A PHP 5.2 compatible dependency injection container heavily inspired by Laravel IOC and Pimple that works even better on newer version of PHP.
Use Composer to require the library:
composer require lucatume/di52Include the Composer autoload file in your project entry point and create a new instance of the container to start using it:
require_once 'vendor/autoload.php'
$container = new tad_DI52_Container();If that's not an option then clone or download the package and require the di52/autoload.php file in your code:
require_once 'path/to/di52/autoload.php'
$container = new tad_DI52_Container();Where path/to/di52/autoload.php is the absolute path to the autoload.php file found in di52 root folder.
While the container will work on newer versions of php it was born to support PHP 5.2 out of the box; if the application requires it I suggest requiring the xrstf/composer-php52 package to handle autoloading on PHP 5.2 compatible code.
While the examples in the code are, for the most part, PHP 5.2 compatible di52 will work even better with newer versions of PHP.
// ClassOne.php
class ClassOne implements InterfaceOne {}
// MysqlConnection.php
class MysqlConnection implements DbConnectionInterface {}
// ClassThree.php
class ClassThree {
public function __construct(InterfaceOne $one, DbConnectionInterface $db){
// ...
}
}
// in the application bootstrap file
$container = new tad_DI52_Container();
$container->bind('InterfaceOne', 'ClassOne');
$container->singleton('DbConnectionInterface', 'MysqlConnection');
$three = $container->make('ClassThree');A Dependency Injection (DI) Container is a tool meant to make dependency injection possible and easy to manage.
Dependencies are specified by a class constructor method via type-hinting:
class A {
private $b;
private $c;
public function __construct(B $b, C $c){
$this->b = $b;
$this->c = $c;
}
}Any instance of class A depends on implementations of the B and C classes.
The "injection" happens when class A dependencies are passed to it, "injected" in its constructor method, in place of being created inside the class itself.
$a = new A(new B(), new C());The flexibility of type hinting allows injecting into A not just instances of B and C but instances of any class extending the two:
class ExtendedB extends B {}
class ExtendedC extends C {}
$a = new a(new ExtendedB(), new ExtendedC());PHP allows type hinting not just concrete implementations (classes) but interfaces too:
class A {
private $b;
private $c;
public function __construct(BInterface $b, CInterface $c){
$this->b = $b;
$this->c = $c;
}
}This extends the possibilities of dependency injection even further and avoids strict coupling of the code:
class B implements BInterface {}
class C implements CInterface {}
$a = new a(new B(), new C());The B and C classes are concrete (as in "you can instance them") implementations of interfaces and while the interfaces might never change the implementations might and should change in the lifecycle of code: that's the Dependency Inversion principle or "depend upon abstraction, non concretions".
If the implementation of BInterface changes from B to BetterB then I'd have to update all the code where I'm building instances of A to use BetterB in place of B:
// before
$a = new A(new B(), new C());
//after
$a = new A(new BetterB(), new C());On smaller code-bases this might prove to be a quick solution but, as the code grows, it will become less and less an applicable solution.
Adding classes to the mix proves the point when dependencies start to stack:
class D implements DInterface{
public function __construct(AInterface $a, CInterface $c){}
}
class E {
public function __construct(DInterface $d){}
}
$a = new A (new BetterB(), new C());
$d = new D($a, $c);
$e = new E($d);Another issue with this approach is that classes have to be built immediately to be injected, see $a and $d above to feed $e, with the immediate cost of "eager" instantiation, if $e is never used than the effort put into building it, in terms of time and resources spent by PHP to build $a, $b, $c, $d and finally $e, are wasted.
A dependency injection container is an object that, provided construction templates of objects, will take care of building only objects that are really needed taking care of resolving nested dependencies.
Need an instance of
E? I will build instances ofBandCto build an instance ofAto build an instance ofDto finally build and return an instance ofE.
The container will need to be told, just once, how objects should be built.
For the container it's easy to understand that a class type-hinting an instance of the concrete class A will require a new instance of A but loosely coupled code leveraging the use of a DI container will probably type-hint an interface in place of concrete classes.
Telling the container what concrete class to instance when a certain interface is requested by an object __construct method is called "binding and implementation to an interface".
While dependency injection can be made in other methods too beyond the __construct one that's what di52 supports at the moment; if you want to read more the web is full of good reference material, this article by Fabien Potencier is a very good start.
At its base the container is a dependency resolution and injection machine: given a class to its make method it will read the class type-hinted dependencies, build them and inject them in the class.
