I'm trying to implement a self-referential many-to-many relationship using declarative on SQLAlchemy.

The relationship represents friendship between two users. Online I've found (both in the documentation and Google) how to make a self-referential m2m relationship where somehow the roles are differentiated. This means that in this m2m relationships UserA is, for example, UserB's boss, so he lists him under a 'subordinates' attribute or what have you. In the same way UserB lists UserA under 'superiors'.

This constitutes no problem, because we can declare a backref to the same table in this way:

subordinates = relationship('User', backref='superiors')

So there, of course, the 'superiors' attribute is not explicit within the class.

Anyway, here's my problem: what if I want to backref to the same attribute where I'm calling the backref? Like this:

friends = relationship('User',
                       secondary=friendship, #this is the table that breaks the m2m

This makes sense, because if A befriends B the relationship roles are the same, and if I invoke B's friends I should get a list with A in it. This is the problematic code in full:

friendship = Table(
    'friendships', Base.metadata,
    Column('friend_a_id', Integer, ForeignKey('users.id'), primary_key=True),
    Column('friend_b_id', Integer, ForeignKey('users.id'), primary_key=True)

class User(Base):
    __tablename__ = 'users'

    id = Column(Integer, primary_key=True)

    friends = relationship('User',
                           #HELP NEEDED HERE

Sorry if this is too much text, I just want to be as explicit as I can with this. I can't seem to find any reference material to this on the web.


Here's the UNION approach I hinted at on the mailing list earlier today.

from sqlalchemy import Integer, Table, Column, ForeignKey, \
    create_engine, String, select
from sqlalchemy.orm import Session, relationship
from sqlalchemy.ext.declarative import declarative_base

Base= declarative_base()

friendship = Table(
    'friendships', Base.metadata,
    Column('friend_a_id', Integer, ForeignKey('users.id'), 
    Column('friend_b_id', Integer, ForeignKey('users.id'), 

class User(Base):
    __tablename__ = 'users'

    id = Column(Integer, primary_key=True)
    name = Column(String)

    # this relationship is used for persistence
    friends = relationship("User", secondary=friendship, 

    def __repr__(self):
        return "User(%r)" % self.name

# this relationship is viewonly and selects across the union of all
# friends
friendship_union = select([
User.all_friends = relationship('User',

e = create_engine("sqlite://",echo=True)
s = Session(e)

u1, u2, u3, u4, u5 = User(name='u1'), User(name='u2'), \
                    User(name='u3'), User(name='u4'), User(name='u5')

u1.friends = [u2, u3]
u4.friends = [u2, u5]
s.add_all([u1, u2, u3, u4, u5])

print u2.all_friends
print u5.all_friends
  • This seems to be a bit error-prone: you can accidentally append to all_friends and you won't get any warning. Any suggestions? – Vladimir Keleshev Nov 20 '13 at 13:16
  • Also this allows for duplicate friendships with swapped ids (like 1, 2 and 2, 1). You can put a constraint that one id is greater than another, but then you need to keep track of which users can be appended to which users friends attribute. – Vladimir Keleshev Nov 20 '13 at 13:53
  • 1
    viewonly=True has no bearing on the behavior of the collection in Python. If you're truly concerned about appends to this collection, you can use collection_cls and apply a list or set type that has the mutation methods overridden to throw a NotImplementedError or similar. – zzzeek Nov 20 '13 at 14:55
  • as far as 1->2 + 2->1, different systems can take different opinions on this. In the example above, it won't cause any "problems" directly because User.all_friends when it populates will de-duplicate User objects based on identity. A real-world "friends" system may want to apply additional data onto each "friend" relationship - User 1 may say (s)he knows User 2 via "work", whereas User 2 might report knowing User 1 via "school", and the system might want to store both of those facts, e.g. this is a directed graph. (cont) – zzzeek Nov 20 '13 at 15:04
  • 1
    If OTOH you want to limit it to one edge between any two User objects, it could be as easy as applying a SQL-level constraint (though this would require a SELECT-per-insert and I might be concerned about performance), and on the Python side you just check the "all_friends" collection upon append using an append event – zzzeek Nov 20 '13 at 15:05

I needed to solve this same problem and messed about quite a lot with self referential many-to-many relationship wherein I was also subclassing the User class with a Friend class and running into sqlalchemy.orm.exc.FlushError. In the end instead of creating a self referential many-to-many relationship, I created a self referential one-to-many relationship using a join table (or secondary table).

If you think about it, with self referential objects, one-to-many IS many-to-many. It solved the issue of the backref in the original question.

I also have a gisted working example if you want to see it in action. Also it looks like github formats gists containing ipython notebooks now. Neat.

friendship = Table(
    'friendships', Base.metadata,
    Column('user_id', Integer, ForeignKey('users.id'), index=True),
    Column('friend_id', Integer, ForeignKey('users.id')),
    UniqueConstraint('user_id', 'friend_id', name='unique_friendships'))

class User(Base):
    __tablename__ = 'users'

    id = Column(Integer, primary_key=True)
    name = Column(String(255))

    friends = relationship('User',

    def befriend(self, friend):
        if friend not in self.friends:

    def unfriend(self, friend):
        if friend in self.friends:

    def __repr__(self):
        return '<User(name=|%s|)>' % self.name

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