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.. _sqlite3:
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Using SQLite 3 with Flask
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=========================
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In Flask you can implement the opening of database connections on demand
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and closing it when the context dies (usually at the end of the request)
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easily.
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Here is a simple example of how you can use SQLite 3 with Flask::
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import sqlite3
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from flask import _app_ctx_stack
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DATABASE = '/path/to/database.db'
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def get_db():
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top = _app_ctx_stack.top
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if not hasattr(top, 'sqlite_db'):
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top.sqlite_db = sqlite3.connect(DATABASE)
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return top.sqlite_db
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@app.teardown_appcontext
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def close_connection(exception):
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top = _app_ctx_stack.top
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if hasattr(top, 'sqlite_db'):
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top.sqlite_db.close()
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All the application needs to do in order to now use the database is having
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an active application context (which is always true if there is an request
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in flight) or to create an application context itself. At that point the
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``get_db`` function can be used to get the current database connection.
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Whenever the context is destroyed the database connection will be
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terminated.
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Example::
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@app.route('/')
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def index():
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cur = get_db().cursor()
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...
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.. note::
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Please keep in mind that the teardown request and appcontext functions
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are always executed, even if a before-request handler failed or was
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never executed. Because of this we have to make sure here that the
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database is there before we close it.
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Connect on Demand
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-----------------
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The upside of this approach (connecting on first use) is that this will
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only opening the connection if truly necessary. If you want to use this
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code outside a request context you can use it in a Python shell by opening
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the application context by hand::
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with app.app_context():
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# now you can use get_db()
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.. _easy-querying:
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Easy Querying
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-------------
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Now in each request handling function you can access `g.db` to get the
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current open database connection. To simplify working with SQLite, a
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row factory function is useful. It is executed for every result returned
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from the database to convert the result. For instance in order to get
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dictionaries instead of tuples this can be used::
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def make_dicts(cursor, row):
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return dict((cur.description[idx][0], value)
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for idx, value in enumerate(row))
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db.row_factory = make_dicts
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Additionally it is a good idea to provide a query function that combines
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getting the cursor, executing and fetching the results::
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def query_db(query, args=(), one=False):
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cur = get_db().execute(query, args)
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rv = cur.fetchall()
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cur.close()
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return (rv[0] if rv else None) if one else rv
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This handy little function in combination with a row factory makes working
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with the database much more pleasant than it is by just using the raw
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cursor and connection objects.
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Here is how you can use it::
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for user in query_db('select * from users'):
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print user['username'], 'has the id', user['user_id']
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Or if you just want a single result::
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user = query_db('select * from users where username = ?',
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[the_username], one=True)
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if user is None:
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print 'No such user'
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else:
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print the_username, 'has the id', user['user_id']
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To pass variable parts to the SQL statement, use a question mark in the
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statement and pass in the arguments as a list. Never directly add them to
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the SQL statement with string formatting because this makes it possible
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to attack the application using `SQL Injections
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<http://en.wikipedia.org/wiki/SQL_injection>`_.
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Initial Schemas
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---------------
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Relational databases need schemas, so applications often ship a
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`schema.sql` file that creates the database. It's a good idea to provide
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a function that creates the database based on that schema. This function
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can do that for you::
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def init_db():
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with app.app_context():
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db = get_db()
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with app.open_resource('schema.sql') as f:
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db.cursor().executescript(f.read())
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db.commit()
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You can then create such a database from the python shell:
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>>> from yourapplication import init_db
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>>> init_db()
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