// file ClassThree.php
class ClassThree {
private $one;
private $two;
public function __construct(ClassOne $one, ClassTwo $two){
$this->one = $one;
$this->two = $two;
}
}
// application bootstrap file
$container = new tad_DI52_Container();
$three = $container->make('ClassThree');Keep that in mind while reading the following paragraphs.
In its most basic use case the container can store variables:
$container = new tad_DI52_Container();
$container->setVar('foo', 23);
$foo = $container->getVar('foo');Since di52 will treat any callable object as a factory (see below) callables have to be protected using the container protect method:
$container = new tad_DI52_Container();
$container->setVar('foo.factory', $container->protect(function($val){
return $val + 23;
}));
$foo = $container->getVar('foo');Once an instance of di52 is available telling it what should be built and when is quite easy; di52 proposes the same API exposed by Laravel Service container and while the inner workings are different the good idea (Laravel's) is reused.
Reusing the example above:
$container = new tad_DI52_Container();
// binding
$container->bind('AInterface', 'A');
$container->bind('BInterface', 'BetterB');
$container->bind('CInterface', 'C');
$container->bind('DInterface', 'D');
// constructing
$e = $container->make('E');The make method will build the E object resolving its requirements to the bound implementations when requested.
When using the bind method a new instance of the bound implementations will be returned on each request; this might not be the wanted behaviour especially for object costly to build (like a database driver that needs to connect): in that case the singleton method should be used:
$container = new tad_DI52_Container();
$container->singleton('DBDriverInterface', 'MYSqlDriver');
$container->singleton('RepositoryInterface', 'MYSQLRepository')
$container->make('RepositoryInterface');Binding an implementation to an interface using the singleton methods tells the container the implementations should be built just the first time: any later call for that same interface should return the same instance.
Implementations can be redefined in any moment simple calling the bind or singleton methods again specifying a different implementation.
The container allows binding (using the bind or the singleton method) more than just implementations in the form of class names to take into account various scenarios where objects might be pre-existing in previous code or built in an other way; when binding an object that same object will be returned each time making the use of bind and singleton equivalent:
$container = new tad_DI52_Container();
// a globally stored instance of the database handling class
global $db;
$container->bind('DBInterface', $db)
// binding an object that's built using a factory
$container->bind('RepositoryInterface', RepositoryFactory::make('post'));
if($foo) {
$handler = new HandlerOne();
} else {
$handler = new HandlerTwo();
}
// binding an object that's built in some other way
$container->bind('HandlerInterface', $handler);All of the cases above suffers from an "eager instantiation" that's far from being ideal; if that's the case and the code runs on PHP 5.3+ then closures can be bound as factories using bind and as singletons using singleton:
$container = new tad_DI52_Container();
// binding an object that's built using a factory using a closure
$container->bind('RepositoryInterface', function(){
return RepositoryFactory::make('post');
});
// binding an object that's built in some other way
$container->singleton('HandlerInterface', function(){
if($foo) {
$handler = new HandlerOne();
} else {
$handler = new HandlerTwo();
}
});Closures will receive the container itself as an argument and will be able to leverage its resolution power:
$container = new tad_DI52_Container();
$container->make('DBDriverInterface', 'MYSQLDriver');
$container->bind('DBInterface', function(tad_DI52_Container $container){
$dbDriver = $container->make('DBDriverInterface');
return new DBConnection($dbDriver);
});Binding implementations to interfaces works when the object constructor methods type hint interfaces but that might not always be the case; the container will handle that case allowing implementations to be bound to classes supporting both the bind and the singleton methods:
// file LegacyClass.php
class LegacyClass {
public function __construct(ClassOne $one, ClassTwo $two){}
}
// app bootstrap file
$container = new tad_DI52_Container();
$container->bind('ClassOne', 'ModernClassOne');
$container->bind('ClassTwo', 'ModernClassTwo');
// the container will inject instances of the `ModernClassOne` and `ModernClassTwo` classes
$container->make('LegacyClass');The container was heavily inspired by Pimple and offers some features of the PHP 5.3+ DI container as well:
$container = new tad_DI52_Container();
$container['db.driver'] = 'MYSQLDriver';
// storing a closure as a singleton constructor
$container['db.connection'] = function($container){
$dbDriver = $container->make('db.driver');
return new DBConnection($dbDriver);
};
$dbConnection = $container['db.connection'];
// storing a closure as a var
$container['uniqid'] = $container->protect(function(){
return uniqid(rand(1, 99999));
});
// storing vars
$container['db.name'] = 'appDb';
$container['db.user'] = 'root';
$container['db.pass'] = '';
$container['db.host'] = 'localhost';
// getting vars
$dbName = $container['db.name'];
$dbName = $container['db.user'];
$dbPass = $container['db.pass'];
$dbHost = $container['db.host'];There is no replacement for the factory method offered by Pimple: the bind method should be used instead.
