552 lines
20 KiB
Python
552 lines
20 KiB
Python
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"""
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Introduction
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============
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SqlSoup provides a convenient way to access existing database tables without
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having to declare table or mapper classes ahead of time. It is built on top of the SQLAlchemy ORM and provides a super-minimalistic interface to an existing database.
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Suppose we have a database with users, books, and loans tables
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(corresponding to the PyWebOff dataset, if you're curious).
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Creating a SqlSoup gateway is just like creating an SQLAlchemy
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engine::
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>>> from sqlalchemy.ext.sqlsoup import SqlSoup
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>>> db = SqlSoup('sqlite:///:memory:')
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or, you can re-use an existing engine::
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>>> db = SqlSoup(engine)
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You can optionally specify a schema within the database for your
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SqlSoup::
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>>> db.schema = myschemaname
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Loading objects
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===============
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Loading objects is as easy as this::
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>>> users = db.users.all()
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>>> users.sort()
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>>> users
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[MappedUsers(name=u'Joe Student',email=u'student@example.edu',password=u'student',classname=None,admin=0), MappedUsers(name=u'Bhargan Basepair',email=u'basepair@example.edu',password=u'basepair',classname=None,admin=1)]
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Of course, letting the database do the sort is better::
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>>> db.users.order_by(db.users.name).all()
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[MappedUsers(name=u'Bhargan Basepair',email=u'basepair@example.edu',password=u'basepair',classname=None,admin=1), MappedUsers(name=u'Joe Student',email=u'student@example.edu',password=u'student',classname=None,admin=0)]
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Field access is intuitive::
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>>> users[0].email
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u'student@example.edu'
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Of course, you don't want to load all users very often. Let's add a
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WHERE clause. Let's also switch the order_by to DESC while we're at
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it::
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>>> from sqlalchemy import or_, and_, desc
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>>> where = or_(db.users.name=='Bhargan Basepair', db.users.email=='student@example.edu')
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>>> db.users.filter(where).order_by(desc(db.users.name)).all()
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[MappedUsers(name=u'Joe Student',email=u'student@example.edu',password=u'student',classname=None,admin=0), MappedUsers(name=u'Bhargan Basepair',email=u'basepair@example.edu',password=u'basepair',classname=None,admin=1)]
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You can also use .first() (to retrieve only the first object from a query) or
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.one() (like .first when you expect exactly one user -- it will raise an
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exception if more were returned)::
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>>> db.users.filter(db.users.name=='Bhargan Basepair').one()
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MappedUsers(name=u'Bhargan Basepair',email=u'basepair@example.edu',password=u'basepair',classname=None,admin=1)
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Since name is the primary key, this is equivalent to
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>>> db.users.get('Bhargan Basepair')
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MappedUsers(name=u'Bhargan Basepair',email=u'basepair@example.edu',password=u'basepair',classname=None,admin=1)
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This is also equivalent to
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>>> db.users.filter_by(name='Bhargan Basepair').one()
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MappedUsers(name=u'Bhargan Basepair',email=u'basepair@example.edu',password=u'basepair',classname=None,admin=1)
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filter_by is like filter, but takes kwargs instead of full clause expressions.
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This makes it more concise for simple queries like this, but you can't do
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complex queries like the or\_ above or non-equality based comparisons this way.
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Full query documentation
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------------------------
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Get, filter, filter_by, order_by, limit, and the rest of the
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query methods are explained in detail in :ref:`ormtutorial_querying`.
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Modifying objects
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=================
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Modifying objects is intuitive::
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>>> user = _
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>>> user.email = 'basepair+nospam@example.edu'
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>>> db.commit()
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(SqlSoup leverages the sophisticated SQLAlchemy unit-of-work code, so
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multiple updates to a single object will be turned into a single
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``UPDATE`` statement when you commit.)
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To finish covering the basics, let's insert a new loan, then delete
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it::
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>>> book_id = db.books.filter_by(title='Regional Variation in Moss').first().id
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>>> db.loans.insert(book_id=book_id, user_name=user.name)
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MappedLoans(book_id=2,user_name=u'Bhargan Basepair',loan_date=None)
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>>> loan = db.loans.filter_by(book_id=2, user_name='Bhargan Basepair').one()
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>>> db.delete(loan)
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>>> db.commit()
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You can also delete rows that have not been loaded as objects. Let's
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do our insert/delete cycle once more, this time using the loans
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table's delete method. (For SQLAlchemy experts: note that no flush()
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call is required since this delete acts at the SQL level, not at the
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Mapper level.) The same where-clause construction rules apply here as
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to the select methods.
