illuminatech / array-factory
Allows DI aware object creation from array definition
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Requires
- illuminate/support: ^6.0 || ^7.0 || ^8.0 || ^9.0 || ^10.0 || ^11.0
Requires (Dev)
- illuminate/container: *
- phpunit/phpunit: ^7.5 || ^8.0 || ^9.3 || ^10.5
README
Laravel Array Factory
This extension allows DI aware object creation from array definition.
For license information check the LICENSE-file.
Installation
The preferred way to install this extension is through composer.
Either run
php composer.phar require --prefer-dist illuminatech/array-factory
or add
"illuminatech/array-factory": "*"
to the require section of your composer.json.
Usage
This extension allows DI aware object creation from array definition.
Creation is performed by factory defined via \Illuminatech\ArrayFactory\FactoryContract
contract.
\Illuminatech\ArrayFactory\Factory
can be used for particular implementation.
Such factory allows creation of any object from its array definition.
Keys in definition array are processed by following rules:
- '__class': string, full qualified name of the class to be instantiated.
- '__construct()': array, arguments to be bound during constructor invocation.
- 'methodName()': array, list of arguments to be passed to the object method, which name defined via key.
- 'fieldOrProperty': mixed, value to be assigned to the public field or passed to the setter method.
- '()': callable, PHP callback to be invoked once object has been instantiated and all other configuration applied to it.
Imagine we have the following class defined at our project:
<?php class Car { public $condition; public $registrationNumber; private $type = 'unknown'; private $color = 'unknown'; private $engineRunning = false; public function __construct(string $condition) { $this->condition = $condition; } public function setType(string $type) { $this->type = $type; } public function getType(): string { return $this->type; } public function color(string $color): self { $this->color = $color; return $this; } public function startEngine(): self { $this->engineRunning = true; return $this; } }
Instance of such class can be instantiated using array factory in the following way:
<?php /* @var $factory \Illuminatech\ArrayFactory\FactoryContract */ $car = $factory->make([ '__class' => Car::class, // class name '__construct()' => ['condition' => 'good'], // constructor arguments 'registrationNumber' => 'AB1234', // set public field `Car::$registrationNumber` 'type' => 'sedan', // pass value to the setter `Car::setType()` 'color()' => ['red'], // pass arguments to the method `Car::color()` '()' => function (Car $car) { // final adjustments to be made after object creation and other config application: $car->startEngine(); }, ]);
The main benefit of array object definition is lazy loading: you can define entire object configuration as a mere array without even loading the class source file, and then instantiate actual object only in case it becomes necessary.
Defined array configuration can be adjusted, applying default values for it. For example:
<?php /* @var $factory \Illuminatech\ArrayFactory\FactoryContract */ $config = [ 'registrationNumber' => 'AB1234', 'type' => 'sedan', 'color()' => ['red'], ]; // ... $defaultCarConfig = [ '__class' => Car::class, 'type' => 'sedan', 'condition' => 'good', ]; $car = $factory->make(array_merge($defaultCarConfig, $config));
You may use \Illuminatech\ArrayFactory\Facades\Factory
facade for quick access to the factory functionality.
For example:
<?php use Illuminatech\ArrayFactory\Facades\Factory; $car = Factory::make([ '__class' => Car::class, 'registrationNumber' => 'AB1234', 'type' => 'sedan', ]);
Service configuration
The most common use case for array factory is creation of the universal configuration for particular application service. Imagine we create a library providing geo-location by IP address detection. Since there are plenty of external services and means to solve this task, we have created some high level contract, like following:
<?php namespace MyVendor\GeoLocation; use Illuminate\Http\Request; interface DetectorContract { public function detect(Request $request): LocationInfo; }
This contract may have multiple different implementations: each per each different approach and service. Each particular implementation provides its own set of configuration parameters, which can not be unified. Using array factory, we can define a service provider for such library in following way:
<?php namespace MyVendor\GeoLocation; use Illuminatech\ArrayFactory\Factory; use Illuminate\Support\ServiceProvider; class DetectorServiceProvider extends ServiceProvider { public function register() { $this->app->singleton(DetectorContract::class, function ($app) { $factory = new Factory($app); $factory->make(array_merge( ['__class' => DefaultDetector::class], // default config $app->config->get('geoip', []) // developer defined config )); }); } }
This allows developer to specify any particular detector class to be used along with its configuration. The actual configuration file 'config/geoip.php' may look like following:
<?php /* file 'config/geoip.php' */ return [ '__class' => \MyVendor\GeoLocation\SomeExternalApiDetector::class, 'apiEndpoint' => 'https://some.external.service/api', 'apiKey' => env('SOME_EXTERNAL_API_KEY'), ];
It can also look like following:
<?php /* file 'config/geoip.php' */ return [ '__class' => \MyVendor\GeoLocation\LocalFileDetector::class, 'geoipDatabaseFile' => __DIR__.'/geoip/local.db', ];
Both configuration will work fine with the service provider we created, and same will be for countless other possible configurations for different geo-location detectors, which may not even exist yet.
Heads up! Remember to avoid usage of \Closure
, while creating application configuration, otherwise you will
face the error during configuration caching.
