package j0.l.c; import j0.l.e.i; import j0.o.l; import java.util.Objects; import java.util.concurrent.ThreadFactory; import java.util.concurrent.TimeUnit; import java.util.concurrent.atomic.AtomicReference; import rx.Scheduler; import rx.Subscription; import rx.functions.Action0; import rx.internal.util.SubscriptionList; import rx.subscriptions.CompositeSubscription; /* compiled from: EventLoopsScheduler */ public final class b extends Scheduler implements k { public static final int a; public static final c b; /* renamed from: c reason: collision with root package name */ public static final C0330b f2856c = new C0330b(null, 0); public final ThreadFactory d; public final AtomicReference e; /* compiled from: EventLoopsScheduler */ public static final class a extends Scheduler.Worker { public final SubscriptionList i; public final CompositeSubscription j; public final SubscriptionList k; public final c l; /* compiled from: EventLoopsScheduler */ /* renamed from: j0.l.c.b$a$a reason: collision with other inner class name */ public class C0328a implements Action0 { public final /* synthetic */ Action0 i; public C0328a(Action0 action0) { this.i = action0; } @Override // rx.functions.Action0 public void call() { if (!a.this.k.j) { this.i.call(); } } } /* compiled from: EventLoopsScheduler */ /* renamed from: j0.l.c.b$a$b reason: collision with other inner class name */ public class C0329b implements Action0 { public final /* synthetic */ Action0 i; public C0329b(Action0 action0) { this.i = action0; } @Override // rx.functions.Action0 public void call() { if (!a.this.k.j) { this.i.call(); } } } public a(c cVar) { SubscriptionList subscriptionList = new SubscriptionList(); this.i = subscriptionList; CompositeSubscription compositeSubscription = new CompositeSubscription(); this.j = compositeSubscription; this.k = new SubscriptionList(subscriptionList, compositeSubscription); this.l = cVar; } @Override // rx.Scheduler.Worker public Subscription a(Action0 action0) { if (this.k.j) { return j0.r.c.a; } c cVar = this.l; C0328a aVar = new C0328a(action0); SubscriptionList subscriptionList = this.i; Objects.requireNonNull(cVar); j jVar = new j(l.d(aVar), subscriptionList); subscriptionList.a(jVar); jVar.a(cVar.o.submit(jVar)); return jVar; } @Override // rx.Scheduler.Worker public Subscription b(Action0 action0, long j, TimeUnit timeUnit) { if (this.k.j) { return j0.r.c.a; } c cVar = this.l; C0329b bVar = new C0329b(action0); CompositeSubscription compositeSubscription = this.j; Objects.requireNonNull(cVar); j jVar = new j(l.d(bVar), compositeSubscription); compositeSubscription.a(jVar); jVar.a(j <= 0 ? cVar.o.submit(jVar) : cVar.o.schedule(jVar, j, timeUnit)); return jVar; } @Override // rx.Subscription public boolean isUnsubscribed() { return this.k.j; } @Override // rx.Subscription public void unsubscribe() { this.k.unsubscribe(); } } /* compiled from: EventLoopsScheduler */ /* renamed from: j0.l.c.b$b reason: collision with other inner class name */ public static final class C0330b { public final int a; public final c[] b; /* renamed from: c reason: collision with root package name */ public long f2857c; public C0330b(ThreadFactory threadFactory, int i) { this.a = i; this.b = new c[i]; for (int i2 = 0; i2 < i; i2++) { this.b[i2] = new c(threadFactory); } } public c a() { int i = this.a; if (i == 0) { return b.b; } c[] cVarArr = this.b; long j = this.f2857c; this.f2857c = 1 + j; return cVarArr[(int) (j % ((long) i))]; } } /* compiled from: EventLoopsScheduler */ public static final class c extends g { public c(ThreadFactory threadFactory) { super(threadFactory); } } static { int intValue = Integer.getInteger("rx.scheduler.max-computation-threads", 0).intValue(); int availableProcessors = Runtime.getRuntime().availableProcessors(); if (intValue <= 0 || intValue > availableProcessors) { intValue = availableProcessors; } a = intValue; c cVar = new c(i.i); b = cVar; cVar.unsubscribe(); } public b(ThreadFactory threadFactory) { this.d = threadFactory; C0330b bVar = f2856c; AtomicReference atomicReference = new AtomicReference<>(bVar); this.e = atomicReference; C0330b bVar2 = new C0330b(threadFactory, a); if (!atomicReference.compareAndSet(bVar, bVar2)) { for (c cVar : bVar2.b) { cVar.unsubscribe(); } } } @Override // rx.Scheduler public Scheduler.Worker a() { return new a(this.e.get().a()); } @Override // j0.l.c.k public void shutdown() { C0330b bVar; C0330b bVar2; do { bVar = this.e.get(); bVar2 = f2856c; if (bVar == bVar2) { return; } } while (!this.e.compareAndSet(bVar, bVar2)); for (c cVar : bVar.b) { cVar.unsubscribe(); } } }