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::
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>>> db.loans.insert(book_id=book_id, user_name=user.name)
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MappedLoans(book_id=2,user_name=u'Bhargan Basepair',loan_date=None)
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>>> db.loans.delete(db.loans.book_id==2)
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You can similarly update multiple rows at once. This will change the
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book_id to 1 in all loans whose book_id is 2::
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>>> db.loans.update(db.loans.book_id==2, book_id=1)
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>>> db.loans.filter_by(book_id=1).all()
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[MappedLoans(book_id=1,user_name=u'Joe Student',loan_date=datetime.datetime(2006, 7, 12, 0, 0))]
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Joins
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=====
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Occasionally, you will want to pull out a lot of data from related
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tables all at once. In this situation, it is far more efficient to
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have the database perform the necessary join. (Here we do not have *a
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lot of data* but hopefully the concept is still clear.) SQLAlchemy is
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smart enough to recognize that loans has a foreign key to users, and
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uses that as the join condition automatically.
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::
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>>> join1 = db.join(db.users, db.loans, isouter=True)
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>>> join1.filter_by(name='Joe Student').all()
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[MappedJoin(name=u'Joe Student',email=u'student@example.edu',password=u'student',classname=None,admin=0,book_id=1,user_name=u'Joe Student',loan_date=datetime.datetime(2006, 7, 12, 0, 0))]
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If you're unfortunate enough to be using MySQL with the default MyISAM
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storage engine, you'll have to specify the join condition manually,
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since MyISAM does not store foreign keys. Here's the same join again,
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with the join condition explicitly specified::
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>>> db.join(db.users, db.loans, db.users.name==db.loans.user_name, isouter=True)
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<class 'sqlalchemy.ext.sqlsoup.MappedJoin'>
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You can compose arbitrarily complex joins by combining Join objects
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with tables or other joins. Here we combine our first join with the
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books table::
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>>> join2 = db.join(join1, db.books)
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>>> join2.all()
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[MappedJoin(name=u'Joe Student',email=u'student@example.edu',password=u'student',classname=None,admin=0,book_id=1,user_name=u'Joe Student',loan_date=datetime.datetime(2006, 7, 12, 0, 0),id=1,title=u'Mustards I Have Known',published_year=u'1989',authors=u'Jones')]
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If you join tables that have an identical column name, wrap your join
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with `with_labels`, to disambiguate columns with their table name
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(.c is short for .columns)::
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>>> db.with_labels(join1).c.keys()
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[u'users_name', u'users_email', u'users_password', u'users_classname', u'users_admin', u'loans_book_id', u'loans_user_name', u'loans_loan_date']
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You can also join directly to a labeled object::
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>>> labeled_loans = db.with_labels(db.loans)
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>>> db.join(db.users, labeled_loans, isouter=True).c.keys()
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[u'name', u'email', u'password', u'classname', u'admin', u'loans_book_id', u'loans_user_name', u'loans_loan_date']
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Relationships
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=============
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You can define relationships on SqlSoup classes:
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>>> db.users.relate('loans', db.loans)
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These can then be used like a normal SA property:
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>>> db.users.get('Joe Student').loans
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[MappedLoans(book_id=1,user_name=u'Joe Student',loan_date=datetime.datetime(2006, 7, 12, 0, 0))]
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>>> db.users.filter(~db.users.loans.any()).all()
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[MappedUsers(name=u'Bhargan Basepair',email='basepair+nospam@example.edu',password=u'basepair',classname=None,admin=1)]
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relate can take any options that the relationship function accepts in normal mapper definition:
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>>> del db._cache['users']
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>>> db.users.relate('loans', db.loans, order_by=db.loans.loan_date, cascade='all, delete-orphan')
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Advanced Use
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============
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Sessions, Transations and Application Integration
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-------------------------------------------------
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**Note:** please read and understand this section thoroughly before using SqlSoup in any web application.
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SqlSoup uses a ScopedSession to provide thread-local sessions. You
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can get a reference to the current one like this::
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>>> session = db.session
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The default session is available at the module level in SQLSoup, via::
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>>> from sqlalchemy.ext.sqlsoup import Session
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The configuration of this session is ``autoflush=True``, ``autocommit=False``.
