I want to do something like this:
f = Foo(bar='x') session.add(f) session.flush() # do additional queries using f.id before commit() print f.id # should be not None session.commit()
None when I try it. How can I get this to work?
I've just run across the same problem, and after testing I have found that NONE of these answers are sufficient.
Currently, or as of sqlalchemy .6+, there is a very simple solution (I don't know if this exists in prior version, though I imagine it does):
So, your code would look something like this:
f = Foo(bar=x) session.add(f) session.flush() # At this point, the object f has been pushed to the DB, # and has been automatically assigned a unique primary key id f.id # is None session.refresh(f) # refresh updates given object in the session with its state in the DB # (and can also only refresh certain attributes - search for documentation) f.id # is the automatically assigned primary key ID given in the database.
That's how to do it.
Your sample code should have worked as it is. SQLAlchemy should be providing a value for
f.id, assuming its an autogenerating primary-key column. Primary-key attributes are populated immediately within the
flush() process as they are generated, and no call to
commit() should be required. So the answer here lies in one or more of the following:
Thanks for everybody. I solved my problem by modifying the column mapping. For me,
autoincrement=True is required.
id = Column('ID', Integer, primary_key=True, nullable=False)
id = Column('ID', Integer, primary_key=True, autoincrement=True, nullable=True)
unlike the answer given by dpb, a refresh is not necessary. once you flush, you can access the id field, sqlalchemy automatically refreshes the id which is auto generated at the backend
I encountered this problem and figured the exact reason after some investigation, my model was created with id as integerfield and in my form the id was represented with hiddenfield( since i did not wanted to show the id in my form). The hidden field is by default represented as a text. once I changed the form to integerfield with widget=hiddenInput()) the problem was solved.
The last couple of hours/days/whatever, I was trying to get the above suggestions to work. Initially, I wrote all my insert functions like so:
_add = User(id, user_name, email, ...)
Where all the items between the round brackets are variables for None, "user a", "firstname.lastname@example.org", ...
This is my User table:
class User(Base): __tablename__ = "users" id = Column(Integer, primary_key=True, autoincrement=True) user_name = Column(String(50), unique=True, nullable=False) email = Column(String(100), unique=True, nullable=False)
SQLAlchemy handles the _add query correctly, as it inserts the record with an autoincremented ID. Also, as should be, no default value is set for the id column.
I have tried all the above options in various ways (with/without commit, with/without flush, with/without refresh, the one before the other, timeouts in between statements, you name it). I even changed the whole app/database interaction a couple of times. But in all occasions, "_add.id" would either return 0, or something like "Instance '' has been deleted, or its row is otherwise not present."
Just now I thought "maybe I should write my _add query a bit different, by also defining the column names for the specified table" like so:
_add = User(id=None, user_name=user_name, email=email, etc)
To emphasize, note: id=, user_name=, email=, in the _add query. Now, with the following statements in this order, SQLAlchemy does return the inserted ID!
session.add(_add) print(_add.id) <-- returns None session.flush() <-- does **not** insert record into database, but does increment id, waiting to be committed. Flush may be omitted, because session.commit() unconditionally issues session.flush()* print(_add.id) <-- returns incremented id session.commit() <-- commit is needed to actually insert record into database print(_add.id) <-- returns incremented id
Although the answer has been provided, it wasn't clear for me the missing column names in the _add query, and thus my laziness, were the cause of my problems. I hope this can help someone avoid the same troubleshoot...
The core solution has been mentioned in other much older answers, but this uses newer async API.
with sqlalchemy==1.4 (2.0 style), following seems to work:
from sqlalchemy.ext.asyncio import AsyncSession from sqlalchemy.ext.asyncio import create_async_engine engine = create_async_engine( "postgresql+asyncpg://user:pass@localhost/db", echo=False, ) # expire_on_commit=False will prevent attributes from being expired # after commit. async_session = sessionmaker( engine, expire_on_commit=False, class_=AsyncSession, ) # default kwarg autoflush=True async with async_session() as session: async with session.begin(): f = Foo(bar='x') session.add(f) print(f.id) # None await session.flush() print(f.id) # not None # commits transaction, closes session