The EventDispatcher Component
The EventDispatcher component provides tools that allow your application components to communicate with each other by dispatching events and listening to them.
Introduction
Object-oriented code has gone a long way to ensuring code extensibility. By creating classes that have well-defined responsibilities, your code becomes more flexible and a developer can extend them with subclasses to modify their behaviors. But if they want to share the changes with other developers who have also made their own subclasses, code inheritance is no longer the answer.
Consider the real-world example where you want to provide a plugin system for your project. A plugin should be able to add methods, or do something before or after a method is executed, without interfering with other plugins. This is not an easy problem to solve with single inheritance, and even if multiple inheritance was possible with PHP, it comes with its own drawbacks.
The Symfony EventDispatcher component implements the Mediator and Observer design patterns to make all these things possible and to make your projects truly extensible.
Take an example from the HttpKernel component.
Once a Response
object has been created, it may be useful to allow other
elements in the system to modify it (e.g. add some cache headers) before
it's actually used. To make this possible, the Symfony kernel dispatches an
event - kernel.response
. Here's how it works:
- A listener (PHP object) tells a central dispatcher object that it
wants to listen to the
kernel.response
event; - At some point, the Symfony kernel tells the dispatcher object to dispatch
the
kernel.response
event, passing with it anEvent
object that has access to theResponse
object; - The dispatcher notifies (i.e. calls a method on) all listeners of the
kernel.response
event, allowing each of them to make modifications to theResponse
object.
Installation
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$ composer require symfony/event-dispatcher
Note
If you install this component outside of a Symfony application, you must
require the vendor/autoload.php
file in your code to enable the class
autoloading mechanism provided by Composer. Read
this article for more details.
Usage
See also
This article explains how to use the EventDispatcher features as an independent component in any PHP application. Read the Events and Event Listeners article to learn about how to use it in Symfony applications.
Events
When an event is dispatched, it's identified by a unique name (e.g.
kernel.response
), which any number of listeners might be listening to.
An Event instance is also
created and passed to all of the listeners. As you'll see later, the Event
object itself often contains data about the event being dispatched.
Event Names and Event Objects
When the dispatcher notifies listeners, it passes an actual Event
object
to those listeners. The base Event
class contains a method for stopping
event propagation, but not much
else.
See also
Read "The Generic Event Object" for more information about this base event object.
Often times, data about a specific event needs to be passed along with the
Event
object so that the listeners have the needed information. In such
case, a special subclass that has additional methods for retrieving and
overriding information can be passed when dispatching an event. For example,
the kernel.response
event uses a
ResponseEvent, which
contains methods to get and even replace the Response
object.
The Dispatcher
The dispatcher is the central object of the event dispatcher system. In general, a single dispatcher is created, which maintains a registry of listeners. When an event is dispatched via the dispatcher, it notifies all listeners registered with that event:
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use Symfony\Component\EventDispatcher\EventDispatcher;
$dispatcher = new EventDispatcher();
Connecting Listeners
To take advantage of an existing event, you need to connect a listener to
the dispatcher so that it can be notified when the event is dispatched.
A call to the dispatcher's addListener()
method associates any valid
PHP callable to an event:
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$listener = new AcmeListener();
$dispatcher->addListener('acme.foo.action', [$listener, 'onFooAction']);
The addListener()
method takes up to three arguments:
- The event name (string) that this listener wants to listen to;
- A PHP callable that will be executed when the specified event is dispatched;
- An optional priority, defined as a positive or negative integer (defaults to
0
). The higher the number, the earlier the listener is called. If two listeners have the same priority, they are executed in the order that they were added to the dispatcher.
Note
A PHP callable is a PHP variable that can be used by the
call_user_func()
function and returns true
when passed to the
is_callable()
function. It can be a \Closure
instance, an object
implementing an __invoke()
method (which is what closures are in fact),
a string representing a function or an array representing an object
method or a class method.
So far, you've seen how PHP objects can be registered as listeners. You can also register PHP Closures as event listeners:
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use Symfony\Contracts\EventDispatcher\Event;
$dispatcher->addListener('acme.foo.action', function (Event $event) {
// will be executed when the acme.foo.action event is dispatched
});
Once a listener is registered with the dispatcher, it waits until the event
is notified. In the above example, when the acme.foo.action
event is dispatched,
the dispatcher calls the AcmeListener::onFooAction()
method and passes
the Event
object as the single argument:
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use Symfony\Contracts\EventDispatcher\Event;
class AcmeListener
{
// ...
public function onFooAction(Event $event)
{
// ... do something
}
}
The $event
argument is the event object that was passed when dispatching the
event. In many cases, a special event subclass is passed with extra
information. You can check the documentation or implementation of each event to
determine which instance is passed.
Creating and Dispatching an Event
In addition to registering listeners with existing events, you can create and dispatch your own events. This is useful when creating third-party libraries and also when you want to keep different components of your own system flexible and decoupled.
Creating an Event Class
Suppose you want to create a new event that is dispatched each time a customer orders a product with your application. When dispatching this event, you'll pass a custom event instance that has access to the placed order. Start by creating this custom event class and documenting it:
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namespace Acme\Store\Event;
use Acme\Store\Order;
use Symfony\Contracts\EventDispatcher\Event;
/**
* This event is dispatched each time an order
* is placed in the system.