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This means when you work with the SqlSoup object, you need to call ``db.commit()``
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in order to have changes persisted. You may also call ``db.rollback()`` to
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roll things back.
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Since the SqlSoup object's Session automatically enters into a transaction as soon
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as it's used, it is *essential* that you call ``commit()`` or ``rollback()``
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on it when the work within a thread completes. This means all the guidelines
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for web application integration at :ref:`session_lifespan` must be followed.
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The SqlSoup object can have any session or scoped session configured onto it.
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This is of key importance when integrating with existing code or frameworks
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such as Pylons. If your application already has a ``Session`` configured,
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pass it to your SqlSoup object::
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>>> from myapplication import Session
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>>> db = SqlSoup(session=Session)
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If the ``Session`` is configured with ``autocommit=True``, use ``flush()``
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instead of ``commit()`` to persist changes - in this case, the ``Session``
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closes out its transaction immediately and no external management is needed. ``rollback()`` is also not available. Configuring a new SQLSoup object in "autocommit" mode looks like::
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>>> from sqlalchemy.orm import scoped_session, sessionmaker
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>>> db = SqlSoup('sqlite://', session=scoped_session(sessionmaker(autoflush=False, expire_on_commit=False, autocommit=True)))
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Mapping arbitrary Selectables
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-----------------------------
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SqlSoup can map any SQLAlchemy ``Selectable`` with the map
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method. Let's map a ``Select`` object that uses an aggregate function;
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we'll use the SQLAlchemy ``Table`` that SqlSoup introspected as the
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basis. (Since we're not mapping to a simple table or join, we need to
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tell SQLAlchemy how to find the *primary key* which just needs to be
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unique within the select, and not necessarily correspond to a *real*
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PK in the database.)
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::
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>>> from sqlalchemy import select, func
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>>> b = db.books._table
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>>> s = select([b.c.published_year, func.count('*').label('n')], from_obj=[b], group_by=[b.c.published_year])
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>>> s = s.alias('years_with_count')
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>>> years_with_count = db.map(s, primary_key=[s.c.published_year])
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>>> years_with_count.filter_by(published_year='1989').all()
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[MappedBooks(published_year=u'1989',n=1)]
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Obviously if we just wanted to get a list of counts associated with
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book years once, raw SQL is going to be less work. The advantage of
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mapping a Select is reusability, both standalone and in Joins. (And if
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you go to full SQLAlchemy, you can perform mappings like this directly
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to your object models.)
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An easy way to save mapped selectables like this is to just hang them on
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your db object::
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>>> db.years_with_count = years_with_count
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Python is flexible like that!
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Raw SQL
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-------
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SqlSoup works fine with SQLAlchemy's text construct, described in :ref:`sqlexpression_text`.
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You can also execute textual SQL directly using the `execute()` method,
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which corresponds to the `execute()` method on the underlying `Session`.
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Expressions here are expressed like ``text()`` constructs, using named parameters
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with colons::
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>>> rp = db.execute('select name, email from users where name like :name order by name', name='%Bhargan%')
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>>> for name, email in rp.fetchall(): print name, email
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Bhargan Basepair basepair+nospam@example.edu
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Or you can get at the current transaction's connection using `connection()`. This is the
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raw connection object which can accept any sort of SQL expression or raw SQL string passed to the database::
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>>> conn = db.connection()
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>>> conn.execute("'select name, email from users where name like ? order by name'", '%Bhargan%')
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Dynamic table names
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-------------------
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You can load a table whose name is specified at runtime with the entity() method:
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>>> tablename = 'loans'
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>>> db.entity(tablename) == db.loans
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True
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entity() also takes an optional schema argument. If none is specified, the
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default schema is used.
