278 lines
9.7 KiB
Plaintext
278 lines
9.7 KiB
Plaintext
=======
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Signals
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=======
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.. module:: django.dispatch
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:synopsis: Signal dispatch
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Django includes a "signal dispatcher" which helps allow decoupled applications
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get notified when actions occur elsewhere in the framework. In a nutshell,
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signals allow certain *senders* to notify a set of *receivers* that some action
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has taken place. They're especially useful when many pieces of code may be
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interested in the same events.
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Django provides a :doc:`set of built-in signals </ref/signals>` that let user
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code get notified by Django itself of certain actions. These include some useful
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notifications:
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* :data:`django.db.models.signals.pre_save` &
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:data:`django.db.models.signals.post_save`
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Sent before or after a model's :meth:`~django.db.models.Model.save` method
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is called.
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* :data:`django.db.models.signals.pre_delete` &
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:data:`django.db.models.signals.post_delete`
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Sent before or after a model's :meth:`~django.db.models.Model.delete`
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method or queryset's :meth:`~django.db.models.query.QuerySet.delete`
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method is called.
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* :data:`django.db.models.signals.m2m_changed`
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Sent when a :class:`~django.db.models.ManyToManyField` on a model is changed.
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* :data:`django.core.signals.request_started` &
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:data:`django.core.signals.request_finished`
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Sent when Django starts or finishes an HTTP request.
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See the :doc:`built-in signal documentation </ref/signals>` for a complete list,
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and a complete explanation of each signal.
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You can also `define and send your own custom signals`_; see below.
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.. _define and send your own custom signals: `defining and sending signals`_
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Listening to signals
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====================
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To receive a signal, you need to register a *receiver* function that gets
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called when the signal is sent by using the
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:meth:`.Signal.connect` method:
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.. method:: Signal.connect(receiver, [sender=None, weak=True, dispatch_uid=None])
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:param receiver: The callback function which will be connected to this
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signal. See :ref:`receiver-functions` for more information.
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:param sender: Specifies a particular sender to receive signals from. See
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:ref:`connecting-to-specific-signals` for more information.
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:param weak: Django stores signal handlers as weak references by
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default. Thus, if your receiver is a local function, it may be
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garbage collected. To prevent this, pass ``weak=False`` when you call
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the signal's ``connect()`` method.
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:param dispatch_uid: A unique identifier for a signal receiver in cases
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where duplicate signals may be sent. See
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:ref:`preventing-duplicate-signals` for more information.
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Let's see how this works by registering a signal that
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gets called after each HTTP request is finished. We'll be connecting to the
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:data:`~django.core.signals.request_finished` signal.
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.. _receiver-functions:
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Receiver functions
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------------------
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First, we need to define a receiver function. A receiver can be any Python
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function or method:
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.. code-block:: python
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def my_callback(sender, **kwargs):
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print("Request finished!")
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Notice that the function takes a ``sender`` argument, along with wildcard
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keyword arguments (``**kwargs``); all signal handlers must take these arguments.
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We'll look at senders `a bit later`_, but right now look at the ``**kwargs``
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argument. All signals send keyword arguments, and may change those keyword
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arguments at any time. In the case of
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:data:`~django.core.signals.request_finished`, it's documented as sending no
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arguments, which means we might be tempted to write our signal handling as
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``my_callback(sender)``.
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.. _a bit later: `connecting to signals sent by specific senders`_
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This would be wrong -- in fact, Django will throw an error if you do so. That's
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because at any point arguments could get added to the signal and your receiver
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must be able to handle those new arguments.
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.. _connecting-receiver-functions:
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Connecting receiver functions
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-----------------------------
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There are two ways you can connect a receiver to a signal. You can take the
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manual connect route:
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.. code-block:: python
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from django.core.signals import request_finished
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request_finished.connect(my_callback)
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Alternatively, you can use a ``receiver`` decorator when you define your
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receiver:
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.. code-block:: python
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from django.core.signals import request_finished
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from django.dispatch import receiver
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@receiver(request_finished)
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def my_callback(sender, **kwargs):
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print("Request finished!")
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Now, our ``my_callback`` function will be called each time a request finishes.
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Note that ``receiver`` can also take a list of signals to connect a function
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to.
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.. versionchanged:: 1.5
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The ability to pass a list of signals was added.
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.. admonition:: Where should this code live?
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You can put signal handling and registration code anywhere you like.
