在Laravel的构造函数中可以实现自动依赖注入,而不需要实例化之前先实例化需要的类,如代码所示:
namespace LioHttpControllersForum;
use LioForumRepliesReplyRepository;
use LioForumThreadsThreadCreator;
use LioForumThreadsThreadCreatorListener;
use LioForumThreadsThreadDeleterListener;
use LioForumThreadsThreadForm;
use LioForumThreadsThreadRepository;
use LioForumThreadsThreadUpdaterListener;
use LioHttpControllersController;
use LioTagsTagRepository;
class ForumThreadsController extends Controller implements ThreadCreatorListener, ThreadUpdaterListener, ThreadDeleterListener
{
protected $threads;
protected $tags;
protected $currentSection;
protected $threadCreator;
public function __construct(
ThreadRepository $threads,
ReplyRepository $replies,
TagRepository $tags,
ThreadCreator $threadCreator
) {
$this->threads = $threads;
$this->tags = $tags;
$this->threadCreator = $threadCreator;
$this->replies = $replies;
}
}
注意构造函数中的几个类型约束,其实并没有地方实例化这个Controller并把这几个类型的参数传进去,Laravel会自动检测类的构造函数中的类型约束参数,并自动识别是否初始化并传入。
源码vendor/illuminate/container/Container.php中的build方法:
$constructor = $reflector->getConstructor();
dump($constructor);
这里会解析类的构造函数,在这里打印看:
reflection_construct
它会找出构造函数的参数,再看完整的build方法进行的操作:
public function build($concrete, array $parameters = [])
{
// If the concrete type is actually a Closure, we will just execute it and
// hand back the results of the functions, which allows functions to be
// used as resolvers for more fine-tuned resolution of these objects.
if ($concrete instanceof Closure) {
return $concrete($this, $parameters);
}
$reflector = new ReflectionClass($concrete);
// If the type is not instantiable, the developer is attempting to resolve
// an abstract type such as an Interface of Abstract Class and there is
// no binding registered for the abstractions so we need to bail out.
if (! $reflector->isInstantiable()) {
$message = "Target [$concrete] is not instantiable.";
throw new BindingResolutionContractException($message);
}
$this->buildStack[] = $concrete;
$constructor = $reflector->getConstructor();
// If there are no constructors, that means there are no dependencies then
// we can just resolve the instances of the objects right away, without
// resolving any other types or dependencies out of these containers.
if (is_null($constructor)) {
array_pop($this->buildStack);
return new $concrete;
}
$dependencies = $constructor->getParameters();
// Once we have all the constructor's parameters we can create each of the
// dependency instances and then use the reflection instances to make a
// new instance of this class, injecting the created dependencies in.
$parameters = $this->keyParametersByArgument(
$dependencies, $parameters
);
$instances = $this->getDependencies(
$dependencies, $parameters
);
array_pop($this->buildStack);
return $reflector->newInstanceArgs($instances);
}
具体从容器中获取实例的方法:
protected function resolveClass(ReflectionParameter $parameter)
{
try {
return $this->make($parameter->getClass()->name);
}
// If we can not resolve the class instance, we will check to see if the value
// is optional, and if it is we will return the optional parameter value as
// the value of the dependency, similarly to how we do this with scalars.
catch (BindingResolutionContractException $e) {
if ($parameter->isOptional()) {
return $parameter->getDefaultValue();
}
throw $e;
}
}
框架底层通过Reflection反射为开发节省了很多细节,实现了自动依赖注入。这里不做继续深入研究了。
写了一个模拟这个过程的类测试:
class kulou
{
//
}
class junjun
{
//
}
class tanteng
{
private $kulou;
private $junjun;
public function __construct(kulou $kulou,junjun $junjun)
{
$this->kulou = $kulou;
$this->junjun = $junjun;
}
}
//$tanteng = new tanteng(new kulou(),new junjun());
$reflector = new ReflectionClass('tanteng');
$constructor = $reflector->getConstructor();
$dependencies = $constructor->getParameters();
print_r($dependencies);exit;
原理是通过ReflectionClass类解析类的构造函数,并且取出构造函数的参数,从而判断依赖关系,从容器中取,并自动注入