Translations: Korean (by Yongwoo Lee)
Laravel has a powerful Inversion of Control (IoC) / Dependency Injection (DI) Container. Unfortunately the official documentation doesn't cover all of the available functionality, so I decided to experiment with it and document it for myself. The following is based on Laravel 5.4.26 - other versions may vary.
I won't attempt to explain the principles behind DI / IoC here - if you're not familiar with them you might want to read What is Dependency Injection? by Fabien Potencier (creator of the Symfony framework).
There are several ways to access the Container instance* within Laravel, but the simplest is to call the app()
helper method:
$container = app();
I won't describe the other ways today - instead I want to focus on the Container class itself.
Note: If you read the official docs, it uses $this->app
instead of $container
.
(* In Laravel applications it's actually a subclass of Container called Application (which is why the helper is called app()
), but for this post I'll only describe Container methods.)
To use Container outside of Laravel, install it and then:
use Illuminate\Container\Container;
$container = Container::getInstance();
The simplest usage is to type hint your class's constructor with the classes you want injected:
class MyClass
{
private $dependency;
public function __construct(AnotherClass $dependency)
{
$this->dependency = $dependency;
}
}
Then instead of using new MyClass
, use the Container's make()
method:
$instance = $container->make(MyClass::class);
The container will automatically instantiate the dependencies, so this is functionally equivalent to:
$instance = new MyClass(new AnotherClass());
(Except AnotherClass
could have some dependencies of its own - in which case Container would recursively instantiate them until there were no more.)
Here's a more practical example based on the PHP-DI docs - separating the mailer functionality from the user registration:
class Mailer
{
public function mail($recipient, $content)
{
// Send an email to the recipient
// ...
}
}
class UserManager
{
private $mailer;
public function __construct(Mailer $mailer)
{
$this->mailer = $mailer;
}
public function register($email, $password)
{
// Create the user account
// ...
// Send the user an email to say hello!
$this->mailer->mail($email, 'Hello and welcome!');
}
}
use Illuminate\Container\Container;
$container = Container::getInstance();
$userManager = $container->make(UserManager::class);
$userManager->register('[email protected]', 'MySuperSecurePassword!');
The Container makes it easy to code to an interface and then instantiate a concrete instance at runtime. First define the interfaces:
interface MyInterface { /* ... */ }
interface AnotherInterface { /* ... */ }
And declare the concrete classes implementing those interfaces. They may depend on other interfaces (or concrete classes as before):
class MyClass implements MyInterface
{
private $dependency;
public function __construct(AnotherInterface $dependency)
{
$this->dependency = $dependency;
}
}
Then use bind()
to map each interface to a concrete class:
$container->bind(MyInterface::class, MyClass::class);
$container->bind(AnotherInterface::class, AnotherClass::class);
Finally pass the interface name instead of the class name to make()
:
$instance = $container->make(MyInterface::class);
Note: If you forget to bind an interface you will get a slightly cryptic fatal error instead:
Fatal error: Uncaught ReflectionException: Class MyInterface does not exist
This is because the container will try to instantiate the interface (new MyInterface
), which isn't a valid class.
Here's a practical example of this - a swappable cache layer:
interface Cache
{
public function get($key);
public function put($key, $value);
}
class RedisCache implements Cache
{
public function get($key) { /* ... */ }
public function put($key, $value) { /* ... */ }
}
class Worker
{
private $cache;
public function __construct(Cache $cache)
{
$this->cache = $cache;
}
public function result()
{
// Use the cache for something...
