Defining Services Dependencies Automatically (Autowiring)

Warning: You are browsing the documentation for Symfony 3.x, which is no longer maintained.

Read the updated version of this page for Symfony 7.1 (the current stable version).

Autowiring allows you to manage services in the container with minimal configuration. It reads the type-hints on your constructor (or other methods) and automatically passes the correct services to each method. Symfony's autowiring is designed to be predictable: if it is not absolutely clear which dependency should be passed, you'll see an actionable exception.

Tip

Thanks to Symfony's compiled container, there is no runtime overhead for using autowiring.

An Autowiring Example

Imagine you're building an API to publish statuses on a Twitter feed, obfuscated with ROT13, a fun encoder that shifts all characters 13 letters forward in the alphabet.

Start by creating a ROT13 transformer class:

1
2
3
4
5
6
7
8
9
namespace AppBundle\Util;

class Rot13Transformer
{
    public function transform($value)
    {
        return str_rot13($value);
    }
}

And now a Twitter client using this transformer:

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
namespace AppBundle\Service;

use AppBundle\Util\Rot13Transformer;

class TwitterClient
{
    private $transformer;

    public function __construct(Rot13Transformer $transformer)
    {
        $this->transformer = $transformer;
    }

    public function tweet($user, $key, $status)
    {
        $transformedStatus = $this->transformer->transform($status);

        // ... connect to Twitter and send the encoded status
    }
}

If you're using the default services.yml configuration, both classes are automatically registered as services and configured to be autowired. This means you can use them immediately without any configuration.

However, to understand autowiring better, the following examples explicitly configure both services:

1
2
3
4
5
6
7
8
9
10
11
12
13
services:
    _defaults:
        autowire: true
        autoconfigure: true
        public: false
    # ...

    AppBundle\Service\TwitterClient:
        # redundant thanks to _defaults, but value is overridable on each service
        autowire: true

    AppBundle\Util\Rot13Transformer:
        autowire: true

Now, you can use the TwitterClient service immediately in a controller:

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
namespace AppBundle\Controller;

use AppBundle\Service\TwitterClient;
use Symfony\Bundle\FrameworkBundle\Controller\Controller;
use Symfony\Component\Routing\Annotation\Route;

class DefaultController extends Controller
{
    /**
     * @Route("/tweet", methods={"POST"})
     */
    public function tweetAction(TwitterClient $twitterClient)
    {
        // fetch $user, $key, $status from the POST'ed data

        $twitterClient->tweet($user, $key, $status);

        // ...
    }
}

This works automatically! The container knows to pass the Rot13Transformer service as the first argument when creating the TwitterClient service.

Autowiring Logic Explained

Autowiring works by reading the Rot13Transformer type-hint in TwitterClient:

1
2
3
4
5
6
7
8
9
10
11
12
// ...
use AppBundle\Util\Rot13Transformer;

class TwitterClient
{
    // ...

    public function __construct(Rot13Transformer $transformer)
    {
        $this->transformer = $transformer;
    }
}

The autowiring system looks for a service whose id exactly matches the type-hint: so AppBundle\Util\Rot13Transformer. In this case, that exists! When you configured the Rot13Transformer service, you used its fully-qualified class name as its id. Autowiring isn't magic: it looks for a service whose id matches the type-hint. If you load services automatically, each service's id is its class name. This is the main way to control autowiring.

If there is not a service whose id exactly matches the type, then:

If there are 0 services in the container that have the type, then:
If the type is a concrete class, then a new, private, autowired service is auto-registered in the container and used for the argument.
If there is exactly 1 service in the container that has the type, then:
(deprecated) This service is used for the argument. In Symfony 4.0, this will be removed. The proper solution is to create an alias from the type to the service id so that normal autowiring works.
If there are 2 or more services in the container that have the type, then:
A clear exception is thrown. You need to choose which service should be used by creating an alias or configuring the argument explicitly.

Autowiring is a great way to automate configuration, and Symfony tries to be as predictable and clear as possible.

Using Aliases to Enable Autowiring

The main way to configure autowiring is to create a service whose id exactly matches its class. In the previous example, the service's id is AppBundle\Util\Rot13Transformer, which allows us to autowire this type automatically.

This can also be accomplished using an alias. Suppose that for some reason, the id of the service was instead app.rot13.transformer. In this case, any arguments type-hinted with the class name (AppBundle\Util\Rot13Transformer) can no longer be autowired (actually, it will work now, but not in Symfony 4.0).

No problem! To fix this, you can create a service whose id matches the class by adding a service alias:

1
2
3
4
5
6
7
8
9
10
11
12
services:
    # ...

    # the id is not a class, so it won't be used for autowiring
    app.rot13.transformer:
        class: AppBundle\Util\Rot13Transformer
        # ...

    # but this fixes it!
    # the ``app.rot13.transformer`` service will be injected when
    # an ``AppBundle\Util\Rot13Transformer`` type-hint is detected
    AppBundle\Util\Rot13Transformer: '@app.rot13.transformer'

This creates a service "alias", whose id is AppBundle\Util\Rot13Transformer. Thanks to this, autowiring sees this and uses it whenever the Rot13Transformer class is type-hinted.

Tip

Aliases are used by the core bundles to allow services to be autowired. For example, MonologBundle creates a service whose id is logger. But it also adds an alias: Psr\Log\LoggerInterface that points to the logger service. This is why arguments type-hinted with Psr\Log\LoggerInterface can be autowired.