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"""
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from sqlalchemy import Table, MetaData, join
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from sqlalchemy import schema, sql
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from sqlalchemy.engine.base import Engine
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from sqlalchemy.orm import scoped_session, sessionmaker, mapper, \
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class_mapper, relationship, session,\
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object_session
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from sqlalchemy.orm.interfaces import MapperExtension, EXT_CONTINUE
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from sqlalchemy.exceptions import SQLAlchemyError, InvalidRequestError, ArgumentError
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from sqlalchemy.sql import expression
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__all__ = ['PKNotFoundError', 'SqlSoup']
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Session = scoped_session(sessionmaker(autoflush=True, autocommit=False))
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class AutoAdd(MapperExtension):
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def __init__(self, scoped_session):
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self.scoped_session = scoped_session
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def instrument_class(self, mapper, class_):
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class_.__init__ = self._default__init__(mapper)
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def _default__init__(ext, mapper):
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def __init__(self, **kwargs):
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for key, value in kwargs.iteritems():
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setattr(self, key, value)
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return __init__
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def init_instance(self, mapper, class_, oldinit, instance, args, kwargs):
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session = self.scoped_session()
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session._save_without_cascade(instance)
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return EXT_CONTINUE
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def init_failed(self, mapper, class_, oldinit, instance, args, kwargs):
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sess = object_session(instance)
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if sess:
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sess.expunge(instance)
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return EXT_CONTINUE
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class PKNotFoundError(SQLAlchemyError):
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pass
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def _ddl_error(cls):
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msg = 'SQLSoup can only modify mapped Tables (found: %s)' \
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% cls._table.__class__.__name__
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raise InvalidRequestError(msg)
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# metaclass is necessary to expose class methods with getattr, e.g.
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# we want to pass db.users.select through to users._mapper.select
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class SelectableClassType(type):
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def insert(cls, **kwargs):
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_ddl_error(cls)
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def __clause_element__(cls):
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return cls._table
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def __getattr__(cls, attr):
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if attr == '_query':
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# called during mapper init
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raise AttributeError()
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return getattr(cls._query, attr)
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class TableClassType(SelectableClassType):
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def insert(cls, **kwargs):
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o = cls()
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o.__dict__.update(kwargs)
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return o
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def relate(cls, propname, *args, **kwargs):
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class_mapper(cls)._configure_property(propname, relationship(*args, **kwargs))
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def _is_outer_join(selectable):
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if not isinstance(selectable, sql.Join):
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return False
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if selectable.isouter:
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return True
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return _is_outer_join(selectable.left) or _is_outer_join(selectable.right)
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def _selectable_name(selectable):
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if isinstance(selectable, sql.Alias):
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return _selectable_name(selectable.element)
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elif isinstance(selectable, sql.Select):
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return ''.join(_selectable_name(s) for s in selectable.froms)
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elif isinstance(selectable, schema.Table):
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return selectable.name.capitalize()
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else:
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x = selectable.__class__.__name__
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||
|
if x[0] == '_':
|
||
|
x = x[1:]
|
||
|
return x
|
||
|
|
||
|
def _class_for_table(session, engine, selectable, **mapper_kwargs):
|
||
|
selectable = expression._clause_element_as_expr(selectable)
|
||
|
mapname = 'Mapped' + _selectable_name(selectable)
|
||
|
# Py2K
|
||
|
if isinstance(mapname, unicode):
|
||
|
engine_encoding = engine.dialect.encoding
|
||
|
mapname = mapname.encode(engine_encoding)
|
||
|
# end Py2K
|
||
|
|
||
|
if isinstance(selectable, Table):
|
||
|
klass = TableClassType(mapname, (object,), {})
|
||
|
else:
|
||
|
klass = SelectableClassType(mapname, (object,), {})
|
||
|
|
||
|
def _compare(self, o):
|
||
|
L = list(self.__class__.c.keys())
|
||
|
L.sort()
|
||
|
t1 = [getattr(self, k) for k in L]
|
||
|
try:
|
||
|
t2 = [getattr(o, k) for k in L]
|
||
|
except AttributeError:
|
||
|
raise TypeError('unable to compare with %s' % o.__class__)
|
||
|
return t1, t2
|
||
|
|
||
|
# python2/python3 compatible system of
|
||
|
# __cmp__ - __lt__ + __eq__
|
||
|
|
||
|
def __lt__(self, o):
|
||
|
t1, t2 = _compare(self, o)
|
||
|
return t1 < t2
|
||
|
|
||
|
def __eq__(self, o):
|
||
|
t1, t2 = _compare(self, o)
|
||
|
return t1 == t2
|
||
|
|
||
|
def __repr__(self):
|
||
|
L = ["%s=%r" % (key, getattr(self, key, ''))
|
||
|
for key in self.__class__.c.keys()]
|
||
|
return '%s(%s)' % (self.__class__.__name__, ','.join(L))
|
||
|
|
||
|
for m in ['__eq__', '__repr__', '__lt__']:
|
||
|
setattr(klass, m, eval(m))
|
||
|
klass._table = selectable
|
||
|
klass.c = expression.ColumnCollection()
|
||
|
mappr = mapper(klass,
|
||
|
selectable,
|
||
|
extension=AutoAdd(session),
|
||
|
**mapper_kwargs)
|
||
|
|
||
|
for k in mappr.iterate_properties:
|
||
|
klass.c[k.key] = k.columns[0]
|
||
|
|
||
|
klass._query = session.query_property()
|
||
|
return klass
|
||
|
|
||
|
class SqlSoup(object):
|
||
|
def __init__(self, engine_or_metadata, **kw):
|
||
|
"""Initialize a new ``SqlSoup``.
