package androidx.compose.runtime;

import androidx.compose.runtime.MonotonicFrameClock;
import androidx.compose.runtime.internal.StabilityInferred;
import m3.AbstractC2467b;

/* JADX INFO: loaded from: classes.dex */
@StabilityInferred(parameters = 0)
public final class PausableMonotonicFrameClock implements MonotonicFrameClock {
    public static final int $stable = 8;
    private final MonotonicFrameClock frameClock;
    private final Latch latch = new Latch();

    /* JADX INFO: renamed from: androidx.compose.runtime.PausableMonotonicFrameClock$withFrameNanos$1, reason: invalid class name */
    @C4.e(c = "androidx.compose.runtime.PausableMonotonicFrameClock", f = "PausableMonotonicFrameClock.kt", l = {61, 62}, m = "withFrameNanos", v = 1)
    public static final class AnonymousClass1<R> extends C4.c {
        Object L$0;
        int label;
        /* synthetic */ Object result;

        public AnonymousClass1(A4.d dVar) {
            super(dVar);
        }

        @Override // C4.a
        public final Object invokeSuspend(Object obj) {
            this.result = obj;
            this.label |= Integer.MIN_VALUE;
            return PausableMonotonicFrameClock.this.withFrameNanos(null, this);
        }
    }

    public PausableMonotonicFrameClock(MonotonicFrameClock monotonicFrameClock) {
        this.frameClock = monotonicFrameClock;
    }

    @Override // androidx.compose.runtime.MonotonicFrameClock, A4.j
    public /* bridge */ <R> R fold(R r5, J4.e eVar) {
        return (R) MonotonicFrameClock.DefaultImpls.fold(this, r5, eVar);
    }

    @Override // androidx.compose.runtime.MonotonicFrameClock, A4.j
    public /* bridge */ <E extends A4.h> E get(A4.i iVar) {
        return (E) MonotonicFrameClock.DefaultImpls.get(this, iVar);
    }

    public final boolean isPaused() {
        return !this.latch.isOpen();
    }

    @Override // androidx.compose.runtime.MonotonicFrameClock, A4.j
    public /* bridge */ A4.j minusKey(A4.i iVar) {
        return MonotonicFrameClock.DefaultImpls.minusKey(this, iVar);
    }

    public final void pause() {
        this.latch.closeLatch();
    }

    @Override // androidx.compose.runtime.MonotonicFrameClock, A4.j
    public /* bridge */ A4.j plus(A4.j jVar) {
        return MonotonicFrameClock.DefaultImpls.plus(this, jVar);
    }

    public final void resume() {
        this.latch.openLatch();
    }

    /* JADX WARN: Removed duplicated region for block: B:7:0x0013  */
    @Override // androidx.compose.runtime.MonotonicFrameClock
    /*
        Code decompiled incorrectly, please refer to instructions dump.
    */
    public <R> Object withFrameNanos(J4.c cVar, A4.d dVar) {
        AnonymousClass1 anonymousClass1;
        if (dVar instanceof AnonymousClass1) {
            anonymousClass1 = (AnonymousClass1) dVar;
            int i6 = anonymousClass1.label;
            if ((i6 & Integer.MIN_VALUE) != 0) {
                anonymousClass1.label = i6 - Integer.MIN_VALUE;
            } else {
                anonymousClass1 = new AnonymousClass1(dVar);
            }
        }
        Object obj = anonymousClass1.result;
        B4.a aVar = B4.a.f492a;
        int i7 = anonymousClass1.label;
        if (i7 == 0) {
            AbstractC2467b.l(obj);
            Latch latch = this.latch;
            anonymousClass1.L$0 = cVar;
            anonymousClass1.label = 1;
            if (latch.await(anonymousClass1) != aVar) {
            }
        }
        if (i7 != 1) {
            if (i7 != 2) {
                throw new IllegalStateException("call to 'resume' before 'invoke' with coroutine");
            }
            AbstractC2467b.l(obj);
            return obj;
        }
        cVar = (J4.c) anonymousClass1.L$0;
        AbstractC2467b.l(obj);
        MonotonicFrameClock monotonicFrameClock = this.frameClock;
        anonymousClass1.L$0 = null;
        anonymousClass1.label = 2;
        Object objWithFrameNanos = monotonicFrameClock.withFrameNanos(cVar, anonymousClass1);
        return objWithFrameNanos == aVar ? aVar : objWithFrameNanos;
    }
}
