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.

Can someone explain, how can I avoid application freezing when I, for example, have a list of entities and an ability to move to detail pages. So, I open the list, and one sqlalchemy session starts, then I open one detail page and another one goes, then another one, and application freeze, because one session blocks another. I cannot use one session for whole application, because I then can't say, that something was edited on form by just checking out session.dirty, new, deleted attributes and application state handling becomes the hell of fragile unreadable code.

Do I need to implement some another kind of session handling policy? Do I need to tune sqlalchemy mapping or sql server?

Here is the minimal working example:

from sqlalchemy import MetaData, Table, Column, FetchedValue, ForeignKey, create_engine
from sqlalchemy.types import BigInteger, String
from sqlalchemy.orm import mapper, relationship, sessionmaker, Session

class Ref(object):
    id = None
    name = None
    id_parent = None

class TableMapper(object):

    def __init__(self, metadata, mapped_type):
        self._table = None
        self._mapped_type = mapped_type

    def get_table(self):
        return self._table

    def set_table(self, table):
        assert isinstance(table, Table)
        self._table = table

class RefTableMapper(TableMapper):

    def __init__(self, metadata):
        TableMapper.__init__(self, metadata, Ref)
        self.set_table(Table('Ref', metadata,
                             Column('id', BigInteger,
                                    primary_key = True, nullable = False),
                             Column('name', String),
                             Column('id_parent', BigInteger,
                                    ForeignKey('Ref.id'))
                             ))
    def map_table(self):
        r_parent = relationship(Ref,
                            uselist = False,
                            remote_side = [self._table.c.id],
                            primaryjoin = (
                                self._table.c.id_parent == self._table.c.id))
        mapper(Ref, self._table,
               properties = {'parent': r_parent})
        return self._table

class Mapper(object):

    def __init__(self, url, echo = False):
        self._engine = create_engine(url, echo = echo)
        self._metadata = MetaData(self._engine)
        self._Session = sessionmaker(bind = self._engine, autoflush = False)
        ref_t = RefTableMapper(self._metadata).map_table()

    def create_session(self):
        return self._Session()

if __name__ == '__main__':
    mapp = Mapper(r'mssql://username:pwd@Server\SQLEXPRESS/DBName', True)
    s = mapp.create_session()

    rr = s.query(Ref).all()

    s1 = mapp.create_session()
    merged = s1.merge(rr)
    merged.flush()

    s2 = mapp.create_session()
    rr1 = s2.query(Ref).all() #application freezes! 
share|improve this question

1 Answer 1

up vote 1 down vote accepted

SQL Server's default isolation mode locks entire tables very aggressively. (The above example seems like perhaps you're emitting an UPDATE and then emitting SELECT in a different transaction while the previous transaction is pending, though session.merge() does not accept a list and the contents of the table aren't specified above so its difficult to say).

Anyway, it's typical practice to enable multi-version concurrency control (SQL server calls it "row versioning") so that it has reasonable ability to lock individual rows against each other instead of full tables:

ALTER DATABASE MyDatabase SET ALLOW_SNAPSHOT_ISOLATION ON

ALTER DATABASE MyDatabase SET READ_COMMITTED_SNAPSHOT ON

Detail on this is available at http://msdn.microsoft.com/en-us/library/ms175095.aspx .

share|improve this answer

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.