package j0.l.a; import j0.o.l; import java.util.concurrent.atomic.AtomicLong; import rx.Producer; import rx.Subscriber; /* compiled from: OperatorTake */ public class b2 extends Subscriber { public int i; public boolean j; public final /* synthetic */ Subscriber k; public final /* synthetic */ c2 l; /* compiled from: OperatorTake */ public class a implements Producer { public final AtomicLong i = new AtomicLong(0); public final /* synthetic */ Producer j; public a(Producer producer) { this.j = producer; } @Override // rx.Producer public void j(long j) { long j2; long min; if (j > 0 && !b2.this.j) { do { j2 = this.i.get(); min = Math.min(j, ((long) b2.this.l.i) - j2); if (min == 0) { return; } } while (!this.i.compareAndSet(j2, j2 + min)); this.j.j(min); } } } public b2(c2 c2Var, Subscriber subscriber) { this.l = c2Var; this.k = subscriber; } @Override // j0.g public void onCompleted() { if (!this.j) { this.j = true; this.k.onCompleted(); } } @Override // j0.g public void onError(Throwable th) { if (!this.j) { this.j = true; try { this.k.onError(th); } finally { unsubscribe(); } } else { l.b(th); } } @Override // j0.g public void onNext(T t) { if (!isUnsubscribed()) { int i = this.i; int i2 = i + 1; this.i = i2; int i3 = this.l.i; if (i < i3) { boolean z2 = i2 == i3; this.k.onNext(t); if (z2 && !this.j) { this.j = true; try { this.k.onCompleted(); } finally { unsubscribe(); } } } } } @Override // rx.Subscriber public void setProducer(Producer producer) { this.k.setProducer(new a(producer)); } }