Let's say I have the following models

class Photo(models.Model):
    tags = models.ManyToManyField(Tag)

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

In a view I have a list with active filters called categories. I want to filter Photo objects which have all tags present in categories.

I tried:


But this matches any item in categories, not all items.

So if categories would be ['holiday', 'summer'] I want Photo's with both a holiday and summer tag.

Can this be achieved?

  • 6
    Maybe: qs=Photo.objects.all(); for category in categories: qs = qs.filter(tags__name=category) – jpic Dec 23 '11 at 16:07
  • 2
    jpic is right, Photo.objects.filter(tags__name='holiday').filter(tags__name='summer') is the way to go. (This is same as jpic's example). Each filter should add more JOINs to query, so you could take annotation approach if they are too many. – Davor Lucic Dec 23 '11 at 16:34
  • 1
    Here's the reference in the docs: docs.djangoproject.com/en/dev/topics/db/queries/… – sgallen Dec 25 '11 at 1:23


One option is, as suggested by jpic and sgallen in the comments, to add .filter() for each category. Each additional filter adds more joins, which should not be a problem for small set of categories.

There is the aggregation approach. This query would be shorter and perhaps quicker for a large set of categories.

You also have the option of using custom queries.

Some examples

Test setup:

class Photo(models.Model):
    tags = models.ManyToManyField('Tag')

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

    def __unicode__(self):
        return self.name

In [2]: t1 = Tag.objects.create(name='holiday')
In [3]: t2 = Tag.objects.create(name='summer')
In [4]: p = Photo.objects.create()
In [5]: p.tags.add(t1)
In [6]: p.tags.add(t2)
In [7]: p.tags.all()
Out[7]: [<Tag: holiday>, <Tag: summer>]

Using chained filters approach:

In [8]: Photo.objects.filter(tags=t1).filter(tags=t2)
Out[8]: [<Photo: Photo object>]

Resulting query:

In [17]: print Photo.objects.filter(tags=t1).filter(tags=t2).query
SELECT "test_photo"."id"
FROM "test_photo"
INNER JOIN "test_photo_tags" ON ("test_photo"."id" = "test_photo_tags"."photo_id")
INNER JOIN "test_photo_tags" T4 ON ("test_photo"."id" = T4."photo_id")
WHERE ("test_photo_tags"."tag_id" = 3  AND T4."tag_id" = 4 )

Note that each filter adds more JOINS to the query.

Using annotation approach:

In [29]: from django.db.models import Count
In [30]: Photo.objects.filter(tags__in=[t1, t2]).annotate(num_tags=Count('tags')).filter(num_tags=2)
Out[30]: [<Photo: Photo object>]

Resulting query:

In [32]: print Photo.objects.filter(tags__in=[t1, t2]).annotate(num_tags=Count('tags')).filter(num_tags=2).query
SELECT "test_photo"."id", COUNT("test_photo_tags"."tag_id") AS "num_tags"
FROM "test_photo"
LEFT OUTER JOIN "test_photo_tags" ON ("test_photo"."id" = "test_photo_tags"."photo_id")
WHERE ("test_photo_tags"."tag_id" IN (3, 4))
GROUP BY "test_photo"."id", "test_photo"."id"
HAVING COUNT("test_photo_tags"."tag_id") = 2

ANDed Q objects would not work:

In [9]: from django.db.models import Q
In [10]: Photo.objects.filter(Q(tags__name='holiday') & Q(tags__name='summer'))
Out[10]: []
In [11]: from operator import and_
In [12]: Photo.objects.filter(reduce(and_, [Q(tags__name='holiday'), Q(tags__name='summer')]))
Out[12]: []

Resulting query:

In [25]: print Photo.objects.filter(Q(tags__name='holiday') & Q(tags__name='summer')).query
SELECT "test_photo"."id"
FROM "test_photo"
INNER JOIN "test_photo_tags" ON ("test_photo"."id" = "test_photo_tags"."photo_id")
INNER JOIN "test_tag" ON ("test_photo_tags"."tag_id" = "test_tag"."id")
WHERE ("test_tag"."name" = holiday  AND "test_tag"."name" = summer )
  • 6
    Is there be a solution with a custom lookup? docs.djangoproject.com/en/1.10/howto/custom-lookups It would cool to switch "__in" to "__all" and have it create the correct sql query. – t1m0 Jan 18 '17 at 16:06
  • 1
    This annotation solution seems wrong. What if there are three tags possible (lets call the additional one for t3, and a photo has the tags t2 and t3. Then this photo will still match the given query. – beruic Apr 30 '18 at 11:53
  • @beruic I think the idea is that you would replace num_tags=2 with num_tags=len(tags); I expect the hard-coded 2 was just for example's sake. – tbm May 2 '18 at 17:29
  • 3
    @tbm It still would not work. Photo.objects.filter(tags__in=tags) matches photos that have any of the tags, not only those that has all. Some of those that only has one of the desired tags, may have exactly the amount of tags that you are looking for, and some of those that has all the desired tags, may also have additional tags. – beruic May 2 '18 at 18:53
  • If your Django version is 1.8 or above you could use conditional annotations. See this answer: stackoverflow.com/a/33777815/1031534 – beruic May 2 '18 at 19:14

Another approach that works, although PostgreSQL only, is using django.contrib.postgres.fields.ArrayField:

Example copied from docs:

>>> Post.objects.create(name='First post', tags=['thoughts', 'django'])
>>> Post.objects.create(name='Second post', tags=['thoughts'])
>>> Post.objects.create(name='Third post', tags=['tutorial', 'django'])

>>> Post.objects.filter(tags__contains=['thoughts'])
<QuerySet [<Post: First post>, <Post: Second post>]>

>>> Post.objects.filter(tags__contains=['django'])
<QuerySet [<Post: First post>, <Post: Third post>]>

>>> Post.objects.filter(tags__contains=['django', 'thoughts'])
<QuerySet [<Post: First post>]>

ArrayField has some more powerful features such as overlap and index transforms.


This also can be done by dynamic query generation using Django ORM and some Python magic :)

from operator import and_
from django.db.models import Q

categories = ['holiday', 'summer']
res = Photo.filter(reduce(and_, [Q(tags__name=c) for c in categories]))

The idea is to generate appropriate Q objects for each category and then combine them using AND operator into one QuerySet. E.g. for your example it'd be equal to

res = Photo.filter(Q(tags__name='holiday') & Q(tags__name='summer'))
  • 3
    This would not work. Your query examples would not return anything for the models in question. – Davor Lucic Dec 26 '11 at 17:30
  • Thanks for correction. I thought chaining filter would be the same as using and for Q objects in one filter... My mistake. – demalexx Dec 27 '11 at 0:05
  • No worries, my first thought where also Q objects. – Davor Lucic Dec 27 '11 at 0:48
  • 1
    This would we slower if you work with large tables and large data to compare to. (like 1 Million each) – gies0r May 21 '18 at 16:11

I use a little function that iterates filters over a list for a given operator an a column name :

def exclusive_in (cls,column,operator,value_list):         
    myfilter = column + '__' + operator
    query = cls.objects
    for value in value_list:
    return query  

and this function can be called like that:


it also work with any class and more tags in the list; operators can be anyone like 'iexact','in','contains','ne',...


If we want to do it dynamically, followed the example:

tag_ids = [t1.id, t2.id]
qs = Photo.objects.all()

for tag_id in tag_ids:
    qs = qs.filter(tag__id=tag_id)    

print qs
  • Cannot work as as soon as the second iteration, the queryset will be empty – lapin Jul 31 '18 at 8:45

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