Borrowing an excellent idea from Laravel's container the possibility of contextual binding exists (supporting all the binding possibilities above).
Contextual binding solves the problem of different objects requiring different implementations of the same interface (or class, see above):
$container = new tad_DI52_Container();
// by default any object requiring an implementation of the `CacheInterface`
// should be given the same instance of `Array Cache`
$container->singleton('CacheInterface', 'ArrayCache');
$container->bind('DbCache', function($container){
$cache = $container->make('CacheInterface');
$dbCache = new DbCache($cache);
$dbCache->prime();
$dbCache->dump();
return $dbCache;
});
// but when an implementation of the `CacheInterface` is requested by `TransactionManager`
// give it an instance of `DbCache` instead
$container->when('TransactionManager')
->needs('CacheInterface')
->give('DbCache');When working on PHP 5.2 compatible code closures will not be available and while that does impose limits di52 tries to "limit the damage".
The last code example could be rewritten in PHP 5.2 compatible code leveraging the container support for after-build methods: methods that will be called with no arguments on the built objects after it has been built:
$container = new tad_DI52_Container();
$container->singleton('CacheInterface', 'ArrayCache');
$container->singleton('DbCache', 'DbCache', array('prime', 'dump'));
$container->when('TransactionManager')
->needs('CacheInterface')
->give('DbCache');After-build methods can be specified as the third argument of the bind an singleton methods.
If the implementation is bound using singleton then the after-build methods will be called only the first time when the object is built.
The Decorator pattern allows extending the functionalities of an implementation without creating an extension and leveraging interfaces.
In very simple terms:
interface EndpointInterface {
public function get();
}
class BaseEndpoint implements EndpointInterface {
private $repository;
public function __construct(ReposistoryInterface $repository) {
$this->repository = $repository;
}
public function get() {
return $this->repository->getAll();
}
}
class CachingEndpoint implements EndpointInterface {
private $decorated;
private $cache;
public function __construct(EndpointInterface $decorated, CacheInterface $cache ) {
$this->decorated = $decorated;
$this->cache = $cache;
}
public function get() {
$data = $this->cache->get('data')
if(false === $data) {
$data = $this->decorated->get();
$this->cache->set('data', $data);
}
return $data;
}
}
class LoggingEndpoint implements EndpointInterface {
private $decorated;
private $logger;
public function __construct(EndpointInterface $decorated, LoggerInterface $logger ) {
$this->decorated = $decorated;
$this->logger = logger$;
}
public function get() {
$this->logger->logRequest('get');
$data = $this->decorated->get();
return $data;
}
}The container allows binding "chain of decorators" to an interface (or slug a la Pimple, or class) using the bindDecorators and singletonDecorators.
The two methods are the bind and singleton equivalents for decorators.
The two methods can be skipped on PHP 5.3+ code:
$container = new tad_DI52_Container();
$container->bind('RepositoryInterface', 'PostRepository');
$container->bind('CacheInterface', 'ArrayCache');
$container->bind('LoggerInterface', 'FileLogger');
$container->bind('PostEndpoint', function($container){
$base = $container->make('BaseEndpoint');
$caching = new CachingEndpoint($base, $container->make('CacheInterface'));
$logging = new LoggingEndpoint($caching, $container->make('LoggerInterface'));
return $logging;
});But becomes necessary on PHP 5.2 compatible code:
$container = new tad_DI52_Container();
$container->bind('CacheInterface', 'ArrayCache');
$container->bind('LoggerInterface', 'FileLogger');
// decorate right to left, last is built first!
$container->bindDecorators('EndpointInterface', array('LoggingEndpoint', 'CachingEndpoint', 'BaseEndpoint'));
$postEndpoint = $container->make('EndpointInterface');Tagging allows grouping similar implementations for the purpose of referencing them by group.
Grouping implementations makes sense when, as an example, the same method has to be called on each implementation:
$container = new tad_DI52_Container();
$container->bind('UnsupportedEndpoint', function($container){
$template = '404';
$message = 'Nope';
$redirectAfter = 3;
$redirectTo = $container->make('HomeEndpoint');
return new UnsupportedEndpoint($template, $message, $redirectAfter, $redirectTo);
});
$container->tag(array('HomeEndpoint', 'PostEndpoint', 'UnsupportedEndpoint'), 'endpoints');
foreach($container->tagged('enpoints') as $endpoint) {
$endpoint->register();
}The tag method supports any possibility offered by the container in terms of binding of objects, closures, decorator chains and after-build methods.