Interaction with DI container
\Illuminatech\ArrayFactory\Factory
is DI aware: it performs object instantiation via \Illuminate\Contracts\Container\Container::make()
.
Thus bindings set within the container will affect object creation. For example:
<?php use Illuminate\Container\Container; use Illuminatech\ArrayFactory\Factory; $container = Container::getInstance(); $factory = new Factory($container); $container->bind(Car::class, function() { $car = new Car(); $car->setType('by-di-container'); return $car; }); /* @var $car Car */ $car = $factory->make([ '__class' => Car::class, 'registrationNumber' => 'AB1234', ]); var_dump($car->getType()); // outputs: 'by-di-container'
Note: obviously, in case there is a DI container binding for the instantiated class, the key '__construct()' inside array configuration will be ignored.
DI container is also used during configuration method invocations, allowing automatic arguments injection. For example:
<?php use Illuminate\Container\Container; use Illuminatech\ArrayFactory\Factory; class Person { public $carRents = []; public function rentCar(Car $car, $price) { $this->carRents[] = ['car' => $car, 'price' => $price]; } } $container = Container::getInstance(); $factory = new Factory($container); $container->bind(Car::class, function() { $car = new Car(); $car->setType('by-di-container'); return $car; }); /* @var $person Person */ $person = $factory->make([ '__class' => Person::class, 'rentCar()' => ['price' => 12], ]); var_dump($person->carRents[0]['car']->getType()); // outputs: 'by-di-container' var_dump($person->carRents[0]['price']); // outputs: '12'
Note that final handler callback ('()' configuration key) is not DI aware and does not provide binding for its arguments. However, the factory instance is always passed as its second argument, allowing you to access to its DI container if needed. Following code will produce the same result as the one from previous example:
<?php use Illuminate\Container\Container; use Illuminatech\ArrayFactory\Factory; $container = Container::getInstance(); $factory = new Factory($container); /* @var $person Person */ $person = $factory->make([ '__class' => Person::class, '()' => function (Person $person, Factory $factory) { $factory->getContainer()->call([$person, 'rentCar'], ['price' => 12]); }, ]);
Standalone configuration
You may use array factory to configure or re-configure already existing objects. For example:
<?php use Illuminatech\ArrayFactory\Factory; $factory = new Factory(); $car = new Car(); $car->setType('sedan'); $car->color('red'); /* @var $car Car */ $car = $factory->configure($car, [ 'type' => 'hatchback', 'color()' => ['green'], ]); var_dump($car->getType()); // outputs: 'hatchback' var_dump($car->getColor()); // outputs: 'green'
Type ensuring
You may add extra check whether created object matches particular base class or interface, using ensure()
method.
For example:
<?php use Illuminate\Support\Carbon; use Illuminate\Cache\RedisStore; use Illuminate\Contracts\Cache\Store; use Illuminatech\ArrayFactory\Factory; $factory = new Factory(); // successful creation: $cache = $factory->ensure( [ '__class' => RedisStore::class, ], Store::class ); // throws an exception: $cache = $factory->ensure( [ '__class' => Carbon::class, ], Store::class );
Immutable methods handling
\Illuminatech\ArrayFactory\Factory
handles immutable methods during object configuration, returning new object
from their invocations. For example: in case we have following class:
<?php class CarImmutable extends Car { public function setType(string $type) { $new = clone $this; // immutability $new->type = $type; return $new; } public function color(string $color): self { $new = clone $this; // immutability $new->color = $color; return $new; } }
The following configuration will be applied correctly:
<?php use Illuminatech\ArrayFactory\Factory; $factory = new Factory(); /* @var $car Car */ $car = $factory->make([ '__class' => CarImmutable::class, 'type' => 'sedan', 'color()' => ['green'], ]); var_dump($car->getType()); // outputs: 'sedan' var_dump($car->getColor()); // outputs: 'green'
Note: since there could be immutable method invocations during configuration, you should always use result of
\Illuminatech\ArrayFactory\FactoryContract::configure()
method instead of its argument.
Recursive make
For complex object, which stores other object as its inner property, there may be need to configure both host and resident objects using array definition and resolve them both via array factory. For this case definition like following may be created:
<?php $config = [ '__class' => Car::class, // ... 'engine' => [ '__class' => InternalCombustionEngine::class, // ... ], ];
However, nested definitions are not resolved by array factory automatically. Following example will not instantiate engine instance:
<?php use Illuminatech\ArrayFactory\Factory; $factory = new Factory(); $config = [ '__class' => Car::class, // ... 'engine' => [ '__class' => InternalCombustionEngine::class, // ... ], ]; $car = $factory->make($config); var_dump($car->engine); // outputs array
This is done in order to allow setup of the slave internal configuration into created object, so it be can resolved in lazy way according to its own internal logic.
However, you may enforce resolving of the nested definition wrapping it into \Illuminatech\ArrayFactory\Definition
instance.
For example:
<?php use Illuminatech\ArrayFactory\Factory; use Illuminatech\ArrayFactory\Definition; $factory = new Factory(); $config = [ '__class' => Car::class, // ... 'engine' => new Definition([ '__class' => InternalCombustionEngine::class, // ... ]), ]; $car = $factory->make($config); var_dump($car->engine); // outputs object