@Test public void blockMustBeCallable() throws Exception { Promise<String> p = Futures.promise(); Duration d = Duration.create(1, TimeUnit.SECONDS); p.success("foo"); Await.ready(p.future(), d); assertEquals(Await.result(p.future(), d), "foo"); }
@Test public void mapToMustBeCallable() throws Exception { Promise<Object> p = Futures.promise(); Future<String> f = p.future().mapTo(classTag(String.class)); Duration d = Duration.create(1, TimeUnit.SECONDS); p.success("foo"); Await.ready(p.future(), d); assertEquals(Await.result(p.future(), d), "foo"); }
@Test public void mustBeAbleToExecuteAnOnResultCallback() throws Throwable { final CountDownLatch latch = new CountDownLatch(1); Promise<String> cf = Futures.promise(); Future<String> f = cf.future(); f.onSuccess( new OnSuccess<String>() { public void onSuccess(String result) { if (result.equals("foo")) latch.countDown(); } }, system.dispatcher()); cf.success("foo"); assertTrue(latch.await(5000, TimeUnit.MILLISECONDS)); assertEquals(Await.result(f, timeout), "foo"); }
@Test public void mustBeAbleToForeachAFuture() throws Throwable { final CountDownLatch latch = new CountDownLatch(1); Promise<String> cf = Futures.promise(); Future<String> f = cf.future(); f.foreach( new Foreach<String>() { public void each(String future) { latch.countDown(); } }, system.dispatcher()); cf.success("foo"); assertTrue(latch.await(5000, TimeUnit.MILLISECONDS)); assertEquals(Await.result(f, timeout), "foo"); }
@Test public void mustBeAbleToExecuteAnOnExceptionCallback() throws Throwable { final CountDownLatch latch = new CountDownLatch(1); Promise<String> cf = Futures.promise(); Future<String> f = cf.future(); f.onFailure( new OnFailure() { public void onFailure(Throwable t) { if (t instanceof NullPointerException) latch.countDown(); } }, system.dispatcher()); Throwable exception = new NullPointerException(); cf.failure(exception); assertTrue(latch.await(5000, TimeUnit.MILLISECONDS)); assertEquals(f.value().get().failed().get(), exception); }
@Test public void recoverWithToMustBeCallable() throws Exception { final IllegalStateException fail = new IllegalStateException("OHNOES"); Promise<Object> p = Futures.promise(); Future<Object> f = p.future() .recoverWith( new Recover<Future<Object>>() { public Future<Object> recover(Throwable t) throws Throwable { if (t == fail) return Futures.<Object>successful("foo"); else throw t; } }, system.dispatcher()); Duration d = Duration.create(1, TimeUnit.SECONDS); p.failure(fail); assertEquals(Await.result(f, d), "foo"); }
@Test public void mustBeAbleToFilterAFuture() throws Throwable { final CountDownLatch latch = new CountDownLatch(1); Promise<String> cf = Futures.promise(); Future<String> f = cf.future(); Future<String> r = f.filter( Filter.filterOf( new Function<String, Boolean>() { public Boolean apply(String r) { latch.countDown(); return r.equals("foo"); } }), system.dispatcher()); cf.success("foo"); assertTrue(latch.await(5000, TimeUnit.MILLISECONDS)); assertEquals(Await.result(f, timeout), "foo"); assertEquals(Await.result(r, timeout), "foo"); }
@Test public void mustBeAbleToFlatMapAFuture() throws Throwable { final CountDownLatch latch = new CountDownLatch(1); Promise<String> cf = Futures.promise(); cf.success("1000"); Future<String> f = cf.future(); Future<Integer> r = f.flatMap( new Mapper<String, Future<Integer>>() { public Future<Integer> checkedApply(String r) throws Throwable { if (false) throw new IOException("Just here to make sure this compiles."); latch.countDown(); Promise<Integer> cf = Futures.promise(); cf.success(Integer.parseInt(r)); return cf.future(); } }, system.dispatcher()); assertEquals(Await.result(f, timeout), "1000"); assertEquals(Await.result(r, timeout).intValue(), 1000); assertTrue(latch.await(5000, TimeUnit.MILLISECONDS)); }