$result = $this->cache->get('worker');
if ($result === null) {
$result = do_something_slow();
$this->cache->put('worker', $result);
}
return $result;
}
}
use Illuminate\Container\Container;
$container = Container::getInstance();
$container->bind(Cache::class, RedisCache::class);
$result = $container->make(Worker::class)->result();
Binding can be also used with abstract classes:
$container->bind(MyAbstract::class, MyConcreteClass::class);
Or to replace a concrete class with a subclass:
$container->bind(MySQLDatabase::class, CustomMySQLDatabase::class);
If the class requires additional configuration you can pass a closure instead of a class name as the second parameter to bind()
:
$container->bind(Database::class, function (Container $container) {
return new MySQLDatabase(MYSQL_HOST, MYSQL_PORT, MYSQL_USER, MYSQL_PASS);
});
Each time the Database interface is required, a new MySQLDatabase instance will be created and used, with the specified configuration values. (To share a single instance, see Singletons below.) The closure receives the Container instance as the first parameter, and it can be used to instantiate other classes if needed:
$container->bind(Logger::class, function (Container $container) {
$filesystem = $container->make(Filesystem::class);
return new FileLogger($filesystem, 'logs/error.log');
});
A closure can also be used to customise how a concrete class is instantiated:
$container->bind(GitHub\Client::class, function (Container $container) {
$client = new GitHub\Client;
$client->setEnterpriseUrl(GITHUB_HOST);
return $client;
});
Instead of overriding the binding completely, you can use resolving()
to register a callback that's called after the binding is revolved:
$container->resolving(GitHub\Client::class, function ($client, Container $container) {
$client->setEnterpriseUrl(GITHUB_HOST);
});
If there are multiple callbacks, they will all be called. They also work for interfaces and abstract classes:
$container->resolving(Logger::class, function (Logger $logger) {
$logger->setLevel('debug');
});
$container->resolving(FileLogger::class, function (FileLogger $logger) {
$logger->setFilename('logs/debug.log');
});
$container->bind(Logger::class, FileLogger::class);
$logger = $container->make(Logger::class);
It is also possible to add a callback that's always called no matter what class is resolved - but I think it's probably only useful for logging / debugging:
$container->resolving(function ($object, Container $container) {
// ...
});
Alternatively you can also use extend()
to wrap a class and return a different object:
$container->extend(APIClient::class, function ($client, Container $container) {
return new APIClientDecorator($client);
});
The resulting object should still implement the same interface though, otherwise you'll get an error when using type hinting.
With both automatic binding and bind()
, a new instance will be created (or the closure will be called) every time it's needed. To share a single instance, use singleton()
instead of bind()
:
$container->singleton(Cache::class, RedisCache::class);
Or with a closure:
$container->singleton(Database::class, function (Container $container) {
return new MySQLDatabase('localhost', 'testdb', 'user', 'pass');
});
To make a concrete class a singleton, pass that class with no second parameter:
$container->singleton(MySQLDatabase::class);
In each case, the singleton object will be created the first time it is needed, and then reused each subsequent time. If you already have an instance that you want to reuse, use the instance()
method instead. For example, Laravel uses this to make sure the singleton Container instance is returned whenever it is injected into a class:
$container->instance(Container::class, $container);
You can use any arbitrary string instead of a class/interface name - although you won't be able to use type hinting to retrieve it and will have to use make()
instead:
$container->bind('database', MySQLDatabase::class);
$db = $container->make('database');
To support both a class/interface and a short name simultaneously, use alias()
:
$container->singleton(Cache::class, RedisCache::class);
$container->alias(Cache::class, 'cache');
$cache1 = $container->make(Cache::class);
$cache2 = $container->make('cache');
assert($cache1 === $cache2);
You can also use the container to store arbitrary values - e.g. configuration data:
$container->instance('database.name', 'testdb');
$db_name = $container->make('database.name');
It supports array access syntax, which makes this feel more natural:
$container['database.name'] = 'testdb';
$db_name = $container['database.name'];
When combined with closure bindings you can see why this could be useful:
$container->singleton('database', function (Container $container) {
return new MySQLDatabase(
$container['database.host'],
$container['database.name'],
$container['database.user'],
$container['database.pass']
);
});
(Laravel itself doesn't use the container for configuration - it uses a separate Config class instead - but PHP-DI does.)
Tip: Array syntax can also be used instead of make()
when instantiating objects:
$db = $container['database'];
So far we've seen DI for constructors, but Laravel also supports DI for arbitrary functions:
function do_something(Cache $cache) { /* ... */ }
$result = $container->call('do_something');
Additional parameters can be passed as an ordered or associative array:
function show_product(Cache $cache, $id, $tab = 'details') { /* ... */ }
// show_product($cache, 1)
$container->call('show_product', [1]);
$container->call('show_product', ['id' => 1]);
// show_product($cache, 1, 'spec')
$container->call('show_product', [1, 'spec']);
$container->call('show_product', ['id' => 1, 'tab' => 'spec']);
This can be used for any callable method:
$closure = function (Cache $cache) { /* ... */ };
$container->call($closure);
class SomeClass
{
public static function staticMethod(Cache $cache) { /* ... */ }
}
$container->call(['SomeClass', 'staticMethod']);
// or:
$container->call('SomeClass::staticMethod');
class PostController
{
public function index(Cache $cache) { /* ... */ }
public function show(Cache $cache, $id) { /* ... */ }
}
$controller = $container->make(PostController::class);
$container->call([$controller, 'index']);
$container->call([$controller, 'show'], ['id' => 1]);
There is a shortcut to instantiate a class and call a method in one go - use the syntax ClassName@methodName
:
$container->call('PostController@index');
$container->call('PostController@show', ['id' => 4]);
The container is used to instantiate the class. This means:
- Dependencies are injected into the constructor (as well as the method).
