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.. _extension-dev:
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Flask Extension Development
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===========================
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Flask, being a microframework, often requires some repetitive steps to get
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a third party library working. Because very often these steps could be
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abstracted to support multiple projects the `Flask Extension Registry`_
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was created.
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If you want to create your own Flask extension for something that does not
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exist yet, this guide to extension development will help you get your
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extension running in no time and to feel like users would expect your
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extension to behave.
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.. _Flask Extension Registry: http://flask.pocoo.org/extensions/
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Anatomy of an Extension
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-----------------------
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Extensions are all located in a package called ``flask_something``
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where "something" is the name of the library you want to bridge. So for
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example if you plan to add support for a library named `simplexml` to
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Flask, you would name your extension's package ``flask_simplexml``.
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The name of the actual extension (the human readable name) however would
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be something like "Flask-SimpleXML". Make sure to include the name
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"Flask" somewhere in that name and that you check the capitalization.
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This is how users can then register dependencies to your extension in
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their :file:`setup.py` files.
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Flask sets up a redirect package called :data:`flask.ext` where users
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should import the extensions from. If you for instance have a package
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called ``flask_something`` users would import it as
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``flask.ext.something``. This is done to transition from the old
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namespace packages. See :ref:`ext-import-transition` for more details.
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But what do extensions look like themselves? An extension has to ensure
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that it works with multiple Flask application instances at once. This is
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a requirement because many people will use patterns like the
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:ref:`app-factories` pattern to create their application as needed to aid
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unittests and to support multiple configurations. Because of that it is
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crucial that your application supports that kind of behavior.
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Most importantly the extension must be shipped with a :file:`setup.py` file and
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registered on PyPI. Also the development checkout link should work so
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that people can easily install the development version into their
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virtualenv without having to download the library by hand.
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Flask extensions must be licensed under a BSD, MIT or more liberal license
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to be able to be enlisted in the Flask Extension Registry. Keep in mind
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that the Flask Extension Registry is a moderated place and libraries will
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be reviewed upfront if they behave as required.
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"Hello Flaskext!"
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-----------------
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So let's get started with creating such a Flask extension. The extension
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we want to create here will provide very basic support for SQLite3.
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First we create the following folder structure::
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flask-sqlite3/
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flask_sqlite3.py
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LICENSE
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README
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Here's the contents of the most important files:
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setup.py
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````````
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The next file that is absolutely required is the :file:`setup.py` file which is
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used to install your Flask extension. The following contents are
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something you can work with::
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"""
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Flask-SQLite3
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-------------
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This is the description for that library
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"""
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from setuptools import setup
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setup(
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name='Flask-SQLite3',
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version='1.0',
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url='http://example.com/flask-sqlite3/',
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license='BSD',
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author='Your Name',
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author_email='your-email@example.com',
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description='Very short description',
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long_description=__doc__,
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py_modules=['flask_sqlite3'],
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# if you would be using a package instead use packages instead
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# of py_modules:
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# packages=['flask_sqlite3'],
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zip_safe=False,
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include_package_data=True,
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platforms='any',
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install_requires=[
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'Flask'
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],
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classifiers=[
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'Environment :: Web Environment',
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'Intended Audience :: Developers',
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'License :: OSI Approved :: BSD License',
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'Operating System :: OS Independent',
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'Programming Language :: Python',
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'Topic :: Internet :: WWW/HTTP :: Dynamic Content',
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'Topic :: Software Development :: Libraries :: Python Modules'
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]
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)
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That's a lot of code but you can really just copy/paste that from existing
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extensions and adapt.
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flask_sqlite3.py
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````````````````
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Now this is where your extension code goes. But how exactly should such
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an extension look like? What are the best practices? Continue reading
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for some insight.
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Initializing Extensions
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-----------------------
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Many extensions will need some kind of initialization step. For example,
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consider an application that's currently connecting to SQLite like the
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documentation suggests (:ref:`sqlite3`). So how does the extension
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know the name of the application object?
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Quite simple: you pass it to it.
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There are two recommended ways for an extension to initialize:
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initialization functions:
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If your extension is called `helloworld` you might have a function
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called ``init_helloworld(app[, extra_args])`` that initializes the
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extension for that application. It could attach before / after
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handlers etc.
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classes:
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Classes work mostly like initialization functions but can later be
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used to further change the behavior. For an example look at how the
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`OAuth extension`_ works: there is an `OAuth` object that provides
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some helper functions like `OAuth.remote_app` to create a reference to
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a remote application that uses OAuth.
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What to use depends on what you have in mind. For the SQLite 3 extension
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we will use the class-based approach because it will provide users with an
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object that handles opening and closing database connections.
