Config-driven Dependency Injector, based in large parts on Auryn.
This is a config-driven dependency injector, to allow easy registration of alias mappings through the brightnucleus/config
component.
It includes large parts of code from the rdlowrey/auryn
package.
Notable changes compared to Auryn:
- Injector configuration can be done through a Config file.
- Aliases are case-sensitive.
- Closures can receive an
InjectionChain
object that let you iterate over the instantiation hierarchy.
BrightNucleus Injector requires PHP 7.0+.
The best way to use this component is through Composer:
composer require brightnucleus/injector
This documentation only deals with passing in mappings through a
Config
file. Documentation for the basic methods still needs to be synced. For now, just refer to the Auryn README for these..
The Bright Nucleus Injector expects to get an object through its constructor that implements the BrightNucleus\Config\ConfigInterface
. You need to pass in the correct "sub-configuration", so that the keys that the Injector
is looking for are found at the root level.
The Injector
looks for three configuration keys: standardAliases
, sharedAliases
and configFiles
.
The injector works by letting you map aliases to implementations. An alias is a specific name that you want to be able to instantiate. Aliases can be classes, abstract classes, interfaces or arbitrary strings. You can map each alias to a concrete implementation that the injector should instantiate.
This allows you to have your classes only depend on interfaces, through constructor injection, and choose the specific implementation to use through the injector config file.
As an example, imagine the following class:
class BookReader
{
/** @var BookInterface */
protected $book;
public function __construct(BookInterface $book)
{
$this->book = $book;
}
public function read()
{
echo $this->book->getContents();
}
}
If we now define an alias 'BookInterface' => 'LatestBestseller'
, we can have code like the following:
<?php
$bookReader = $injector->make('BookReader');
// This will now echo the result of LatestBestseller::getContents().
$bookReader->read();
A standard alias is an alias that behaves like a normal class. So, for each new instantiation (using Injector::make()
), you'll get a fresh new instance.
Standard aliases are defined through the Injector::STANDARD_ALIASES
configuration key:
// Format:
// '<class/interface>' => '<concrete class to instantiate>',
Injector::STANDARD_ALIASES => [
'BrightNucleus\Config\ConfigInterface' => 'BrightNucleus\Config\Config',
]
A shared alias is an alias that behaves similarly to a static variable, in that they get reused across all instantiations. So, for each new instantiation (using Injector::make()
), you'll get exactly the same instance each time. The object is only truly instantiated the first time it is needed, and this instance is then shared.
Shared aliases are defined through the Injector::SHARED_ALIASES
configuration key:
// Format:
// '<class/interface>' => '<concrete class to instantiate>',
Injector::SHARED_ALIASES => [
'ShortcodeManager' => 'BrightNucleus\Shortcode\ShortcodeManager',
]
The argument definitions allow you to let the Injector
know what to pass in to arguments when you need to inject scalar values.
// Format:
//
// '<alias to provide argument for>' => [
// '<argument>' => '<callable or scalar that returns the value>',
// ],
Injector::ARGUMENT_DEFINITIONS => [
'PDO' => [
'dsn' => $dsn,
'username' => $username,
'passwd' => $password,
]
]
By default, the values you pass in as definitions are assumed to be raw values to be used as they are. If you want to pass in an alias through the Injector::ARGUMENT_DEFINITIONS
key, wrap it in a BrightNucleus\Injector\Injcetion
class, like so:
Injector::ARGUMENT_DEFINITIONS => [
'config' => [
'config' => new Injection( 'My\Custom\ConfigClass' ),
]
]
The argument providers allow you to let the Injector
know what to pass in to arguments when you need to instantiate objects, like $config
or $logger
. As these are probably different for each object, we need a way to map them to specific aliases (instead of having one global value to pass in). This is done by mapping each alias to a callable that returns an object of the correct type.
The Injector will create a light-weight proxy object for each of these. These proxies are instantiated and replaced by the real objects when they are first referenced.
As an example, pretty much all of the Bright Nucleus components use Config files to do project-specific work.
If you want to map aliases to specific subtrees of Config files, you can do this by providing a callable for each alias. When the Injector
tries to instantiate that specific alias, it will invoke the corresponding callable and hopefully get a matching Config back.
// Format:
// '<argument>' => [
// 'interface' => '<interface/class that the argument accepts>',
// 'mappings' => [
// '<alias to provide argument for>' => <callable that returns a matching object>,
// ],
// ],
Injector::ARGUMENT_PROVIDERS => [
'config' => [
'interface' => ConfigInterface::class,
'mappings' => [
ShortcodeManager::class => function ($alias, $interface) {
return ConfigFactory::createSubConfig(
__DIR__ . '/config/defaults.php',
$alias
);
},
],
],
]
The delegations allow you to let the Injector
delegate the instantiation for a given alias to a provided factory. The factory can be any callable that will return an object that is of a matching type to satisfy the alias.
If you need to act on the injection chain, like finding out what the object is for which you currently need to instantiate a dependency, add a BrightNucleus\Injector\InjectionChain $injectionChain
argument to your factory callable. You will then be able to query the passed-in injection chain. To query the injection chain, pass the index you want to fetch into InjectionChain::getByIndex($index)
. If you provide a negative index, you will get the nth element starting from the end of the queue counting backwards.
As an example, consider an ExampleClass
with a constructor __construct( ExampleDependency $dependency )
. The injection chain would be the following (in namespace Example\Namespace
) :
[0] => 'Example\Namespace\ExampleClass'
[1] => 'Example\Namespace\ExampleDependency'
So, in the example below, we use getByIndex(-2)
to fetch the second-to-last element from the list of injections.
// Format:
// '<alias>' => <callable to use as factory>
Injector::DELEGATIONS => [
'Example\Namespace\ExampleDependency' => function ( InjectionChain $injectionChain ) {
$parent = $injectionChain->getByIndex(-2);
$factory = new \Example\Namespace\ExampleFactory();
return $factory->createFor( $parent );
},
]
The preparations allow you to let the Injector
define additional preparation steps that need to be done after instantiation, but before the object if actually used.
The callable will receive two arguments, the object to prepare, as well as a reference to the injector.
// Format:
// '<alias>' => <callable to execute after instantiation>
Injector::PREPARATIONS => [
'PDO' => function ( $instance, $injector ) {
/** @var $instance PDO */
$instance->setAttribute(
PDO::ATTR_DEFAULT_FETCH_MODE,
PDO::FETCH_OBJ
);
},
]
You can register additional mappings at any time by simply passing additional Configs to the Injector::registerMappings()
method. It takes the exact same format as the constructor.
$config = ConfigFactory::create([
Injector::STANDARD_ALIASES => [
'ExampleInterface' => 'ConcreteExample'
]
]);
$injector->registerMappings($config);
// Here, `$object` will be an instance of `ConcreteExample`.
$object = $injector->make('ExampleInterface');
Note: For such a simple example, creating a configuration file is of course overkill. You can just as well use the basic Auryn
alias functionality and just Injector::alias()
an additional alias. Refer to the Auryn Documentation to read more about the different ways of configuring the injector manually.
All feedback / bug reports / pull requests are welcome.
This package uses the PHP Composter PHPCS PSR-2 package to check committed files for compliance with the PSR-2 Coding Style Guide. If you have valid reasons to skip this check, add the --no-verify
option to your commit command:
git commit --no-verify
This code is released under the MIT license.
For the full copyright and license information, please view the LICENSE
file distributed with this source code.
Large parts of this code were initially taken from the rdlowrey/auryn
project.
Copyright for the original Auryn code is (c) 2013-2014 Daniel Lowrey, Levi Morrison, Dan Ackroyd.