@Override public void subscribe(final Subscriber<? super String> observer) { observer.onSubscribe(EmptySubscription.INSTANCE); t = new Thread( new Runnable() { @Override public void run() { for (String s : valuesToReturn) { if (s == null) { System.out.println("throwing exception"); try { Thread.sleep(100); } catch (Throwable e) { } observer.onError(new NullPointerException()); return; } else { observer.onNext(s); } } System.out.println("subscription complete"); observer.onComplete(); } }); t.start(); }
@Override public void subscribe(Subscriber<? super String> observer) { observer.onSubscribe(EmptySubscription.INSTANCE); boolean errorThrown = false; for (String s : valuesToReturn) { if (s == null) { System.out.println("throwing exception"); observer.onError(new NullPointerException()); errorThrown = true; // purposefully not returning here so it will continue calling onNext // so that we also test that we handle bad sequences like this } else { observer.onNext(s); } } if (!errorThrown) { observer.onComplete(); } }
@Test public void testRequestFromChainedOperator() { TestSubscriber<String> s = new TestSubscriber<>(); Operator<String, String> o = s1 -> new Subscriber<String>() { @Override public void onSubscribe(Subscription a) { s1.onSubscribe(a); } @Override public void onComplete() {} @Override public void onError(Throwable e) {} @Override public void onNext(String t) {} }; s.request(10); Subscriber<? super String> ns = o.apply(s); final AtomicLong r = new AtomicLong(); // set set the producer at the top of the chain (ns) and it should flow through the operator to // the (s) subscriber // and then it should request up with the value set on the final Subscriber (s) ns.onSubscribe( new Subscription() { @Override public void request(long n) { r.set(n); } @Override public void cancel() {} }); assertEquals(10, r.get()); }
@Override public void subscribe(final Subscriber<? super String> observer) { observer.onSubscribe(EmptySubscription.INSTANCE); t = new Thread( new Runnable() { @Override public void run() { observer.onNext("hello"); observer.onComplete(); } }); t.start(); }
@Override public void subscribe(final Subscriber<? super String> observer) { observer.onSubscribe(EmptySubscription.INSTANCE); t = new Thread( new Runnable() { @Override public void run() { try { Thread.sleep(100); } catch (InterruptedException e) { observer.onError(e); } observer.onNext("hello"); observer.onComplete(); } }); t.start(); }
@Test public void testRequestFromDecoupledOperatorThatRequestsN() { TestSubscriber<String> s = new TestSubscriber<>(); final AtomicLong innerR = new AtomicLong(); Operator<String, String> o = child -> { // we want to decouple the chain so set our own Producer on the child instead of it coming // from the parent child.onSubscribe( new Subscription() { @Override public void request(long n) { innerR.set(n); } @Override public void cancel() {} }); AsyncObserver<String> as = new AsyncObserver<String>() { @Override protected void onStart() { // we request 99 up to the parent request(99); } @Override public void onComplete() {} @Override public void onError(Throwable e) {} @Override public void onNext(String t) {} }; return as; }; s.request(10); Subscriber<? super String> ns = o.apply(s); final AtomicLong r = new AtomicLong(); // set set the producer at the top of the chain (ns) and it should flow through the operator to // the (s) subscriber // and then it should request up with the value set on the final Subscriber (s) ns.onSubscribe( new Subscription() { @Override public void request(long n) { r.set(n); } @Override public void cancel() {} }); assertEquals(99, r.get()); assertEquals(10, innerR.get()); }
@Override public void subscribe(Subscriber<? super String> observer) { observer.onSubscribe(EmptySubscription.INSTANCE); observer.onNext("hello"); observer.onComplete(); }