|
||
|
|
||
|
`args` may either be an ``SQLEngine`` or a set of arguments
|
||
|
suitable for passing to ``create_engine``.
|
||
|
"""
|
||
|
|
||
|
self.session = kw.pop('session', Session)
|
||
|
|
||
|
if isinstance(engine_or_metadata, MetaData):
|
||
|
self._metadata = engine_or_metadata
|
||
|
elif isinstance(engine_or_metadata, (basestring, Engine)):
|
||
|
self._metadata = MetaData(engine_or_metadata)
|
||
|
else:
|
||
|
raise ArgumentError("invalid engine or metadata argument %r" % engine_or_metadata)
|
||
|
|
||
|
self._cache = {}
|
||
|
self.schema = None
|
||
|
|
||
|
@property
|
||
|
def engine(self):
|
||
|
return self._metadata.bind
|
||
|
|
||
|
bind = engine
|
||
|
|
||
|
def delete(self, *args, **kwargs):
|
||
|
self.session.delete(*args, **kwargs)
|
||
|
|
||
|
def execute(self, stmt, **params):
|
||
|
return self.session.execute(sql.text(stmt, bind=self.bind), **params)
|
||
|
|
||
|
@property
|
||
|
def _underlying_session(self):
|
||
|
if isinstance(self.session, session.Session):
|
||
|
return self.session
|
||
|
else:
|
||
|
return self.session()
|
||
|
|
||
|
def connection(self):
|
||
|
return self._underlying_session._connection_for_bind(self.bind)
|
||
|
|
||
|
def flush(self):
|
||
|
self.session.flush()
|
||
|
|
||
|
def rollback(self):
|
||
|
self.session.rollback()
|
||
|
|
||
|
def commit(self):
|
||
|
self.session.commit()
|
||
|
|
||
|
def clear(self):
|
||
|
self.session.expunge_all()
|
||
|
|
||
|
def expunge(self, *args, **kw):
|
||
|
self.session.expunge(*args, **kw)
|
||
|
|
||
|
def expunge_all(self):
|
||
|
self.session.expunge_all()
|
||
|
|
||
|
def map(self, selectable, **kwargs):
|
||
|
try:
|
||
|
t = self._cache[selectable]
|
||
|
except KeyError:
|
||
|
t = _class_for_table(self.session, self.engine, selectable, **kwargs)
|
||
|
self._cache[selectable] = t
|
||
|
return t
|
||
|
|
||
|
def with_labels(self, item):
|
||
|
# TODO give meaningful aliases
|
||
|
return self.map(
|
||
|
expression._clause_element_as_expr(item).
|
||
|
select(use_labels=True).
|
||
|
alias('foo'))
|
||
|
|
||
|
def join(self, *args, **kwargs):
|
||
|
j = join(*args, **kwargs)
|
||
|
return self.map(j)
|
||
|
|
||
|
def entity(self, attr, schema=None):
|
||
|
try:
|
||
|
t = self._cache[attr]
|
||
|
except KeyError, ke:
|
||
|
table = Table(attr, self._metadata, autoload=True, autoload_with=self.bind, schema=schema or self.schema)
|
||
|
if not table.primary_key.columns:
|
||
|
raise PKNotFoundError('table %r does not have a primary key defined [columns: %s]' % (attr, ','.join(table.c.keys())))
|
||
|
if table.columns:
|
||
|
t = _class_for_table(self.session, self.engine, table)
|
||
|
else:
|
||
|
t = None
|
||
|
self._cache[attr] = t
|
||
|
return t
|
||
|
|
||
|
def __getattr__(self, attr):
|
||
|
return self.entity(attr)
|
||
|
|
||
|
def __repr__(self):
|
||
|
return 'SqlSoup(%r)' % self._metadata
|
||
|
|