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However, you'll need to make sure that the module it's in gets imported
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early on so that the signal handling gets registered before any signals need
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to be sent. This makes your app's ``models.py`` a good place to put
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registration of signal handlers.
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.. _connecting-to-specific-signals:
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Connecting to signals sent by specific senders
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----------------------------------------------
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Some signals get sent many times, but you'll only be interested in receiving a
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certain subset of those signals. For example, consider the
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:data:`django.db.models.signals.pre_save` signal sent before a model gets saved.
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Most of the time, you don't need to know when *any* model gets saved -- just
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when one *specific* model is saved.
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In these cases, you can register to receive signals sent only by particular
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senders. In the case of :data:`django.db.models.signals.pre_save`, the sender
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will be the model class being saved, so you can indicate that you only want
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signals sent by some model:
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.. code-block:: python
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from django.db.models.signals import pre_save
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from django.dispatch import receiver
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from myapp.models import MyModel
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@receiver(pre_save, sender=MyModel)
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def my_handler(sender, **kwargs):
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...
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The ``my_handler`` function will only be called when an instance of ``MyModel``
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is saved.
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Different signals use different objects as their senders; you'll need to consult
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the :doc:`built-in signal documentation </ref/signals>` for details of each
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particular signal.
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.. _preventing-duplicate-signals:
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Preventing duplicate signals
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----------------------------
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In some circumstances, the module in which you are connecting signals may be
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imported multiple times. This can cause your receiver function to be
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registered more than once, and thus called multiples times for a single signal
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event.
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If this behavior is problematic (such as when using signals to
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send an email whenever a model is saved), pass a unique identifier as
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the ``dispatch_uid`` argument to identify your receiver function. This
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identifier will usually be a string, although any hashable object will
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suffice. The end result is that your receiver function will only be
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bound to the signal once for each unique ``dispatch_uid`` value.
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.. code-block:: python
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from django.core.signals import request_finished
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request_finished.connect(my_callback, dispatch_uid="my_unique_identifier")
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Defining and sending signals
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============================
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Your applications can take advantage of the signal infrastructure and provide
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its own signals.
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Defining signals
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----------------
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.. class:: Signal([providing_args=list])
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All signals are :class:`django.dispatch.Signal` instances. The
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``providing_args`` is a list of the names of arguments the signal will provide
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to listeners. This is purely documentational, however, as there is nothing that
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checks that the signal actually provides these arguments to its listeners.
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For example:
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.. code-block:: python
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import django.dispatch
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pizza_done = django.dispatch.Signal(providing_args=["toppings", "size"])
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This declares a ``pizza_done`` signal that will provide receivers with
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``toppings`` and ``size`` arguments.
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Remember that you're allowed to change this list of arguments at any time, so getting the API right on the first try isn't necessary.
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Sending signals
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---------------
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There are two ways to send signals in Django.
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.. method:: Signal.send(sender, **kwargs)
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.. method:: Signal.send_robust(sender, **kwargs)
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To send a signal, call either :meth:`Signal.send` or :meth:`Signal.send_robust`.
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You must provide the ``sender`` argument, and may provide as many other keyword
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arguments as you like.
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For example, here's how sending our ``pizza_done`` signal might look:
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.. code-block:: python
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class PizzaStore(object):
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...
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def send_pizza(self, toppings, size):
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pizza_done.send(sender=self, toppings=toppings, size=size)
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...
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Both ``send()`` and ``send_robust()`` return a list of tuple pairs
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``[(receiver, response), ... ]``, representing the list of called receiver
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functions and their response values.
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``send()`` differs from ``send_robust()`` in how exceptions raised by receiver
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functions are handled. ``send()`` does *not* catch any exceptions raised by
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receivers; it simply allows errors to propagate. Thus not all receivers may
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be notified of a signal in the face of an error.
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``send_robust()`` catches all errors derived from Python's ``Exception`` class,
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and ensures all receivers are notified of the signal. If an error occurs, the
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error instance is returned in the tuple pair for the receiver that raised the error.
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Disconnecting signals
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=====================
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.. method:: Signal.disconnect([receiver=None, sender=None, weak=True, dispatch_uid=None])
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To disconnect a receiver from a signal, call :meth:`Signal.disconnect`. The
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arguments are as described in :meth:`.Signal.connect`.
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The *receiver* argument indicates the registered receiver to disconnect. It may
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be ``None`` if ``dispatch_uid`` is used to identify the receiver.
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