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.. _sqlalchemy-pattern:
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SQLAlchemy in Flask
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===================
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Many people prefer `SQLAlchemy`_ for database access. In this case it's
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encouraged to use a package instead of a module for your flask application
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and drop the models into a separate module (:ref:`larger-applications`).
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While that is not necessary, it makes a lot of sense.
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There are four very common ways to use SQLAlchemy. I will outline each
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of them here:
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Flask-SQLAlchemy Extension
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--------------------------
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Because SQLAlchemy is a common database abstraction layer and object
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relational mapper that requires a little bit of configuration effort,
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there is a Flask extension that handles that for you. This is recommended
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if you want to get started quickly.
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You can download `Flask-SQLAlchemy`_ from `PyPI
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<https://pypi.org/project/Flask-SQLAlchemy/>`_.
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.. _Flask-SQLAlchemy: http://pythonhosted.org/Flask-SQLAlchemy/
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Declarative
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-----------
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The declarative extension in SQLAlchemy is the most recent method of using
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SQLAlchemy. It allows you to define tables and models in one go, similar
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to how Django works. In addition to the following text I recommend the
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official documentation on the `declarative`_ extension.
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Here's the example :file:`database.py` module for your application::
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from sqlalchemy import create_engine
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from sqlalchemy.orm import scoped_session, sessionmaker
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from sqlalchemy.ext.declarative import declarative_base
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engine = create_engine('sqlite:////tmp/test.db', convert_unicode=True)
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db_session = scoped_session(sessionmaker(autocommit=False,
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autoflush=False,
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bind=engine))
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Base = declarative_base()
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Base.query = db_session.query_property()
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def init_db():
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# import all modules here that might define models so that
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# they will be registered properly on the metadata. Otherwise
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# you will have to import them first before calling init_db()
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import yourapplication.models
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Base.metadata.create_all(bind=engine)
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To define your models, just subclass the `Base` class that was created by
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the code above. If you are wondering why we don't have to care about
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threads here (like we did in the SQLite3 example above with the
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:data:`~flask.g` object): that's because SQLAlchemy does that for us
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already with the :class:`~sqlalchemy.orm.scoped_session`.
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To use SQLAlchemy in a declarative way with your application, you just
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have to put the following code into your application module. Flask will
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automatically remove database sessions at the end of the request or
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when the application shuts down::
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from yourapplication.database import db_session
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@app.teardown_appcontext
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def shutdown_session(exception=None):
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db_session.remove()
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Here is an example model (put this into :file:`models.py`, e.g.)::
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from sqlalchemy import Column, Integer, String
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from yourapplication.database import Base
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class User(Base):
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__tablename__ = 'users'
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id = Column(Integer, primary_key=True)
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name = Column(String(50), unique=True)
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email = Column(String(120), unique=True)
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def __init__(self, name=None, email=None):
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self.name = name
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self.email = email
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def __repr__(self):
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return '<User %r>' % (self.name)
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To create the database you can use the `init_db` function:
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>>> from yourapplication.database import init_db
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>>> init_db()
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You can insert entries into the database like this:
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>>> from yourapplication.database import db_session
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>>> from yourapplication.models import User
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>>> u = User('admin', 'admin@localhost')
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>>> db_session.add(u)
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>>> db_session.commit()
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Querying is simple as well:
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>>> User.query.all()
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[<User u'admin'>]
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>>> User.query.filter(User.name == 'admin').first()
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<User u'admin'>
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.. _SQLAlchemy: http://www.sqlalchemy.org/
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.. _declarative:
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http://docs.sqlalchemy.org/en/latest/orm/extensions/declarative/
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Manual Object Relational Mapping
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--------------------------------
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Manual object relational mapping has a few upsides and a few downsides
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versus the declarative approach from above. The main difference is that
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you define tables and classes separately and map them together. It's more
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flexible but a little more to type. In general it works like the
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declarative approach, so make sure to also split up your application into
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multiple modules in a package.
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Here is an example :file:`database.py` module for your application::
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from sqlalchemy import create_engine, MetaData
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from sqlalchemy.orm import scoped_session, sessionmaker
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engine = create_engine('sqlite:////tmp/test.db', convert_unicode=True)
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metadata = MetaData()
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db_session = scoped_session(sessionmaker(autocommit=False,
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autoflush=False,
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bind=engine))
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def init_db():
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metadata.create_all(bind=engine)
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As in the declarative approach, you need to close the session after
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each request or application context shutdown. Put this into your
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application module::
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from yourapplication.database import db_session
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@app.teardown_appcontext
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def shutdown_session(exception=None):
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db_session.remove()
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Here is an example table and model (put this into :file:`models.py`)::
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from sqlalchemy import Table, Column, Integer, String
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from sqlalchemy.orm import mapper
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from yourapplication.database import metadata, db_session
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class User(object):
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query = db_session.query_property()
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def __init__(self, name=None, email=None):
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self.name = name
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self.email = email
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def __repr__(self):
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return '<User %r>' % (self.name)
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users = Table('users', metadata,
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Column('id', Integer, primary_key=True),
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Column('name', String(50), unique=True),
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Column('email', String(120), unique=True)
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)
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mapper(User, users)
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Querying and inserting works exactly the same as in the example above.
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SQL Abstraction Layer
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---------------------
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If you just want to use the database system (and SQL) abstraction layer
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you basically only need the engine::
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from sqlalchemy import create_engine, MetaData, Table
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engine = create_engine('sqlite:////tmp/test.db', convert_unicode=True)
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metadata = MetaData(bind=engine)
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Then you can either declare the tables in your code like in the examples
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above, or automatically load them::
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from sqlalchemy import Table
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users = Table('users', metadata, autoload=True)
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To insert data you can use the `insert` method. We have to get a
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connection first so that we can use a transaction:
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>>> con = engine.connect()
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>>> con.execute(users.insert(), name='admin', email='admin@localhost')
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SQLAlchemy will automatically commit for us.
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To query your database, you use the engine directly or use a connection:
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>>> users.select(users.c.id == 1).execute().first()
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(1, u'admin', u'admin@localhost')
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These results are also dict-like tuples:
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>>> r = users.select(users.c.id == 1).execute().first()
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>>> r['name']
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u'admin'
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You can also pass strings of SQL statements to the
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:meth:`~sqlalchemy.engine.base.Connection.execute` method:
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>>> engine.execute('select * from users where id = :1', [1]).first()
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(1, u'admin', u'admin@localhost')
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For more information about SQLAlchemy, head over to the
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`website <http://www.sqlalchemy.org/>`_.
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