package I0;

import androidx.compose.runtime.collection.MutableVector;
import java.util.List;
import w4.C3137A;

/* JADX INFO: loaded from: classes.dex */
public final class T extends kotlin.jvm.internal.p implements J4.a {

    /* JADX INFO: renamed from: a, reason: collision with root package name */
    public final /* synthetic */ int f2261a;

    /* JADX INFO: renamed from: b, reason: collision with root package name */
    public final /* synthetic */ U f2262b;

    /* JADX WARN: 'super' call moved to the top of the method (can break code semantics) */
    public /* synthetic */ T(U u6, int i6) {
        super(0);
        this.f2261a = i6;
        this.f2262b = u6;
    }

    @Override // J4.a
    public final Object invoke() {
        Q qT0;
        switch (this.f2261a) {
            case 0:
                U u6 = this.f2262b;
                L l = u6.f2268f;
                l.f2220h = 0;
                MutableVector mutableVectorX = l.f2213a.x();
                Object[] objArr = mutableVectorX.content;
                int size = mutableVectorX.getSize();
                for (int i6 = 0; i6 < size; i6++) {
                    U u7 = ((H) objArr[i6]).f2163K.f2228q;
                    kotlin.jvm.internal.o.e(u7);
                    u7.f2270k = u7.l;
                    u7.l = Integer.MAX_VALUE;
                    if (u7.f2271m == F.f2144b) {
                        u7.f2271m = F.f2145c;
                    }
                }
                L l6 = u6.f2268f;
                MutableVector mutableVectorX2 = l6.f2213a.x();
                Object[] objArr2 = mutableVectorX2.content;
                int size2 = mutableVectorX2.getSize();
                for (int i7 = 0; i7 < size2; i7++) {
                    U u8 = ((H) objArr2[i7]).f2163K.f2228q;
                    kotlin.jvm.internal.o.e(u8);
                    u8.f2279u.f2203d = false;
                }
                C0309s c0309s = u6.l().f2460V;
                H h5 = l6.f2213a;
                if (c0309s != null) {
                    boolean z6 = c0309s.f2247n;
                    List listL = h5.l();
                    int size3 = listL.size();
                    for (int i8 = 0; i8 < size3; i8++) {
                        Q qT02 = ((AbstractC0300j0) ((H) listL.get(i8)).f2162J.f2363e).T0();
                        if (qT02 != null) {
                            qT02.f2247n = z6;
                        }
                    }
                }
                C0309s c0309s2 = u6.l().f2460V;
                kotlin.jvm.internal.o.e(c0309s2);
                c0309s2.D0().c();
                if (u6.l().f2460V != null) {
                    List listL2 = h5.l();
                    int size4 = listL2.size();
                    for (int i9 = 0; i9 < size4; i9++) {
                        Q qT03 = ((AbstractC0300j0) ((H) listL2.get(i9)).f2162J.f2363e).T0();
                        if (qT03 != null) {
                            qT03.f2247n = false;
                        }
                    }
                }
                MutableVector mutableVectorX3 = h5.x();
                Object[] objArr3 = mutableVectorX3.content;
                int size5 = mutableVectorX3.getSize();
                for (int i10 = 0; i10 < size5; i10++) {
                    U u9 = ((H) objArr3[i10]).f2163K.f2228q;
                    kotlin.jvm.internal.o.e(u9);
                    int i11 = u9.f2270k;
                    int i12 = u9.l;
                    if (i11 != i12 && i12 == Integer.MAX_VALUE) {
                        u9.w0(true);
                    }
                }
                MutableVector mutableVectorX4 = h5.x();
                Object[] objArr4 = mutableVectorX4.content;
                int size6 = mutableVectorX4.getSize();
                for (int i13 = 0; i13 < size6; i13++) {
                    U u10 = ((H) objArr4[i13]).f2163K.f2228q;
                    kotlin.jvm.internal.o.e(u10);
                    I i14 = u10.f2279u;
                    i14.f2204e = i14.f2203d;
                }
                break;
            case 1:
                U u11 = this.f2262b;
                boolean zO = AbstractC0303l.o(u11.f2268f.f2213a);
                L l7 = u11.f2268f;
                G0.p0 placementScope = null;
                if (zO || l7.f2215c) {
                    AbstractC0300j0 abstractC0300j0 = l7.a().f2423t;
                    if (abstractC0300j0 != null) {
                        placementScope = abstractC0300j0.f2248o;
                    }
                } else {
                    AbstractC0300j0 abstractC0300j02 = l7.a().f2423t;
                    if (abstractC0300j02 != null && (qT0 = abstractC0300j02.T0()) != null) {
                        placementScope = qT0.f2248o;
                    }
                }
                if (placementScope == null) {
                    placementScope = ((J0.A) K.a(l7.f2213a)).getPlacementScope();
                }
                Q qT04 = l7.a().T0();
                kotlin.jvm.internal.o.e(qT04);
                G0.p0.q(placementScope, qT04, u11.f2276r);
                break;
            default:
                U u12 = this.f2262b;
                Q qT05 = u12.f2268f.a().T0();
                kotlin.jvm.internal.o.e(qT05);
                qT05.Q(u12.f2264B);
                break;
        }
        return C3137A.f25453a;
    }
}
