Fix Future type issues

akka-actor-tests/src/test/scala/akka/dispatch/FutureSpec.scala

@@ -62,22 +62,8 @@ class FutureSpec extends JUnitSuite {
   def shouldFutureCompose {
     val actor1 = actorOf[TestActor].start()
     val actor2 = actorOf(new Actor { def receive = { case s: String ⇒ self reply s.toUpperCase } }).start()
-    val future1 = actor1 ? "Hello" mapTo manifest[String] flatMap ((s: String) ⇒ actor2 ? s)
-    val future2 = actor1 ? "Hello" mapTo manifest[String] flatMap (actor2 ? (_: String))
-    val future3 = actor1 ? "Hello" mapTo manifest[Int] flatMap (actor2 ? (_: Int))
-    assert((future1.get: Any) === "WORLD")
-    assert((future2.get: Any) === "WORLD")
-    intercept[ClassCastException] { future3.get }
-    actor1.stop()
-    actor2.stop()
-  }
-
-  @Test
-  def shouldFutureComposePatternMatch {
-    val actor1 = actorOf[TestActor].start()
-    val actor2 = actorOf(new Actor { def receive = { case s: String ⇒ self reply s.toUpperCase } }).start()
-    val future1 = actor1 ? "Hello" collect { case (s: String) ⇒ s } flatMap (actor2 ? _)
-    val future2 = actor1 ? "Hello" collect { case (n: Int) ⇒ n } flatMap (actor2 ? _)
+    val future1 = actor1 ? "Hello" flatMap { case s: String ⇒ actor2 ? s }
+    val future2 = actor1 ? "Hello" flatMap { case i: Int ⇒ actor2 ? i }
     assert((future1.get: Any) === "WORLD")
     intercept[MatchError] { future2.get }
     actor1.stop()
@@ -124,15 +110,15 @@ class FutureSpec extends JUnitSuite {
     }).start()
 
     val future1 = for {
-      Res(a: Int) ← actor.?(Req("Hello")).mapTo[Res[Int]]
-      Res(b: String) ← actor.?(Req(a)).mapTo[Res[String]]
-      Res(c: String) ← actor.?(Req(7)).mapTo[Res[String]]
+      Res(a: Int) ← actor ? Req("Hello")
+      Res(b: String) ← actor ? Req(a)
+      Res(c: String) ← actor ? Req(7)
     } yield b + "-" + c
 
     val future2 = for {
-      Res(a: Int) ← actor.?(Req("Hello"))
-      Res(b: Int) ← actor.?(Req(a)).mapTo[Res[Int]]
-      Res(c: Int) ← actor.?(Req(7)).mapTo[Res[Int]]
+      Res(a: Int) ← actor ? Req("Hello")
+      Res(b: Int) ← actor ? Req(a)
+      Res(c: Int) ← actor ? Req(7)
     } yield b + "-" + c
 
     assert(future1.get === "10-14")

akka-actor/src/main/scala/akka/dispatch/Future.scala

@@ -575,7 +575,7 @@ sealed trait Future[+T] {
     }
   }
 
-  /*final def withFilter(p: T ⇒ Boolean) = new FutureWithFilter[T](this, p)
+  final def withFilter(p: T ⇒ Boolean) = new FutureWithFilter[T](this, p)
 
   final class FutureWithFilter[+A](self: Future[A], p: A ⇒ Boolean) {
     def foreach(f: A ⇒ Unit): Unit = self filter p foreach f
@@ -584,8 +584,7 @@ sealed trait Future[+T] {
     def withFilter(q: A ⇒ Boolean): FutureWithFilter[A] = new FutureWithFilter[A](self, x ⇒ p(x) && q(x))
   }
 
-  final def filter(p: T ⇒ Boolean): Future[T] = { */
-  final def filter(p: Any ⇒ Boolean): Future[T] = {
+  final def filter(p: T ⇒ Boolean): Future[T] = {
     val f = new DefaultPromise[T](timeoutInNanos, NANOS)
     onComplete { ft ⇒
       val optv = ft.value
@@ -621,17 +620,6 @@ sealed trait Future[+T] {
     } else None
   }
 
-  /* Java API */
-  final def onComplete[A >: T](proc: Procedure[Future[A]]): this.type = onComplete(proc(_))
-
-  final def map[A >: T, B](f: JFunc[A, B]): Future[B] = map(f(_))
-
-  final def flatMap[A >: T, B](f: JFunc[A, Future[B]]): Future[B] = flatMap(f(_))
-
-  final def foreach[A >: T](proc: Procedure[A]): Unit = foreach(proc(_))
-
-  final def filter(p: JFunc[Any, Boolean]): Future[Any] = filter(p(_))
-
 }
 
 object Promise {

akka-actor/src/main/scala/akka/japi/JavaAPI.scala

@@ -3,28 +3,28 @@ package akka.japi
 /**
  * A Function interface. Used to create first-class-functions is Java (sort of).
  */
-trait Function[T, R] {
+abstract class Function[-T, +R] extends (T) => R {
   def apply(param: T): R
 }
 
 /**
  * A Function interface. Used to create 2-arg first-class-functions is Java (sort of).
  */
-trait Function2[T1, T2, R] {
+abstract class Function2[-T1, -T2, +R] extends (T1, T2) => R {
   def apply(arg1: T1, arg2: T2): R
 }
 
 /**
  * A Procedure is like a Function, but it doesn't produce a return value
  */
-trait Procedure[T] {
+abstract class Procedure[-T] extends (T) => Unit {
   def apply(param: T): Unit
 }
 
 /**
  * A Procedure is like a Function, but it doesn't produce a return value
  */
-trait Procedure2[T1, T2] {
+abstract class Procedure2[-T1, -T2] extends (T1, T2) => Unit {
   def apply(param: T1, param2: T2): Unit
 }