Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm using declarative_base() and trying to figure out how to enforce a lazy inner join when using a many-to-many relationship.

I have tables in MySQL and InnoDB with Foreign key constraints defined.

users: userid, name
permissions: permissionid, name
users_permissions: userid, permissionid

I'm using metadata.reflect() to load my database.


class User_Perm(Base):
    __table__ = Base.metadata.tables['users_permissions']

class User(Base):
    __table__ = Base.metadata.tables['users']

    permissions = orm.relationship('Permission',
            secondary=User_Perm.__table__,
            order_by='Perm.name',
            innerjoin=True,
            lazy=True,
            )

class Permission(Base):
    __table__ = Base.metadata.tables['permissions']

Whenever I select

u = Session().query(User).filter(User.name == 'myuser').first()
u.permissions

The query received by MySQL server is:

SELECT permissions.permissionid AS permissions_permissionid,
     permissions.name AS permissions_name
FROM permissions, users_permissions 
WHERE ? = users_permissions.userid
    AND permissions.permissionid = users_permissions.permissionid
ORDER BY permissions.name

As we can see, the FROM permissions, users_permissions is not an inner join. Can I force this without the need to use lazy=False because if I do so, the cascading effect will be to load too much information as permissions are also in relationship with another table (not mentioned in example) and users is also related to other tables (again, not mentioned in example). I would like to use the same template for relationship for all my classes.

EDIT: CONTEXT I'm trying to replicate all the SQL queries to match those from the current system. I'm trying to migrate from oursql to sqlalchemy orm.

share|improve this question
1  
if you need a character-per-character match between two applications, one using hand-written queries and the other an ORM, you will be disappointed. The SQLAlchemy ORM can certainly reproduce queries that are structurally extremely similar, but some features such as relationship lazy loading by their nature don't have a space for the query to be tailored fully. As mentioned, you'll want to compare MySQL's EXPLAIN output to the INNER JOIN vs. implicit join above to verify equivalent performance. –  zzzeek May 6 '12 at 15:03
add comment

1 Answer

up vote 2 down vote accepted

MySQL is doing an inner join; that is, the query you've shown is one implementation of an inner join.

From the docs:

innerjoin=False – when True, joined eager loads will use an inner join to join against related tables instead of an outer join. The purpose of this option is strictly one of performance, as inner joins generally perform better than outer joins. This flag can be set to True when the relationship references an object via many-to-one using local foreign keys that are not nullable, or when the reference is one-to-one or a collection that is guaranteed to have one or at least one entry.

The key point is inner join vs. outer join. The syntax is irrelevant.

Note that your query can be converted to a query using the inner join syntactic form which has the exact same meaning:

SELECT permissions.permissionid AS permissions_permissionid,
     permissions.name AS permissions_name
FROM permissions
INNER JOIN users_permissions 
    ON permissions.permissionid = users_permissions.permissionid
WHERE ? = users_permissions.userid
ORDER BY permissions.name

MySQL will usually generate an identical execution plan for the two forms.

share|improve this answer
    
You are saying that behind the scene, I am guaranteed that MySQL will treat this type of queries like an inner join? I understand the resultset to be the same, but didn't think optimizer will always guaranty it. –  Danosaure May 4 '12 at 14:24
1  
@Danosaure I'm saying that your query is always logically equivalent to a query written using inner join -- that is, it will return the exact same data. In addition, the execution plan that MySQL generates is usually identical, as can be verified with explain. –  Matt Fenwick May 4 '12 at 15:45
    
@Danosaure I may have slightly misunderstood your issue. Could you clarify? Is it not enough that the queries are logically equivalent? –  Matt Fenwick May 4 '12 at 15:59
    
My concern was the "usually". What I understand from your answer is that sqlalchemy gives this select statement because it knows it uses MySQL and that MySQL will "optimize" the query for the execution plan? If so, wouldn't it have been just simpler to always use SQL-92 join syntax? –  Danosaure May 4 '12 at 17:45
1  
lazyloading doesn't use a join first because in the vast majority of cases it's loading from exactly one table. in the less common case of a "secondary" table being present, it uses a natural join which keeps things simple. there should be no significant optimization differences. running EXPLAIN is your best bet. –  zzzeek May 6 '12 at 15:07
show 4 more comments

Your Answer

 
discard

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.