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What's important about classes is that they encourage to be shared around
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on module level. In that case, the object itself must not under any
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circumstances store any application specific state and must be shareable
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between different application.
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The Extension Code
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------------------
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Here's the contents of the `flask_sqlite3.py` for copy/paste::
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import sqlite3
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from flask import current_app
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# Find the stack on which we want to store the database connection.
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# Starting with Flask 0.9, the _app_ctx_stack is the correct one,
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# before that we need to use the _request_ctx_stack.
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try:
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from flask import _app_ctx_stack as stack
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except ImportError:
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from flask import _request_ctx_stack as stack
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class SQLite3(object):
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def __init__(self, app=None):
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self.app = app
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if app is not None:
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self.init_app(app)
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def init_app(self, app):
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app.config.setdefault('SQLITE3_DATABASE', ':memory:')
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# Use the newstyle teardown_appcontext if it's available,
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# otherwise fall back to the request context
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if hasattr(app, 'teardown_appcontext'):
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app.teardown_appcontext(self.teardown)
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else:
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app.teardown_request(self.teardown)
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def connect(self):
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return sqlite3.connect(current_app.config['SQLITE3_DATABASE'])
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def teardown(self, exception):
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ctx = stack.top
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if hasattr(ctx, 'sqlite3_db'):
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ctx.sqlite3_db.close()
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@property
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def connection(self):
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ctx = stack.top
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if ctx is not None:
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if not hasattr(ctx, 'sqlite3_db'):
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ctx.sqlite3_db = self.connect()
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return ctx.sqlite3_db
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So here's what these lines of code do:
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1. The ``__init__`` method takes an optional app object and, if supplied, will
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call ``init_app``.
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2. The ``init_app`` method exists so that the ``SQLite3`` object can be
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instantiated without requiring an app object. This method supports the
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factory pattern for creating applications. The ``init_app`` will set the
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configuration for the database, defaulting to an in memory database if
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no configuration is supplied. In addition, the ``init_app`` method attaches
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the ``teardown`` handler. It will try to use the newstyle app context
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handler and if it does not exist, falls back to the request context
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one.
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3. Next, we define a ``connect`` method that opens a database connection.
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4. Finally, we add a ``connection`` property that on first access opens
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the database connection and stores it on the context. This is also
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the recommended way to handling resources: fetch resources lazily the
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first time they are used.
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Note here that we're attaching our database connection to the top
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application context via ``_app_ctx_stack.top``. Extensions should use
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the top context for storing their own information with a sufficiently
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complex name. Note that we're falling back to the
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``_request_ctx_stack.top`` if the application is using an older
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version of Flask that does not support it.
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So why did we decide on a class-based approach here? Because using our
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extension looks something like this::
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from flask import Flask
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from flask_sqlite3 import SQLite3
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app = Flask(__name__)
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app.config.from_pyfile('the-config.cfg')
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db = SQLite3(app)
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You can then use the database from views like this::
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@app.route('/')
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def show_all():
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cur = db.connection.cursor()
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cur.execute(...)
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Likewise if you are outside of a request but you are using Flask 0.9 or
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later with the app context support, you can use the database in the same
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way::
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with app.app_context():
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cur = db.connection.cursor()
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cur.execute(...)
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At the end of the ``with`` block the teardown handles will be executed
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automatically.
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Additionally, the ``init_app`` method is used to support the factory pattern
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for creating apps::
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db = Sqlite3()
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# Then later on.
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app = create_app('the-config.cfg')
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db.init_app(app)
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Keep in mind that supporting this factory pattern for creating apps is required
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for approved flask extensions (described below).
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.. admonition:: Note on ``init_app``
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As you noticed, ``init_app`` does not assign ``app`` to ``self``. This
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is intentional! Class based Flask extensions must only store the
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application on the object when the application was passed to the
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constructor. This tells the extension: I am not interested in using
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multiple applications.
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When the extension needs to find the current application and it does
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not have a reference to it, it must either use the
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:data:`~flask.current_app` context local or change the API in a way
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that you can pass the application explicitly.
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Using _app_ctx_stack
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--------------------
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In the example above, before every request, a ``sqlite3_db`` variable is
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assigned to ``_app_ctx_stack.top``. In a view function, this variable is
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accessible using the ``connection`` property of ``SQLite3``. During the
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teardown of a request, the ``sqlite3_db`` connection is closed. By using
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this pattern, the *same* connection to the sqlite3 database is accessible
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to anything that needs it for the duration of the request.
