postgresql_where is useful to get around the (in my opinion wrong, but apparently the SQL standard defines it) way in which Postgres defines unique-ness, where Null values are always unique. A typical example is shown below, where no item can have identical name+purpose+batch_id values (and None/Null is considered one unique value due to the second Index).
class Item(StoredObject, Base): batch_id = Column(Integer, ForeignKey('batch.id')) group_id = Column(Integer, ForeignKey('group.id')) name = Column(Text, nullable=False) purpose = Column(Text, nullable=False, default="") __table_args__ = ( Index('idx_batch_has_value', 'group_id', 'name', 'purpose', 'batch_id', unique=True, postgresql_where=(batch_id.isnot(None))), Index('idx_batch_has_no_value', 'group_id', 'name', 'purpose', unique=True, postgresql_where=(batch_id.is_(None))), )
However, I want the same behaviour across two ids (batch_id and group_id), that is to say that no item can have identical name+purpose+batch_id+group_id values (None/Null is considered one unique value in both batch_id and group_id).
I can workaround this by creating a 'default' batch/group object with a fixed ID (say 0). This means I'd have to ensure that batch/group object exists, cannot be deleted, and that that id doesn't get re-appropriated for another 'real' batch/group objects (not to mention I'd have to remember to reduce all counts by one when using/writing functions which count how many batches/groups I have).
Do-able, and I'm about to do it now, but there must be a better way! Is there something like:-
postgresql_where = (batch_id.isnot(None) AND group_id.isnot(None))
That would solve the problem where, in my opinion, it is meant to be solved, in the DB rather than in my model and/or initialization code.