package io.reactivex.internal.operators.observable; import io.reactivex.ObservableSource; import io.reactivex.Observer; import io.reactivex.Scheduler; import io.reactivex.disposables.Disposable; import io.reactivex.internal.disposables.DisposableHelper; import io.reactivex.observers.SerializedObserver; import java.util.concurrent.TimeUnit; import java.util.concurrent.atomic.AtomicInteger; import java.util.concurrent.atomic.AtomicReference; /* loaded from: classes2.dex */ public final class ObservableSampleTimed extends AbstractObservableWithUpstream { final long b; final TimeUnit c; final Scheduler d; final boolean e; static final class SampleTimedEmitLast extends SampleTimedObserver { final AtomicInteger g; SampleTimedEmitLast(Observer observer, long j, TimeUnit timeUnit, Scheduler scheduler) { super(observer, j, timeUnit, scheduler); this.g = new AtomicInteger(1); } @Override // io.reactivex.internal.operators.observable.ObservableSampleTimed.SampleTimedObserver void b() { c(); if (this.g.decrementAndGet() == 0) { this.a.onComplete(); } } @Override // java.lang.Runnable public void run() { if (this.g.incrementAndGet() == 2) { c(); if (this.g.decrementAndGet() == 0) { this.a.onComplete(); } } } } static final class SampleTimedNoLast extends SampleTimedObserver { SampleTimedNoLast(Observer observer, long j, TimeUnit timeUnit, Scheduler scheduler) { super(observer, j, timeUnit, scheduler); } @Override // io.reactivex.internal.operators.observable.ObservableSampleTimed.SampleTimedObserver void b() { this.a.onComplete(); } @Override // java.lang.Runnable public void run() { c(); } } static abstract class SampleTimedObserver extends AtomicReference implements Observer, Disposable, Runnable { final Observer a; final long b; final TimeUnit c; final Scheduler d; final AtomicReference e = new AtomicReference<>(); Disposable f; SampleTimedObserver(Observer observer, long j, TimeUnit timeUnit, Scheduler scheduler) { this.a = observer; this.b = j; this.c = timeUnit; this.d = scheduler; } void a() { DisposableHelper.dispose(this.e); } abstract void b(); void c() { T andSet = getAndSet(null); if (andSet != null) { this.a.onNext(andSet); } } @Override // io.reactivex.disposables.Disposable public void dispose() { a(); this.f.dispose(); } @Override // io.reactivex.Observer public void onComplete() { a(); b(); } @Override // io.reactivex.Observer public void onError(Throwable th) { a(); this.a.onError(th); } @Override // io.reactivex.Observer public void onNext(T t) { lazySet(t); } @Override // io.reactivex.Observer public void onSubscribe(Disposable disposable) { if (DisposableHelper.validate(this.f, disposable)) { this.f = disposable; this.a.onSubscribe(this); Scheduler scheduler = this.d; long j = this.b; DisposableHelper.replace(this.e, scheduler.a(this, j, j, this.c)); } } } public ObservableSampleTimed(ObservableSource observableSource, long j, TimeUnit timeUnit, Scheduler scheduler, boolean z) { super(observableSource); this.b = j; this.c = timeUnit; this.d = scheduler; this.e = z; } @Override // io.reactivex.Observable public void subscribeActual(Observer observer) { SerializedObserver serializedObserver = new SerializedObserver(observer); if (this.e) { this.a.subscribe(new SampleTimedEmitLast(serializedObserver, this.b, this.c, this.d)); } else { this.a.subscribe(new SampleTimedNoLast(serializedObserver, this.b, this.c, this.d)); } } }