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I have these two models, Leaf and Root:

class CustomQuerySetManager(models.Manager):
    """A re-usable Manager to access a custom QuerySet"""
    def __getattr__(self, attr, *args):
        try:
            return getattr(self.__class__, attr, *args)
        except AttributeError:
            return getattr(self.get_query_set(), attr, *args)

    def get_query_set(self):
        return self.model.QuerySet(self.model)

class Leaf(models.Model):
    pass

class Root(models.Model):
    leafs = models.ManyToManyField(Leaf)
    species = models.CharField(max_length=20)
    age = models.FloatField()

    objects = CustomQuerySetManager()

    class QuerySet(query.QuerySet):
        def small(self):
            return self.annotate(leaf_count=models.Count('leafs')).\
                filter(leaf_count__lt=6)

        def oldest_each_species(self):
            oldest_each_species = set()
            for d in self.values('species').annotate(models.Max('age')):
                some_oldest = self.filter(
                    species=d['species'],
                    age=d['age__max']
                    )[0]
                oldest_each_species.add(some_oldest)
            return oldest_each_species

And this test harness:

class AggTest(test.TestCase):
    def set_up(self):
        pass

    def test_surprise(self):
        for i in range(0,2):
            root = models.Root(species='oak', age=i)
            root.save()
            for j in range(0,4):
                leaf = models.Leaf()
                leaf.save()
                root.leafs.add(leaf)

        print "All small Roots"
        for root in models.Root.objects.small():
            print root.id, root.species, root.leafs.count()

        print "All oldest"
        for matron in models.Root.objects.oldest_each_species():
            print matron.id, matron.age

        print "Naive all small oldests DOESN'T FIND ANY"
        for matron in models.Root.objects.small().oldest_each_species():
            print matron.id, matron.age

        print "All small oldests again, as two database operations"
        for matron in models.Root.objects.\
                filter(id__in=models.Root.objects.small()).\
                oldest_each_species():
            print matron.id, matron.age

which prints:

All small Roots
1 oak 4
2 oak 4
All oldest
2 1.0
Naive all small oldests DOESN'T FIND ANY
All small oldests again, as two database operations
2 1.0

I was surprised by the result, but the interactions between values(), annotate(), and aggregation often surprise me.

Unwrapping my naive query, I have

Root.objects.annotate(leaf_count=models.Count('leafs')).
    filter(leaf_count__lt=6).values('species').
    annotate(models.Max('age'))

which turns into the SQL:

SELECT `autest_root`.`species`, MAX(`autest_root`.`age`) AS `age__max` 
       FROM `autest_root` LEFT OUTER JOIN `autest_root_leafs`
          ON (`autest_root`.`id` = `autest_root_leafs`.`root_id`)
       GROUP BY `autest_root`.`species`, `autest_root`.`species`
       HAVING COUNT(`autest_root_leafs`.`leaf_id`) < 6  ORDER BY NULL

If I remove the filter and add leaf_count to the values, I can see better what django is doing:

Root.objects.annotate(leaf_count=models.Count('leafs')).
    values('species', 'leaf_count').
    annotate(models.Max('age'))

which turns into the SQL:

SELECT `autest_root`.`species`,
        COUNT(`autest_root_leafs`.`leaf_id`) AS `leaf_count`,
        MAX(`autest_root`.`age`) AS `age__max`
    FROM `autest_root` LEFT OUTER JOIN `autest_root_leafs`
        ON (`autest_root`.`id` = `autest_root_leafs`.`root_id`)
    GROUP BY `autest_root`.`species`, `autest_root`.`species` ORDER BY NULL

and results in: [{'species': u'oak', 'leaf_count': 8, 'age__max': 1.0}]

The surprise to me is the leaf_count of 8, which is the total number of Leafs on two different Roots. The filter for the tree being "small" wants the leaf_count to be under 6, and while each Root is, for some reason, django is counting the total number of Leafs, not per-Root.

Moving the values() call to the end changes the result to make the count a per-Root count, as I expected with the naive query:

Root.objects.annotate(leaf_count=models.Count('leafs')).
    annotate(models.Max('age')).
    values('species', 'leaf_count')

SELECT `autest_root`.`species`,
        COUNT(`autest_root_leafs`.`leaf_id`) AS `leaf_count` 
    FROM `autest_root` LEFT OUTER JOIN `autest_root_leafs`
        ON (`autest_root`.`id` = `autest_root_leafs`.`root_id`)
    GROUP BY `autest_root`.`id`, `autest_root`.`species`, `autest_root`.`age`,
        `autest_root`.`species` ORDER BY NULL

[{'species': u'oak', 'leaf_count': 4}, {'species': u'oak', 'leaf_count': 4}]

As shown in the test [at "All small oldests again"], I have a work-around, adding a nested django query on the ids, so I'm not looking for a work-around, but better work-arounds are welcome.

Perhaps the heart of my confusion is that QuerySet objects do not encapsulate their implementation. If the implementation small() were:

def small(self):
    small = self.annotate(leaf_count=models.Count('leafs')).\
        filter(leaf_count__lt=6)
    return self.filter(id__in=small)

it would always produce the same results, but would compose differently with other queries, like self.values('species').annotate(models.Max('age')) in oldest_each_species().

I don't understand the interactions well enough to even know if this is a bug in django. If it is, I'll continue to use a work-around.

If not a bug, I would like a better understanding of how values() and annotate() are interacting to produce these results, and how to manage situations like this. My best guess would be to have small() return the nested query, to encapsulate the fact that it is using annotations to do its job.

So:

  • Is this a bug in django?
  • Is there some documentation which explains what I'm seeing?
  • What is the "best practice" for dealing with this kind of problem?
  • Would django benefit from a "barrier" which would prevent reordering in situations where is isn't wanted?
share|improve this question
    
You should post the code that you are using for CustomQuerySetManager -- that isn't a part of Django, but it almost certainly has some bearing on your problem. –  Ian Clelland Nov 25 '11 at 20:30
    
Done. Thank you. –  Barry Hayes Jan 17 '12 at 23:50

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