import scala.concurrent.{ Future, Promise, TimeoutException, SyncVar, ExecutionException } import scala.concurrent.future import scala.concurrent.promise import scala.concurrent.blocking import scala.util.{ Try, Success, Failure } import scala.util.Duration trait TestBase { def once(body: (() => Unit) => Unit) { val sv = new SyncVar[Boolean] body(() => sv put true) sv.take() } // def assert(cond: => Boolean) { // try { // Predef.assert(cond) // } catch { // case e => e.printStackTrace() // } // } } trait FutureCallbacks extends TestBase { def testOnSuccess(): Unit = once { done => var x = 0 val f = future { x = 1 } f onSuccess { case _ => done() assert(x == 1) } } def testOnSuccessWhenCompleted(): Unit = once { done => var x = 0 val f = future { x = 1 } f onSuccess { case _ => assert(x == 1) x = 2 f onSuccess { case _ => assert(x == 2) done() } } } def testOnSuccessWhenFailed(): Unit = once { done => val f = future[Unit] { done() throw new Exception } f onSuccess { case _ => assert(false) } } def testOnFailure(): Unit = once { done => var x = 0 val f = future[Unit] { x = 1 throw new Exception } f onSuccess { case _ => done() assert(false) } f onFailure { case _ => done() assert(x == 1) } } def testOnFailureWhenSpecialThrowable(num: Int, cause: Throwable): Unit = once { done => val f = future[Unit] { throw cause } f onSuccess { case _ => done() assert(false) } f onFailure { case e: ExecutionException if (e.getCause == cause) => done() case _ => done() assert(false) } } def testOnFailureWhenTimeoutException(): Unit = once { done => val f = future[Unit] { throw new TimeoutException() } f onSuccess { case _ => done() assert(false) } f onFailure { case e: TimeoutException => done() case other => done() assert(false) } } testOnSuccess() testOnSuccessWhenCompleted() testOnSuccessWhenFailed() testOnFailure() testOnFailureWhenSpecialThrowable(5, new Error) testOnFailureWhenSpecialThrowable(6, new scala.util.control.ControlThrowable { }) testOnFailureWhenSpecialThrowable(7, new InterruptedException) testOnFailureWhenTimeoutException() } trait FutureCombinators extends TestBase { // map: stub def testMapSuccess(): Unit = once { done => done() } def testMapFailure(): Unit = once { done => done() } // flatMap: stub def testFlatMapSuccess(): Unit = once { done => done() } def testFlatMapFailure(): Unit = once { done => done() } // filter: stub def testFilterSuccess(): Unit = once { done => done() } def testFilterFailure(): Unit = once { done => done() } // collect: stub def testCollectSuccess(): Unit = once { done => done() } def testCollectFailure(): Unit = once { done => done() } // foreach: stub def testForeachSuccess(): Unit = once { done => done() } def testForeachFailure(): Unit = once { done => done() } def testRecoverSuccess(): Unit = once { done => val cause = new RuntimeException val f = future { throw cause } recover { case re: RuntimeException => "recovered" } onSuccess { case x => done() assert(x == "recovered") } onFailure { case any => done() assert(false) } } def testRecoverFailure(): Unit = once { done => val cause = new RuntimeException val f = future { throw cause } recover { case te: TimeoutException => "timeout" } onSuccess { case x => done() assert(false) } onFailure { case any => done() assert(any == cause) } } testMapSuccess() testMapFailure() testFlatMapSuccess() testFlatMapFailure() testFilterSuccess() testFilterFailure() testCollectSuccess() testCollectFailure() testForeachSuccess() testForeachFailure() testRecoverSuccess() testRecoverFailure() } trait FutureProjections extends TestBase { def testFailedFailureOnComplete(): Unit = once { done => val cause = new RuntimeException val f = future { throw cause } f.failed onComplete { case Success(t) => assert(t == cause) done() case Failure(t) => assert(false) } } def testFailedFailureOnSuccess(): Unit = once { done => val cause = new RuntimeException val f = future { throw cause } f.failed onSuccess { case t => assert(t == cause) done() } } def testFailedSuccessOnComplete(): Unit = once { done => val f = future { 0 } f.failed onComplete { case Success(t) => assert(false) case Failure(t) => assert(t.isInstanceOf[NoSuchElementException]) done() } } def testFailedSuccessOnFailure(): Unit = once { done => val f = future { 0 } f.failed onFailure { case nsee: NoSuchElementException => done() } } def testFailedFailureAwait(): Unit = once { done => val cause = new RuntimeException val f = future { throw cause } assert(blocking(f.failed, Duration(500, "ms")) == cause) done() } def testFailedSuccessAwait(): Unit = once { done => val f = future { 0 } try { blocking(f.failed, Duration(500, "ms")) assert(false) } catch { case nsee: NoSuchElementException => done() } } testFailedFailureOnComplete() testFailedFailureOnSuccess() testFailedSuccessOnComplete() testFailedSuccessOnFailure() testFailedFailureAwait() testFailedSuccessAwait() } trait Blocking extends TestBase { def testAwaitSuccess(): Unit = once { done => val f = future { 0 } blocking(f, Duration(500, "ms")) done() } def testAwaitFailure(): Unit = once { done => val cause = new RuntimeException val f = future { throw cause } try { blocking(f, Duration(500, "ms")) assert(false) } catch { case t => assert(t == cause) done() } } testAwaitSuccess() testAwaitFailure() } trait Promises extends TestBase { def testSuccess(): Unit = once { done => val p = promise[Int]() val f = p.future f.onSuccess { case x => done() assert(x == 5) } onFailure { case any => done() assert(false) } p.success(5) } testSuccess() } trait Exceptions extends TestBase { } object Test extends App with FutureCallbacks with FutureCombinators with FutureProjections with Promises with Exceptions { System.exit(0) }