Signals¶
New in version 0.6.
Starting with Flask 0.6, there is integrated support for signalling in Flask. This support is provided by the excellent blinker library and will gracefully fall back if it is not available.
What are signals? Signals help you decouple applications by sending notifications when actions occur elsewhere in the core framework or another Flask extensions. In short, signals allow certain senders to notify subscribers that something happened.
Flask comes with a couple of signals and other extensions might provide
more. Also keep in mind that signals are intended to notify subscribers
and should not encourage subscribers to modify data. You will notice that
there are signals that appear to do the same thing like some of the
builtin decorators do (eg: request_started
is very similar
to before_request()
). However, there are differences in
how they work. The core before_request()
handler, for
example, is executed in a specific order and is able to abort the request
early by returning a response. In contrast all signal handlers are
executed in undefined order and do not modify any data.
The big advantage of signals over handlers is that you can safely subscribe to them for just a split second. These temporary subscriptions are helpful for unit testing for example. Say you want to know what templates were rendered as part of a request: signals allow you to do exactly that.
Subscribing to Signals¶
To subscribe to a signal, you can use the
connect()
method of a signal. The first
argument is the function that should be called when the signal is emitted,
the optional second argument specifies a sender. To unsubscribe from a
signal, you can use the disconnect()
method.
For all core Flask signals, the sender is the application that issued the signal. When you subscribe to a signal, be sure to also provide a sender unless you really want to listen for signals from all applications. This is especially true if you are developing an extension.
For example, here is a helper context manager that can be used in a unit test to determine which templates were rendered and what variables were passed to the template:
from flask import template_rendered
from contextlib import contextmanager
@contextmanager
def captured_templates(app):
recorded = []
def record(sender, template, context, **extra):
recorded.append((template, context))
template_rendered.connect(record, app)
try:
yield recorded
finally:
template_rendered.disconnect(record, app)
This can now easily be paired with a test client:
with captured_templates(app) as templates:
rv = app.test_client().get('/')
assert rv.status_code == 200
assert len(templates) == 1
template, context = templates[0]
assert template.name == 'index.html'
assert len(context['items']) == 10
Make sure to subscribe with an extra **extra
argument so that your
calls don’t fail if Flask introduces new arguments to the signals.
All the template rendering in the code issued by the application app
in the body of the with
block will now be recorded in the templates
variable. Whenever a template is rendered, the template object as well as
context are appended to it.
Additionally there is a convenient helper method
(connected_to()
) that allows you to
temporarily subscribe a function to a signal with a context manager on
its own. Because the return value of the context manager cannot be
specified that way, you have to pass the list in as an argument:
from flask import template_rendered
def captured_templates(app, recorded, **extra):
def record(sender, template, context):
recorded.append((template, context))
return template_rendered.connected_to(record, app)
The example above would then look like this:
templates = []
with captured_templates(app, templates, **extra):
...
template, context = templates[0]
Blinker API Changes
The connected_to()
method arrived in Blinker
with version 1.1.
Creating Signals¶
If you want to use signals in your own application, you can use the
blinker library directly. The most common use case are named signals in a
custom Namespace
.. This is what is recommended
most of the time:
from blinker import Namespace
my_signals = Namespace()
Now you can create new signals like this:
model_saved = my_signals.signal('model-saved')
The name for the signal here makes it unique and also simplifies
debugging. You can access the name of the signal with the
name
attribute.
For Extension Developers
If you are writing a Flask extension and you want to gracefully degrade for
missing blinker installations, you can do so by using the
flask.signals.Namespace
class.
Sending Signals¶
If you want to emit a signal, you can do so by calling the
send()
method. It accepts a sender as first
argument and optionally some keyword arguments that are forwarded to the
signal subscribers:
class Model(object):
...
def save(self):
model_saved.send(self)
Try to always pick a good sender. If you have a class that is emitting a
signal, pass self
as sender. If you are emitting a signal from a random
function, you can pass current_app._get_current_object()
as sender.
Passing Proxies as Senders
Never pass current_app
as sender to a signal. Use
current_app._get_current_object()
instead. The reason for this is
that current_app
is a proxy and not the real application
object.
Signals and Flask’s Request Context¶
Signals fully support The Request Context when receiving signals.
Context-local variables are consistently available between
request_started
and request_finished
, so you can
rely on flask.g
and others as needed. Note the limitations described
in Sending Signals and the request_tearing_down
signal.
Decorator Based Signal Subscriptions¶
With Blinker 1.1 you can also easily subscribe to signals by using the new
connect_via()
decorator:
from flask import template_rendered
@template_rendered.connect_via(app)
def when_template_rendered(sender, template, context, **extra):
print(f'Template {template.name} is rendered with {context}')
Core Signals¶
Take a look at Signals for a list of all builtin signals.