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.. _signals:
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Signals
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=======
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.. versionadded:: 0.6
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Starting with Flask 0.6, there is integrated support for signalling in
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Flask. This support is provided by the excellent `blinker`_ library and
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will gracefully fall back if it is not available.
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What are signals? Signals help you decouple applications by sending
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notifications when actions occur elsewhere in the core framework or
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another Flask extensions. In short, signals allow certain senders to
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notify subscribers that something happened.
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Flask comes with a couple of signals and other extensions might provide
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more. Also keep in mind that signals are intended to notify subscribers
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and should not encourage subscribers to modify data. You will notice that
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there are signals that appear to do the same thing like some of the
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builtin decorators do (eg: :data:`~flask.request_started` is very similar
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to :meth:`~flask.Flask.before_request`). There are however difference in
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how they work. The core :meth:`~flask.Flask.before_request` handler for
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example is executed in a specific order and is able to abort the request
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early by returning a response. In contrast all signal handlers are
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executed in undefined order and do not modify any data.
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The big advantage of signals over handlers is that you can safely
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subscribe to them for the split of a second. These temporary
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subscriptions are helpful for unittesting for example. Say you want to
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know what templates were rendered as part of a request: signals allow you
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to do exactly that.
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Subscribing to Signals
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----------------------
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To subscribe to a signal, you can use the
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:meth:`~blinker.base.Signal.connect` method of a signal. The first
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argument is the function that should be called when the signal is emitted,
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the optional second argument specifies a sender. To unsubscribe from a
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signal, you can use the :meth:`~blinker.base.Signal.disconnect` method.
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For all core Flask signals, the sender is the application that issued the
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signal. When you subscribe to a signal, be sure to also provide a sender
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unless you really want to listen for signals of all applications. This is
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especially true if you are developing an extension.
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Here for example a helper context manager that can be used to figure out
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in a unittest which templates were rendered and what variables were passed
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to the template::
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from flask import template_rendered
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from contextlib import contextmanager
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@contextmanager
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def captured_templates(app):
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recorded = []
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def record(sender, template, context, **extra):
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recorded.append((template, context))
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template_rendered.connect(record, app)
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try:
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yield recorded
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finally:
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template_rendered.disconnect(record, app)
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This can now easily be paired with a test client::
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with captured_templates(app) as templates:
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rv = app.test_client().get('/')
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assert rv.status_code == 200
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assert len(templates) == 1
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template, context = templates[0]
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assert template.name == 'index.html'
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assert len(context['items']) == 10
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Make sure to subscribe with an extra ``**extra`` argument so that your
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calls don't fail if Flask introduces new arguments to the signals.
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All the template rendering in the code issued by the application `app`
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in the body of the `with` block will now be recorded in the `templates`
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variable. Whenever a template is rendered, the template object as well as
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context are appended to it.
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Additionally there is a convenient helper method
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(:meth:`~blinker.base.Signal.connected_to`). that allows you to
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temporarily subscribe a function to a signal with a context manager on
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its own. Because the return value of the context manager cannot be
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specified that way one has to pass the list in as argument::
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from flask import template_rendered
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def captured_templates(app, recorded, **extra):
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def record(sender, template, context):
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recorded.append((template, context))
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return template_rendered.connected_to(record, app)
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The example above would then look like this::
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templates = []
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with captured_templates(app, templates, **extra):
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...
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template, context = templates[0]
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.. admonition:: Blinker API Changes
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The :meth:`~blinker.base.Signal.connected_to` method arrived in Blinker
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with version 1.1.
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Creating Signals
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----------------
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If you want to use signals in your own application, you can use the
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blinker library directly. The most common use case are named signals in a
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custom :class:`~blinker.base.Namespace`.. This is what is recommended
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most of the time::
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from blinker import Namespace
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my_signals = Namespace()
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Now you can create new signals like this::
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model_saved = my_signals.signal('model-saved')
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The name for the signal here makes it unique and also simplifies
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debugging. You can access the name of the signal with the
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:attr:`~blinker.base.NamedSignal.name` attribute.
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.. admonition:: For Extension Developers
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If you are writing a Flask extension and you want to gracefully degrade for
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missing blinker installations, you can do so by using the
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:class:`flask.signals.Namespace` class.
