An IDE and static analysis friendly PHP DI container
Most Dependency Injection containers have fetch operations, like $di->get('foo')
or $di['foo']
, which don’t allow your IDE to know the type of value received, nor offer you any help remembering/typing key names.
With Props, you access values via custom property reads $di->foo
or method calls $di->new_foo()
. This allows you to subclass the container and provide @property
and/or @method
PHPDoc declarations, giving your IDE and static analysis tools valuable runtime type information.
An example will help:
/**
* @property-read Foo $foo
* @method Foo new_foo()
*/
class MyContainer extends \Props\Container {
public function __construct() {
$this->foo = function (MyContainer $c) {
return new Foo();
};
}
}
$c = new MyContainer();
$foo1 = $c->foo; // your IDE knows this is a Foo instance
$foo2 = $c->new_foo(); // A fresh Foo instance
$foo3 = $c->foo; // same as $foo1
Here’s a more complex example:
/**
* @property-read string $style
* @property-read Dough $dough
* @property-read Cheese $cheese
* @property-read Pizza $pizza
* @method Slice new_slice()
*/
class PizzaServices extends \Props\Container {
public function __construct() {
$this->style = 'deluxe';
$this->dough = function (PizzaServices $c) {
return new Dough();
};
$this->setFactory('cheese', 'CheeseFactory::getCheese');
$this->pizza = function (PizzaServices $c) {
$pizza = new Pizza($c->style, $c->cheese);
$pizza->setDough($c->dough);
return $pizza;
};
$this->slice = function (PizzaServices $c) {
return $c->pizza->getSlice();
};
}
}
$c = new PizzaServices;
$c->pizza; // This first resolves and caches the cheese and dough.
$c->pizza; // The same pizza instance as above (no factories called).
Since “slice” has a factory function set, we can call new_slice()
to get fresh instances from it:
$c->new_slice(); // a new Slice instance
$c->new_slice(); // a new Slice instance
Your IDE sees the container as a plain old class of typed properties, allowing it to offer suggestions of available properties, autocomplete their names, and autocomplete the objects returned. It gives you much more power when providing static analysis and automated refactoring.
Props\Container
implements ContainerInterface
.
You can specify dependencies via direct setting:
$c->aaa = new AAA();
You can specify factories by setting a Closure
, or by using the setFactory()
method. These are functionally equivalent:
$c->bbb = function ($c) {
return BBB::factory($c);
};
$c->setFactory('bbb', 'BBB::factory');
Resolved dependencies are cached, returning the same instance:
$c->bbb === $c->bbb; // true
If you don’t want a cached value, use new_PROPERTYNAME()
to always fetch a fresh instance:
$c->new_bbb() === $c->new_bbb(); // false
Regular value sets do not store a factory, so you may want to check hasFactory()
before you use new_PROPERTYNAME()
:
// store a value
$c->ccc = new CCC();
$c->hasFactory('ccc'); // false
// store a factory
$c->ccc = function () {
return new CCC();
};
$c->hasFactory('ccc'); // true
You can also get access to a set factory:
$callable = $c->getFactory('ccc');
Use extend
to have the return value of a factory filtered before it’s returned:
$c->foo = function ($c) {
return new Foo($c->bar);
};
$c->extend('foo', function ($value, Container $c) {
return array($value, $c->bing);
});
$c->foo; // [Foo, "bing"]
$c->new_foo(); // re-call original foo factory and re-extend output (`bar` and `bing` will be re-read)
If you’re used to the Pimple API, try Props\Pimple
, which just adds property access. With that you can add @property
declarations and get the same typing benefits.
You can see an example that’s similar to the Pimple docs.
See LICENSE.