Okay - I don't have an answer to the question as posed, but I do seem to have a workaround.
The issue appears to be with the proxying behaviour of the
scoped_session object. As I understand it, the
scoped_session() method takes a
sessionmaker object and uses that to create thread-local
session object. The
scoped_session() method, however, does not return this thread-local
session. Instead it returns a
scoped_session object that in some way (on which I'm not entirely clear) houses the thread-local
session. To access this thread-local session directly, you can do
scoped_session.registry(), or instead simply
scoped_session here is a
scoped_session object that has been returned by the
my_scoped_session = scoped_session(my_session_factory)
my_local_session = my_scoped_session()
Now here's the issue: the documentation seems to suggest that calls such as
my_local_session.query(...).all() are equivalent, thanks to the proxying behaviour of the
scoped_session object. I have found this to be true for the most part, however not so in my original problem case.
If you do
my_query = Query(...) (i.e. build a non-session bound query), and then attach that to a
scoped_session object (hoping to take advantage of the
scoped_session proxying machinery, such that
my_query is handled in the context of the
session), by way of
my_instances = my_query.with_session(my_scoped_session).all() or similar, you get the traceback in my original question.
My workaround is to skip over the
scoped_session object's proxying machinery altogether, and instead to bind the
my_query directly to
my_query = Query(...).filter(...).sort(...)
my_instances = my_query.with_session(my_local_session).all()
This seems to work out. If, however, anyone would care to chime in on the dangers (if any?) of working with
scoped_session(my_session_factory)() directly, rather than with
scoped_session(my_session_factory) (which most online tutorials seem to do), then I'd be grateful!