package androidx.lifecycle; import java.util.Map; import n.C0508b; import o.C0518d; import o.C0520f; /* loaded from: classes.dex */ public abstract class Q { /* renamed from: k, reason: collision with root package name */ public static final Object f3311k = new Object(); /* renamed from: a, reason: collision with root package name */ public final Object f3312a; /* renamed from: b, reason: collision with root package name */ public final C0520f f3313b; /* renamed from: c, reason: collision with root package name */ public int f3314c; /* renamed from: d, reason: collision with root package name */ public boolean f3315d; /* renamed from: e, reason: collision with root package name */ public volatile Object f3316e; /* renamed from: f, reason: collision with root package name */ public volatile Object f3317f; /* renamed from: g, reason: collision with root package name */ public int f3318g; public boolean h; public boolean i; /* renamed from: j, reason: collision with root package name */ public final F0.c f3319j; public Q(Object obj) { this.f3312a = new Object(); this.f3313b = new C0520f(); this.f3314c = 0; this.f3317f = f3311k; this.f3319j = new F0.c(this, 5); this.f3316e = obj; this.f3318g = 0; } public static void a(String str) { if (!C0508b.L().M()) { throw new IllegalStateException(C.w.o("Cannot invoke ", str, " on a background thread")); } } public final void b(P p) { if (p.f3308b) { if (!p.f()) { p.a(false); return; } int i = p.f3309c; int i4 = this.f3318g; if (i >= i4) { return; } p.f3309c = i4; p.f3307a.onChanged(this.f3316e); } } public final void c(P p) { if (this.h) { this.i = true; return; } this.h = true; do { this.i = false; if (p != null) { b(p); p = null; } else { C0520f c0520f = this.f3313b; c0520f.getClass(); C0518d c0518d = new C0518d(c0520f); c0520f.f7896c.put(c0518d, Boolean.FALSE); while (c0518d.hasNext()) { b((P) ((Map.Entry) c0518d.next()).getValue()); if (this.i) { break; } } } } while (this.i); this.h = false; } public final Object d() { Object obj = this.f3316e; if (obj != f3311k) { return obj; } return null; } public final void e(J j4, Y y3) { a("observe"); if (j4.getLifecycle().b() == B.f3280a) { return; } O o4 = new O(this, j4, y3); P p = (P) this.f3313b.b(y3, o4); if (p != null && !p.c(j4)) { throw new IllegalArgumentException("Cannot add the same observer with different lifecycles"); } if (p != null) { return; } j4.getLifecycle().a(o4); } public final void f(Y y3) { a("observeForever"); P p = new P(this, y3); P p3 = (P) this.f3313b.b(y3, p); if (p3 instanceof O) { throw new IllegalArgumentException("Cannot add the same observer with different lifecycles"); } if (p3 != null) { return; } p.a(true); } public void g() { } public void h() { } public final void i(Y y3) { a("removeObserver"); P p = (P) this.f3313b.c(y3); if (p == null) { return; } p.b(); p.a(false); } public abstract void j(Object obj); public Q() { this.f3312a = new Object(); this.f3313b = new C0520f(); this.f3314c = 0; Object obj = f3311k; this.f3317f = obj; this.f3319j = new F0.c(this, 5); this.f3316e = obj; this.f3318g = -1; } }