- You can define the class as a singleton if you want it to be reused.
- You can use an interface or arbitrary name instead of a concrete class.
For example, this will work:
class PostController
{
public function __construct(Request $request) { /* ... */ }
public function index(Cache $cache) { /* ... */ }
}
$container->singleton('post', PostController::class);
$container->call('post@index');
Finally, you can pass a "default method" as the third parameter. If the first parameter is a class name with no method specified, the default method will be called instead. Laravel uses this to implement event handlers:
$container->call(MyEventHandler::class, $parameters, 'handle');
// Equivalent to:
$container->call('MyEventHandler@handle', $parameters);
The bindMethod()
method can be used to override a method call, e.g. to pass additional parameters:
$container->bindMethod('PostController@index', function ($controller, $container) {
$posts = get_posts(...);
return $controller->index($posts);
});
All of these will work, calling the closure instead of the original method:
$container->call('PostController@index');
$container->call('PostController', [], 'index');
$container->call([new PostController, 'index']);
However, any additional parameters to call()
are not passed into the closure so they can't be used.
$container->call('PostController@index', ['Not used :-(']);
Notes: This method is not part of the Container interface, only the concrete Container class. See the PR where it was added for why parameters are ignored.
Sometimes you want to use different implementations of an interface in different places. Here is an example adapted from the Laravel docs:
$container
->when(PhotoController::class)
->needs(Filesystem::class)
->give(LocalFilesystem::class);
$container
->when(VideoController::class)
->needs(Filesystem::class)
->give(S3Filesystem::class);
Now both PhotoController and VideoController can depend on the Filesystem interface, yet each will receive a different implementation. You can also use a closure for give()
, just as you can with bind()
:
$container
->when(VideoController::class)
->needs(Filesystem::class)
->give(function () {
return Storage::disk('s3');
});
Or a named dependency:
$container->instance('s3', $s3Filesystem);
$container
->when(VideoController::class)
->needs(Filesystem::class)
->give('s3');
You can also bind primitives (strings, integers, etc.) by passing a variable name to needs()
(instead of an interface) and passing the value to give()
:
$container
->when(MySQLDatabase::class)
->needs('$username')
->give(DB_USER);
You can use a closure to delay retrieving the value until it is needed:
$container
->when(MySQLDatabase::class)
->needs('$username')
->give(function () {
return config('database.user');
});
Here you can't pass a class or a named dependency (e.g. give('database.user')
) because it would be returned as a literal value - to do that you would have to use a closure instead:
$container
->when(MySQLDatabase::class)
->needs('$username')
->give(function (Container $container) {
return $container['database.user'];
});
You can use the container to "tag" related bindings:
$container->tag(MyPlugin::class, 'plugin');
$container->tag(AnotherPlugin::class, 'plugin');
And then retrieve all tagged instances as an array:
foreach ($container->tagged('plugin') as $plugin) {
$plugin->init();
}
Both tag()
parameters also accept arrays:
$container->tag([MyPlugin::class, AnotherPlugin::class], 'plugin');
$container->tag(MyPlugin::class, ['plugin', 'plugin.admin']);
Note: This is a little more advanced, and only rarely needed - feel free to skip over it!
A rebinding()
callback is called when a binding or instance is changed after it has already been used - for example, here the session class is replaced after it has been used by the Auth class, so the Auth class needs to be informed of the change:
$container->singleton(Auth::class, function (Container $container) {
$auth = new Auth;
$auth->setSession($container->make(Session::class));
$container->rebinding(Session::class, function ($container, $session) use ($auth) {
$auth->setSession($session);
});
return $auth;
});
$container->instance(Session::class, new Session(['username' => 'dave']));
$auth = $container->make(Auth::class);
echo $auth->username(); // dave
$container->instance(Session::class, new Session(['username' => 'danny']));
echo $auth->username(); // danny
(For more information about rebinding, see here and here.)
