Scala的Pattern Matching Anonymous Functions
参考自http://stackoverflow.com/questions/19478244/how-does-a-case-anonymous-function-really-work-in-scala
http://www.scala-lang.org/files/archive/nightly/pdfs/ScalaReference.pdf
http://docs.scala-lang.org/overviews/core/futures.html
在第三篇文档《Futures and Promises》中,讲到了Future对象有三个方法可以注册callback
import scala.util.{Success, Failure} val f: Future[List[String]] = future { session.getRecentPosts } f onComplete { case Success(posts) => for (post <- posts) println(post) case Failure(t) => println("An error has occured: " + t.getMessage) } f onFailure { case t => println("An error has occured: " + t.getMessage) } f onSuccess { case posts => for (post <- posts) println(post) }
传给onComplete、onFailture和onSuccess的都是
{ case p1 => b1 ... case pn => bn }
形式的语句,但是这三个方法接受的参数类型却是不同的。
abstract def onComplete[U](f: (Try[T]) ⇒ U)(implicit executor: ExecutionContext): Unit
def onSuccess[U](pf: PartialFunction[T, U])(implicit executor: ExecutionContext): Unit
def onFailure[U](pf: PartialFunction[Throwable, U])(implicit executor: ExecutionContext): Unit
onCompelete的参数类型的是一个 (Try[T]) => U函数, 而onSuccess和onFailure的参数类型是偏函数。
那么,问题来了……{ case p1 => b1 ... case pn => bn } 的类型到底是啥呢?
在<The Scala Language Specification>的第8.5章给出了说明:
An anonymous function can be defined by a sequence of cases
{case p1 =>b1 ...case pn =>bn }
which appear as an expression without a prior match.
The expected type of such an expression must in part be defined. It must be either scala.Functionk[S1, ..., Sk, R] for some k >0, or scala.PartialFunction[S1, R], where the argument type(s) S1, ..., Sk must be fully determined, but the result type R may be undetermined.
也就是说{ case p1 => b1 ... case pn => bn } 这种表达式的值的类型可以有两种,要不是一个函数,要不是一个偏函数(偏函数也是一种函数)。在这个表达式的位置上需要哪种类型,编译器就会用这个表达式生成对应的类型。但是无论是生成函数还是偏函数,它们的参数的类型都必须是确定的,对于一个特定的Future对象,onComplete接受的函数的参数类型是Try[T],而onSuccess接受的PartialFunction的参数类型是T,onFailure接受的PartialFunction的参数类型是Throwable。但是这些函数的返回类型U可以不是需要这个{ case p1 => b1 ... case pn => bn } 表达式的地方指定的。比如,这三个onXXX方法都没有指定它所接受的函数的返回值类型。
例子:
import java.io.IOException import scala.concurrent._ import scala.concurrent.ExecutionContext.Implicits.global import scala.util.Success import scala.util.Failure object CallbacksOfFuture extends App { def getRecentPosts = { Thread.sleep(5000) "Good morning" :: "Good afternoon" :: Nil throw new TimeoutException("Goodbye") } val f: Future[List[String]] = future { val posts = getRecentPosts posts }
//onComplete A f onComplete { case Success(posts) => posts.foreach(println) case Failure(e) => println("An error has occured: " + e.getMessage) }
//onComplete B f onComplete { result => result match { case Success(posts) => posts.foreach(println) case Failure(e) => println("An error has occured: " + e.getMessage) } } //won't compile // f onComplete{ // case 1 => 2 // } f onSuccess { case posts => posts foreach println } f onFailure{ case r: IOException => println("got IOException: " + r.getMessage) case r: TimeoutException => println("got TimeoutException: " + r.getMessage) case e => println("An error has occured: " + e.getMessage) } f flatMap{ posts => future{posts}} foreach(println) f map (posts => posts) foreach println Thread.sleep(10000) }
那么onComplete和onSuccess、onFailure还有啥不同呢?
如果我们把onComplete A实现里的case Failure去掉,那么在运行时就会报MatchError,因为
f onComplete { case Success(posts) => posts.foreach(println) case Failure(e) => println("An error has occured: " + e.getMessage) }
实际上会被翻译为:
f onComplete { result => result match { case Success(posts) => posts.foreach(println) case Failure(e) => println("An error has occured: " + e.getMessage) } }
当result是一个Failure,那么在去掉case Failure后,它会无法得到匹配,从而报出MatchError.
而在
f onFailure{ case r: IOException => println("got IOException: " + r.getMessage) case r: TimeoutException => println("got TimeoutException: " + r.getMessage) case e => println("An error has occured: " + e.getMessage) }
如果我们只留下case r: IOException,虽然运行时产生的异常是TimeoutException,但是执行时却不会报错。这是为啥呢?
看Future的源码吧
def onFailure[U](callback: PartialFunction[Throwable, U])(implicit executor: ExecutionContext): Unit = onComplete { case Failure(t) => callback.applyOrElse[Throwable, Any](t, Predef.conforms[Throwable]) // Exploiting the cached function to avoid MatchError case _ => }
原来onFailure会将callback注册给onComplete,这使得调用onFailure也不会阻塞。当Future的执行结果为Failure时,Failure中包装的异常会被apply给t, 如果apply失败,会执行Predef.confirm[Throwable]。这个函数是这样的:
sealed abstract class <:<[-From, +To] extends (From => To) with Serializable private[this] final val singleton_<:< = new <:<[Any,Any] { def apply(x: Any): Any = x } // not in the <:< companion object because it is also // intended to subsume identity (which is no longer implicit) implicit def conforms[A]: A <:< A = singleton_<:<.asInstanceOf[A <:< A]
在这里,confirm的类型参数为Throwable,于是 singleton_<:<.asInstanceOf[A <:< A]被类型为换为 <:<[Throwable <:< Throwable]。
singleton_<:<本身是一个对象,它的超类的类型是 Any => Any,因此,singleton_<:<.asInstanceOf[Throwable <:< Throwable]是一个类型为(Throwable) => Throwable的函数。因此conform在onFailure中的使用是类型正确的。
那么onform返回的这个函数干了啥呢,它的apply方法接收x,返回x。用于onFailure的环境中时,就相当于
def onFailure[U](callback: PartialFunction[Throwable, U])(implicit executor: ExecutionContext): Unit = onComplete { case Failure(t) => callback.applyOrElse[Throwable, Any](t, (e) => e) // Exploiting the cached function to avoid MatchError case _ => }
在callback.applyOrElse方法中,我们需要一个函数,它的类型是(Throwable) => Any,又没有副作用。那么用Predef.conform[Throwable]得到一个实际上啥都没干的(Throwable) => (Throwable)是很合适的。
应该说这么写挺规范吧……