  John Keyes Oct 12 '12 at 21:45
With this i get a FieldError: "Cannot resolve keyword 'friend' into field." if i change it to ...Q(userBy__accept_user=user_) | Q(userBy__request_user=user_)... the error is gone but not all posts are showing up –  cesar09 Oct 12 '12 at 22:15
I believe this will include too many posts (it will include posts from users that 'some_user' has requested to be friends with, regardless of whether they accepted or not, and will include posts from users that have requested to be friends with 'some_user', whether 'some_user' accepted the request or not). I believe this will work, however:Post.objects.filter(Q(userBy=some_user) | (Q(userBy__accept_user__user1=some_user) & Q(userBy_accept_user__isApproved=True)) | (Q(userBy__request_user__user2=some_user) & Q(userBy_accept_user__isApproved=True))).distinct() –  Keith Schoenefeld Jan 25 '13 at 19:11
(with User u)
friends_u1 = Friend.objects.filter(user1 = u).getlist('user2_id', flat=True)
friends_u2 = Friend.objects.filter(user2 = u).getlist('user1_id', flat=True)
friends_and_user = friends_u1+friends_u2+u.id

Post.objects.filter(userBy__id__in = friends_and_user)
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The standard approach is to use Q object. Could you clarify why did you choose different approach? –  Tadeck Oct 12 '12 at 20:59
Where are you getting "the standard approach is to use a Q object"? Nowhere in the documentation does it say that. Also, for a django newbie, this broken out approach may be more easily understandable. –  Colleen Oct 12 '12 at 21:00
From experience. You are gathering all IDs first, then you are using it for a query. Consider the case where you would have 500 friends, the query could be enormous. Yes, this solution could be used by Django newbie (or by someone knowing why and when it could be better), but this is not about what is easier to understand, rather what is the best (or at least "good"). When it comes to "standard approach" part: read the documentation on complex queries in Django. –  Tadeck Oct 12 '12 at 21:04
I agree with @Tadeck, but I don't think the downvote was warranted. It's a valid approach here, though it's not the efficient approach. The answer could be improved by simply selecting all the ids at once instead of adding them, and then feeding that into the filter. Django will judiciously optimize the query. Of course, you'd have to use Q objects to do that, so it sort of defeats the point. Still, some use might be made of it. –  Chris Pratt Oct 12 '12 at 21:33
@ChrisPratt: Ok, downvote removed. Hope someone looking for a solution will read the comments before implementing it. –  Tadeck Oct 12 '12 at 21:35

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