I'm trying to use the Django ORM for a task that requires a
JOIN in SQL. I
already have a workaround that accomplishes the same task with multiple queries
and some off-DB processing, but I'm not satisfied by the runtime complexity.
First, I'd like to give you a short introduction to the relevant part of my model. After that, I'll explain the task in English, SQL and (inefficient) Django ORM.
In my CMS model, posts are multi-language: For each post and each language, there can be one instance of the post's content. Also, when editing posts, I don't
INSERT new versions of them.
PostContent is unique on
version. Here's the class:
class PostContent(models.Model): """ contains all versions of a post, in all languages. """ language = models.ForeignKey(Language) post = models.ForeignKey(Post) # the Post object itself only version = models.IntegerField(default=0) # contains slug and id. # further metadata and content left out class Meta: unique_together = (("resource", "language", "version"),)
The Task in SQL
And this is the task: I'd like to get a list of the most recent versions of all posts in each language, using the ORM. In SQL, this translates to a
JOIN on a subquery that does
GROUP BY and
MAX to get the maximum of
version for each unique pair of
language. The perfect answer to this question would be a number of ORM calls that produce the following SQL statement:
SELECT id, post_id, version, v FROM cms_postcontent, (SELECT post_id as p, max(version) as v, language_id as l FROM cms_postcontent GROUP BY post_id, language_id ) as maxv WHERE post_id=p AND version=v AND language_id=l;
Solution in Django
My current solution using the Django ORM does not produce such a JOIN, but two seperate SQL
queries, and one of those queries can become very large. I first execute the subquery (the inner
SELECT from above):
maxv = PostContent.objects.values('post','language').annotate( max_version=Max('version'))
Now, instead of joining
maxv, I explicitly ask for every single post in
PostContent.objects.all() for each tuple of
post, language, max_version. The resulting SQL looks like
SELECT * FROM PostContent WHERE post=P1 and language=L1 and version=V1 OR post=P2 and language=L2 and version=V2 OR ...;
from django.db.models import Q conjunc = map(lambda pc: Q(version=pc['max_version']).__and__( Q(post=pc['post']).__and__( Q(language=pc['language']))), maxv) result = PostContent.objects.filter( reduce(lambda disjunc, x: disjunc.__or__(x), conjunc[1:], conjunc))
maxv is sufficiently small, e.g. when retrieving a single post, this might be
a good solution, but the size of the query and the time to create it grow linearly with
the number of posts. The complexity of parsing the query is also at least linear.
Is there a better way to do this, apart from using raw SQL?