There is also a shortcut method, refresh()
, to handle this common pattern:
$container->singleton(Auth::class, function (Container $container) {
$auth = new Auth;
$auth->setSession($container->make(Session::class));
$container->refresh(Session::class, $auth, 'setSession');
return $auth;
});
It also returns the existing instance or binding (if there is one), so you can do this:
// This only works if you call singleton() or bind() on the class
$container->singleton(Session::class);
$container->singleton(Auth::class, function (Container $container) {
$auth = new Auth;
$auth->setSession($container->refresh(Session::class, $auth, 'setSession'));
return $auth;
});
(Personally I find this syntax more confusing and prefer the more verbose version above!)
Note: These methods are not part of the Container interface, only the concrete Container class.
The makeWith()
method allows you to pass additional parameters to the constructor. It ignores any existing instances or singletons, and can be useful for creating multiple instances of a class with different parameters while still injecting dependencies:
class Post
{
public function __construct(Database $db, int $id) { /* ... */ }
}
$post1 = $container->makeWith(Post::class, ['id' => 1]);
$post2 = $container->makeWith(Post::class, ['id' => 2]);
Note: In Laravel 5.3 and below it was simply make($class, $parameters)
. It was removed in Laravel 5.4, but then re-added as makeWith() in 5.4.16. In Laravel 5.5 it looks like it will be reverted back to the Laravel 5.3 syntax.
That covers all of the methods I think are useful - but just to round things off, here's a summary of the remaining public methods...
The bound()
method returns true if the class or name has been bound with bind()
, singleton()
, instance()
or alias()
.
if (! $container->bound('database.user')) {
// ...
}
You can also use the array access syntax and isset()
:
if (! isset($container['database.user'])) {
// ...
}
It can be reset with unset()
, which removes the specified binding/instance/alias.
unset($container['database.user']);
var_dump($container->bound('database.user')); // false
bindIf()
does the same thing as bind()
, except it only registers a binding if one doesn't already exist (see bound()
above). It could potentially be used to register a default binding in a package while allowing the user to override it.
$container->bindIf(Loader::class, FallbackLoader::class);
There is no singletonIf()
method, but you can use bindIf($abstract, $concrete, true)
instead:
$container->bindIf(Loader::class, FallbackLoader::class, true);
Or write it out in full:
if (! $container->bound(Loader::class)) {
$container->singleton(Loader::class, FallbackLoader::class);
}
The resolved()
method returns true if a class has previously been resolved.
var_dump($container->resolved(Database::class)); // false
$container->make(Database::class);
var_dump($container->resolved(Database::class)); // true
I'm not sure what it's useful for... It is reset if unset()
is used (see bound()
above).
unset($container[Database::class]);
var_dump($container->resolved(Database::class)); // false
The factory()
method returns a closure that takes no parameters and calls make()
.
$dbFactory = $container->factory(Database::class);
$db = $dbFactory();
I'm not sure what it's useful for...
The wrap()
method wraps a closure so that its dependencies will be injected when it is executed. The wrap method accepts an array of parameters; the returned closure takes no parameters:
$cacheGetter = function (Cache $cache, $key) {
return $cache->get($key);
};
$usernameGetter = $container->wrap($cacheGetter, ['username']);
$username = $usernameGetter();
I'm not sure what it's useful for, since the closure takes no parameters...
Note: This method is not part of the Container interface, only the concrete Container class.
The afterResolving()
method works exactly the same as resolving()
, except the "afterResolving" callbacks are called after the "resolving" callbacks. I'm not sure when that would be useful...
isShared()
- Determines if a given type is a shared singleton/instanceisAlias()
- Determines if a given string is a registered aliashasMethodBinding()
- Determines if the container has a given method bindinggetBindings()
- Retrieves the raw array of all registered bindingsgetAlias($abstract)
- Resolves an alias to the underlying class/binding nameforgetInstance($abstract)
- Clears a single instance objectforgetInstances()
- Clears all instance objectsflush()
- Clear all bindings and instances, effectively resetting the containersetInstance()
- Replaces the instance used bygetInstance()
(Tip: UsesetInstance(null)
to clear it, so next time it will generate a new instance)
Note: None of the methods in this last section are part of the Container interface.
This article was originally posted on DaveJamesMiller.com on 15 June 2017.