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.. _signals-sending:
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Sending Signals
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---------------
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If you want to emit a signal, you can do so by calling the
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:meth:`~blinker.base.Signal.send` method. It accepts a sender as first
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argument and optionally some keyword arguments that are forwarded to the
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signal subscribers::
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class Model(object):
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...
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def save(self):
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model_saved.send(self)
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Try to always pick a good sender. If you have a class that is emitting a
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signal, pass `self` as sender. If you emitting a signal from a random
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function, you can pass ``current_app._get_current_object()`` as sender.
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.. admonition:: Passing Proxies as Senders
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Never pass :data:`~flask.current_app` as sender to a signal. Use
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``current_app._get_current_object()`` instead. The reason for this is
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that :data:`~flask.current_app` is a proxy and not the real application
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object.
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Signals and Flask's Request Context
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-----------------------------------
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Signals fully support :ref:`request-context` when receiving signals.
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Context-local variables are consistently available between
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:data:`~flask.request_started` and :data:`~flask.request_finished`, so you can
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rely on :class:`flask.g` and others as needed. Note the limitations described
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in :ref:`signals-sending` and the :data:`~flask.request_tearing_down` signal.
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Decorator Based Signal Subscriptions
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------------------------------------
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With Blinker 1.1 you can also easily subscribe to signals by using the new
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:meth:`~blinker.base.NamedSignal.connect_via` decorator::
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from flask import template_rendered
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@template_rendered.connect_via(app)
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def when_template_rendered(sender, template, context, **extra):
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print 'Template %s is rendered with %s' % (template.name, context)
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Core Signals
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------------
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.. when modifying this list, also update the one in api.rst
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The following signals exist in Flask:
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.. data:: flask.template_rendered
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:noindex:
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This signal is sent when a template was successfully rendered. The
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signal is invoked with the instance of the template as `template`
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and the context as dictionary (named `context`).
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Example subscriber::
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def log_template_renders(sender, template, context, **extra):
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sender.logger.debug('Rendering template "%s" with context %s',
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template.name or 'string template',
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context)
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from flask import template_rendered
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template_rendered.connect(log_template_renders, app)
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.. data:: flask.request_started
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:noindex:
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This signal is sent before any request processing started but when the
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request context was set up. Because the request context is already
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bound, the subscriber can access the request with the standard global
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proxies such as :class:`~flask.request`.
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Example subscriber::
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def log_request(sender, **extra):
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sender.logger.debug('Request context is set up')
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from flask import request_started
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request_started.connect(log_request, app)
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.. data:: flask.request_finished
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:noindex:
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This signal is sent right before the response is sent to the client.
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It is passed the response to be sent named `response`.
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Example subscriber::
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def log_response(sender, response, **extra):
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sender.logger.debug('Request context is about to close down. '
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'Response: %s', response)
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from flask import request_finished
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request_finished.connect(log_response, app)
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.. data:: flask.got_request_exception
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:noindex:
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This signal is sent when an exception happens during request processing.
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It is sent *before* the standard exception handling kicks in and even
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in debug mode, where no exception handling happens. The exception
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itself is passed to the subscriber as `exception`.
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Example subscriber::
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def log_exception(sender, exception, **extra):
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sender.logger.debug('Got exception during processing: %s', exception)
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from flask import got_request_exception
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got_request_exception.connect(log_exception, app)
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.. data:: flask.request_tearing_down
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:noindex:
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This signal is sent when the request is tearing down. This is always
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called, even if an exception is caused. Currently functions listening
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to this signal are called after the regular teardown handlers, but this
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is not something you can rely on.
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Example subscriber::
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def close_db_connection(sender, **extra):
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session.close()
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from flask import request_tearing_down
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request_tearing_down.connect(close_db_connection, app)
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As of Flask 0.9, this will also be passed an `exc` keyword argument
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that has a reference to the exception that caused the teardown if
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there was one.
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.. data:: flask.appcontext_tearing_down
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:noindex:
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This signal is sent when the app context is tearing down. This is always
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called, even if an exception is caused. Currently functions listening
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to this signal are called after the regular teardown handlers, but this
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is not something you can rely on.
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Example subscriber::
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def close_db_connection(sender, **extra):
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session.close()
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from flask import appcontext_tearing_down
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appcontext_tearing_down.connect(close_db_connection, app)
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This will also be passed an `exc` keyword argument that has a reference
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to the exception that caused the teardown if there was one.
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.. _blinker: http://pypi.python.org/pypi/blinker
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