In the example above the UnsupportedEndpoint requires three primitive parameters and an endpoint to be built and the method used above relies on closures only available in PHP 5.3+.
To offer a degree of support the container offers the instance method that allows rewriting the code above to this:
$container = new tad_DI52_Container();
$container->bind('UnsupportedEndpoint', $container->instance('404', 'Nope', 3, 'HomeEndpoint'));
$container->tag(array('HomeEndpoint', 'PostEndpoint', 'UnsupportedEndpoint'), 'enpoints');
foreach($container->tagged('enpoints') as $endpoint) {
$endpoint->register();
}The instance methods does not offer the same amount of flexibility closures offer (and that's why closures were implemented) but mitigates the problem avoiding other work-arounds (singletons, factories or an eager instantiation) and granting a lazy instantiation.
Some applications require callbacks (or some form of callable) to be returned in specific pieces of code.
This is especially the case with WordPress and its event-based architecture.
Using the container does not removes that possibility:
$container = new tad_DI52_Container();
$container->bind('FilterInterface', 'ConcreteFilter');
add_filter('some_filter', array($container->make('FilterInterface'), 'filter'));This code suffers, but, from an eager instantiation problem: ConcreteFilter is built for the purpose of binding it but might never be used.
The problem is easy to solve on PHP 5.3+:
$container = new tad_DI52_Container();
$container->bind('FilterInterface', 'ConcreteFilter');
$filterFunction = function($dataToFilter) use($container){
$filter = $container->make('FilterInterface');
return $filter->filter($data);
};
add_filter('some_filter', $filterFunction);But this is not an option on PHP 5.2 compatible code.
In that case the container offers the callback method to return a callable function that will lazily build the object, call the method on it passing the call arguments and return its return value:
$container = new tad_DI52_Container();
$container->bind('FilterInterface', 'ConcreteFilter');
add_filter('some_filter', $container->callback('FilterInterface', 'filter'));To avoid passing the container instance around (see Service Locator pattern) or globalising it all the binding should happen in the same PHP file: this could lead, as the application grows, to a thousand lines monster.
To avoid that the container supports service providers: those are classes implmenting the tad_DI52_ServiceProviderInterface interface, or extend the ready to use tad_DI52_ServiceProvider class, that allow organizing the binding registrations into logical, self-contained and manageable units:
// file ProviderOne.php
class ProviderOne extends tad_DI52_ServiceProvider {
public function register() {
$this->container->bind('InterfaceOne', 'ClassOne');
$this->container->bind('InterfaceTwo', 'ClassTwo');
$this->container->singleton('InterfaceThree', 'ClassThree');
}
}
// application bootstrap file
$container = new tad_DI52_Container();
$container->register('ProviderOne');The container implements a boot method that will, in turn, call the boot method on any service provider that overloads it.
Some applications might define constants and environment variables at "boot" time (e.g. WordPress plugins_loaded action) that might make an immediate registration futile.
In that case service providers can overload the boot method:
// file ProviderOne.php
class ProviderOne extends tad_DI52_ServiceProvider {
public function register() {
$this->container->bind('InterfaceOne', 'ClassOne');
$this->container->bind('InterfaceTwo', 'ClassTwo');
$this->container->singleton('InterfaceThree', 'ClassThree');
}
public function boot() {
if(defined('SOME_CONSTANT')) {
$this->container->bind('InterfaceFour', 'ClassFour');
} else {
$this->container->bind('InterfaceFour', 'AnotherClassFour');
}
}
}
// application bootstrap file
$container = new tad_DI52_Container();
$container->register('ProviderOne');Sometimes even just setting up the implementations might require such an up-front cost to make it undesireable unless it's needed.
This might happen with non autoloading code that will require a tangle of files to load (and side load) to grab a simple class instance.
To "defer" that cost service providers can overload the deferred property and the provides method:
// file ProviderOne.php
class ProviderOne extends tad_DI52_ServiceProvider {
public $deferred = true;
public function provides() {
return array('LegacyClassOne', 'LegacyInterfaceTwo');
}
public function register() {
include_once('legacy-file-one.php')
include_once('legacy-file-two.php')
$db = new Db();
$details = $db->getDetails();
$this->container->singleton('LegacyClassOne', new LegacyClassOne($details));
$this->container->bind('LegacyInterfaceTwo', new LegacyClassTwo($details));
}
}
// application bootstrap file
$container = new tad_DI52_Container();
// the provider `register` method will not be called immediately...
$container->register('ProviderOne');
// ...it will be called here as it provides the binding of `LegacyClassOne`
$legacyOne = $container->make('LegacyClassOne');
// will not be called again here, done already
$legacyTwo = $container->make('LegacyInterfaceTwo');