Working with Interfaces

You might also find yourself type-hinting abstractions (e.g. interfaces) instead of concrete classes as it replaces your dependencies with other objects.

To follow this best practice, suppose you decide to create a TransformerInterface:

1
2
3
4
5
6
namespace AppBundle\Util;

interface TransformerInterface
{
    public function transform($value);
}

Then, you update Rot13Transformer to implement it:

1
2
3
4
5
// ...
class Rot13Transformer implements TransformerInterface
{
    // ...
}

Now that you have an interface, you should use this as your type-hint:

1
2
3
4
5
6
7
8
9
class TwitterClient
{
    public function __construct(TransformerInterface $transformer)
    {
        // ...
    }

    // ...
}

But now, the type-hint (AppBundle\Util\TransformerInterface) no longer matches the id of the service (AppBundle\Util\Rot13Transformer). This means that the argument can no longer be autowired (actually, it will work now, but not in Symfony 4.0).

To fix that, add an alias:

1
2
3
4
5
6
7
8
services:
    # ...

    AppBundle\Util\Rot13Transformer: ~

    # the ``AppBundle\Util\Rot13Transformer`` service will be injected when
    # an ``AppBundle\Util\TransformerInterface`` type-hint is detected
    AppBundle\Util\TransformerInterface: '@AppBundle\Util\Rot13Transformer'

Thanks to the AppBundle\Util\TransformerInterface alias, the autowiring subsystem knows that the AppBundle\Util\Rot13Transformer service should be injected when dealing with the TransformerInterface.

Tip

When using a service definition prototype, if only one service is discovered that implements an interface, and that interface is also discovered at the same time, configuring the alias is not mandatory and Symfony will automatically create one.

Dealing with Multiple Implementations of the Same Type

Suppose you create a second class - UppercaseTransformer that implements TransformerInterface:

1
2
3
4
5
6
7
8
9
namespace AppBundle\Util;

class UppercaseTransformer implements TransformerInterface
{
    public function transform($value)
    {
        return strtoupper($value);
    }
}

If you register this as a service, you now have two services that implement the AppBundle\Util\TransformerInterface type. Autowiring subsystem can not decide which one to use. Remember, autowiring isn't magic; it looks for a service whose id matches the type-hint. So you need to choose one by creating an alias from the type to the correct service id (see Defining Services Dependencies Automatically (Autowiring)).

If you want Rot13Transformer to be the service that's used for autowiring, create that alias:

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
services:
    # ...

    AppBundle\Util\Rot13Transformer: ~
    AppBundle\Util\UppercaseTransformer: ~

    # the ``AppBundle\Util\Rot13Transformer`` service will be injected when
    # a ``AppBundle\Util\TransformerInterface`` type-hint is detected
    AppBundle\Util\TransformerInterface: '@AppBundle\Util\Rot13Transformer'

    AppBundle\Service\TwitterClient:
        # the Rot13Transformer will be passed as the $transformer argument
        autowire: true

        # If you wanted to choose the non-default service, wire it manually
        # arguments:
        #     $transformer: '@AppBundle\Util\UppercaseTransformer'
        # ...

Thanks to the AppBundle\Util\TransformerInterface alias, any argument type-hinted with this interface will be passed the AppBundle\Util\Rot13Transformer service. But, you can also manually wire the other service by specifying the argument under the arguments key.

3.3

Using FQCN aliases to fix autowiring ambiguities was introduced in Symfony 3.3. Prior to version 3.3, you needed to use the autowiring_types key.

Fixing Non-Autowireable Arguments

Autowiring only works when your argument is an object. But if you have a scalar argument (e.g. a string), this cannot be autowired: Symfony will throw a clear exception.

To fix this, you can manually wire the problematic argument. You wire up the difficult arguments, Symfony takes care of the rest.

Autowiring other Methods (e.g. Setters)

When autowiring is enabled for a service, you can also configure the container to call methods on your class when it's instantiated. For example, suppose you want to inject the logger service, and decide to use setter-injection:

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
namespace AppBundle\Util;

class Rot13Transformer
{
    private $logger;

    /**
     * @required
     */
    public function setLogger(LoggerInterface $logger)
    {
        $this->logger = $logger;
    }

    public function transform($value)
    {
        $this->logger->info('Transforming '.$value);
        // ...
    }
}

Autowiring will automatically call any method with the @required annotation above it, autowiring each argument. If you need to manually wire some of the arguments to a method, you can always explicitly configure the method call.

Autowiring Controller Action Methods

If you're using the Symfony Framework, you can also autowire arguments to your controller action methods. This is a special case for autowiring, which exists for convenience. See Controller for more details.

Performance Consequences

Thanks to Symfony's compiled container, there is no performance penalty for using autowiring. However, there is a small performance penalty in the dev environment, as the container may be rebuilt more often as you modify classes. If rebuilding your container is slow (possible on very large projects), you may not be able to use autowiring.

Public and Reusable Bundles

Public bundles should explicitly configure their services and not rely on autowiring. Autowiring depends on the services that are available in the container and bundles have no control over the service container of applications they are included in. You can use autowiring when building reusable bundles within your company, as you have full control over all code.

This work, including the code samples, is licensed under a Creative Commons BY-SA 3.0 license.
TOC
    Version