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If the :data:`~flask._app_ctx_stack` does not exist because the user uses
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an old version of Flask, it is recommended to fall back to
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:data:`~flask._request_ctx_stack` which is bound to a request.
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Teardown Behavior
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-----------------
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*This is only relevant if you want to support Flask 0.6 and older*
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Due to the change in Flask 0.7 regarding functions that are run at the end
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of the request your extension will have to be extra careful there if it
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wants to continue to support older versions of Flask. The following
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pattern is a good way to support both::
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def close_connection(response):
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ctx = _request_ctx_stack.top
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ctx.sqlite3_db.close()
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return response
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if hasattr(app, 'teardown_request'):
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app.teardown_request(close_connection)
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else:
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app.after_request(close_connection)
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Strictly speaking the above code is wrong, because teardown functions are
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passed the exception and typically don't return anything. However because
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the return value is discarded this will just work assuming that the code
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in between does not touch the passed parameter.
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Learn from Others
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-----------------
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This documentation only touches the bare minimum for extension
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development. If you want to learn more, it's a very good idea to check
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out existing extensions on the `Flask Extension Registry`_. If you feel
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lost there is still the `mailinglist`_ and the `IRC channel`_ to get some
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ideas for nice looking APIs. Especially if you do something nobody before
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you did, it might be a very good idea to get some more input. This not
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only to get an idea about what people might want to have from an
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extension, but also to avoid having multiple developers working on pretty
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much the same side by side.
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Remember: good API design is hard, so introduce your project on the
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mailinglist, and let other developers give you a helping hand with
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designing the API.
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The best Flask extensions are extensions that share common idioms for the
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API. And this can only work if collaboration happens early.
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Approved Extensions
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-------------------
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Flask also has the concept of approved extensions. Approved extensions
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are tested as part of Flask itself to ensure extensions do not break on
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new releases. These approved extensions are listed on the `Flask
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Extension Registry`_ and marked appropriately. If you want your own
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extension to be approved you have to follow these guidelines:
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0. An approved Flask extension requires a maintainer. In the event an
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extension author would like to move beyond the project, the project should
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find a new maintainer including full source hosting transition and PyPI
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access. If no maintainer is available, give access to the Flask core team.
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1. An approved Flask extension must provide exactly one package or module
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named ``flask_extensionname``.
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2. It must ship a testing suite that can either be invoked with ``make test``
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or ``python setup.py test``. For test suites invoked with ``make
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test`` the extension has to ensure that all dependencies for the test
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are installed automatically. If tests are invoked with ``python setup.py
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test``, test dependencies can be specified in the :file:`setup.py` file. The
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test suite also has to be part of the distribution.
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3. APIs of approved extensions will be checked for the following
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characteristics:
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- an approved extension has to support multiple applications
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running in the same Python process.
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- it must be possible to use the factory pattern for creating
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applications.
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4. The license must be BSD/MIT/WTFPL licensed.
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5. The naming scheme for official extensions is *Flask-ExtensionName* or
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*ExtensionName-Flask*.
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6. Approved extensions must define all their dependencies in the
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:file:`setup.py` file unless a dependency cannot be met because it is not
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available on PyPI.
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7. The extension must have documentation that uses one of the two Flask
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themes for Sphinx documentation.
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8. The setup.py description (and thus the PyPI description) has to
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link to the documentation, website (if there is one) and there
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must be a link to automatically install the development version
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(``PackageName==dev``).
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9. The ``zip_safe`` flag in the setup script must be set to ``False``,
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even if the extension would be safe for zipping.
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10. An extension currently has to support Python 2.6 as well as
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Python 2.7
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.. _ext-import-transition:
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Extension Import Transition
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---------------------------
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In early versions of Flask we recommended using namespace packages for Flask
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extensions, of the form ``flaskext.foo``. This turned out to be problematic in
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practice because it meant that multiple ``flaskext`` packages coexist.
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Consequently we have recommended to name extensions ``flask_foo`` over
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``flaskext.foo`` for a long time.
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Flask 0.8 introduced a redirect import system as a compatibility aid for app
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developers: Importing ``flask.ext.foo`` would try ``flask_foo`` and
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``flaskext.foo`` in that order.
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As of Flask 1.0, most Flask extensions have transitioned to the new naming
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schema. The ``flask.ext.foo`` compatibility alias is still in Flask 1.0 but is
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now deprecated -- you should use ``flask_foo``.
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.. _OAuth extension: http://pythonhosted.org/Flask-OAuth/
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.. _mailinglist: http://flask.pocoo.org/mailinglist/
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.. _IRC channel: http://flask.pocoo.org/community/irc/
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