package io.reactivex.internal.schedulers; import io.reactivex.disposables.Disposable; import io.reactivex.internal.functions.Functions; import io.reactivex.plugins.RxJavaPlugins; import java.util.concurrent.Callable; import java.util.concurrent.ExecutorService; import java.util.concurrent.Future; import java.util.concurrent.FutureTask; import java.util.concurrent.atomic.AtomicReference; /* loaded from: classes2.dex */ final class InstantPeriodicTask implements Callable, Disposable { static final FutureTask f = new FutureTask<>(Functions.b, null); final Runnable a; final ExecutorService d; Thread e; final AtomicReference> c = new AtomicReference<>(); final AtomicReference> b = new AtomicReference<>(); InstantPeriodicTask(Runnable runnable, ExecutorService executorService) { this.a = runnable; this.d = executorService; } void a(Future future) { Future future2; do { future2 = this.c.get(); if (future2 == f) { future.cancel(this.e != Thread.currentThread()); return; } } while (!this.c.compareAndSet(future2, future)); } void b(Future future) { Future future2; do { future2 = this.b.get(); if (future2 == f) { future.cancel(this.e != Thread.currentThread()); return; } } while (!this.b.compareAndSet(future2, future)); } @Override // io.reactivex.disposables.Disposable public void dispose() { Future andSet = this.c.getAndSet(f); if (andSet != null && andSet != f) { andSet.cancel(this.e != Thread.currentThread()); } Future andSet2 = this.b.getAndSet(f); if (andSet2 == null || andSet2 == f) { return; } andSet2.cancel(this.e != Thread.currentThread()); } @Override // java.util.concurrent.Callable public Void call() throws Exception { this.e = Thread.currentThread(); try { this.a.run(); b(this.d.submit(this)); this.e = null; } catch (Throwable th) { this.e = null; RxJavaPlugins.b(th); } return null; } }