*/
final class OrderPlacedEvent extends Event
{
public function __construct(private Order $order) {}
public function getOrder(): Order
{
return $this->order;
}
}
Each listener now has access to the order via the getOrder()
method.
Dispatch the Event
The dispatch()
method notifies all listeners of the given event. It takes two arguments:
the Event
instance to pass to each listener of that event and the name
of the event to dispatch:
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use Acme\Store\Event\OrderPlacedEvent;
use Acme\Store\Order;
// the order is somehow created or retrieved
$order = new Order();
// ...
// creates the OrderPlacedEvent and dispatches it
$event = new OrderPlacedEvent($order);
$dispatcher->dispatch($event);
Notice that the special OrderPlacedEvent
object is created and passed to
the dispatch()
method. Now, any listener to the OrderPlacedEvent::class
event will receive the OrderPlacedEvent
.
Note
If you don't need to pass any additional data to the event listeners, you
can also use the default
Event class. In such case,
you can document the event and its name in a generic StoreEvents
class,
similar to the KernelEvents
class:
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namespace App\Event;
class StoreEvents {
/**
* @Event("Symfony\Contracts\EventDispatcher\Event")
*/
public const ORDER_PLACED = 'order.placed';
}
And use the Event class to dispatch the event:
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use Symfony\Contracts\EventDispatcher\Event;
$this->eventDispatcher->dispatch(new Event(), StoreEvents::ORDER_PLACED);
Using Event Subscribers
The most common way to listen to an event is to register an event listener with the dispatcher. This listener can listen to one or more events and is notified each time those events are dispatched.
Another way to listen to events is via an event subscriber. An event
subscriber is a PHP class that's able to tell the dispatcher exactly which
events it should subscribe to. It implements the
EventSubscriberInterface
interface, which requires a single static method called
getSubscribedEvents().
Take the following example of a subscriber that subscribes to the
kernel.response
and OrderPlacedEvent::class
events:
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namespace Acme\Store\Event;
use Acme\Store\Event\OrderPlacedEvent;
use Symfony\Component\EventDispatcher\EventSubscriberInterface;
use Symfony\Component\HttpKernel\Event\ResponseEvent;
use Symfony\Component\HttpKernel\KernelEvents;
class StoreSubscriber implements EventSubscriberInterface
{
public static function getSubscribedEvents()
{
return [
KernelEvents::RESPONSE => [
['onKernelResponsePre', 10],
['onKernelResponsePost', -10],
],
OrderPlacedEvent::class => 'onPlacedOrder',
];
}
public function onKernelResponsePre(ResponseEvent $event)
{
// ...
}
public function onKernelResponsePost(ResponseEvent $event)
{
// ...
}
public function onPlacedOrder(OrderPlacedEvent $event): void
{
$order = $event->getOrder();
// ...
}
}
This is very similar to a listener class, except that the class itself can tell the dispatcher which events it should listen to. To register a subscriber with the dispatcher, use the addSubscriber() method:
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use Acme\Store\Event\StoreSubscriber;
// ...
$subscriber = new StoreSubscriber();
$dispatcher->addSubscriber($subscriber);
The dispatcher will automatically register the subscriber for each event
returned by the getSubscribedEvents()
method. This method returns an array
indexed by event names and whose values are either the method name to call
or an array composed of the method name to call and a priority (a positive or
negative integer that defaults to 0
).
The example above shows how to register several listener methods for the same
event in subscriber and also shows how to pass the priority of each listener
method. The higher the number, the earlier the method is called. In the above
example, when the kernel.response
event is triggered, the methods
onKernelResponsePre()
and onKernelResponsePost()
are called in that
order.
Stopping Event Flow/Propagation
In some cases, it may make sense for a listener to prevent any other listeners from being called. In other words, the listener needs to be able to tell the dispatcher to stop all propagation of the event to future listeners (i.e. to not notify any more listeners). This can be accomplished from inside a listener via the stopPropagation() method:
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use Acme\Store\Event\OrderPlacedEvent;
public function onPlacedOrder(OrderPlacedEvent $event): void
{
// ...
$event->stopPropagation();
}
Now, any listeners to OrderPlacedEvent::class
that have not yet been called will
not be called.
It is possible to detect if an event was stopped by using the isPropagationStopped() method which returns a boolean value:
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// ...
$dispatcher->dispatch($event, 'foo.event');
if ($event->isPropagationStopped()) {
// ...
}
EventDispatcher Aware Events and Listeners
The EventDispatcher
always passes the dispatched event, the event's
name and a reference to itself to the listeners. This can lead to some advanced
applications of the EventDispatcher
including dispatching other events inside
listeners, chaining events or even lazy loading listeners into the dispatcher object.
Event Name Introspection
The EventDispatcher
instance, as well as the name of the event that
is dispatched, are passed as arguments to the listener:
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use Symfony\Contracts\EventDispatcher\Event;
use Symfony\Contracts\EventDispatcher\EventDispatcherInterface;
class MyListener
{
public function myEventListener(Event $event, string $eventName, EventDispatcherInterface $dispatcher)
{
// ... do something with the event name
}
}
Other Dispatchers
Besides the commonly used EventDispatcher
, the component comes
with some other dispatchers: