package p;

import i0.InterfaceC2242f;

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

    /* JADX INFO: renamed from: a, reason: collision with root package name */
    public final /* synthetic */ int f22674a;

    /* JADX INFO: renamed from: b, reason: collision with root package name */
    public final /* synthetic */ W f22675b;

    /* JADX INFO: renamed from: c, reason: collision with root package name */
    public final /* synthetic */ long f22676c;

    /* JADX WARN: 'super' call moved to the top of the method (can break code semantics) */
    public /* synthetic */ U(W w6, long j4, int i6) {
        super(1);
        this.f22674a = i6;
        this.f22675b = w6;
        this.f22676c = j4;
    }

    /* JADX WARN: Removed duplicated region for block: B:48:0x00c3  */
    /* JADX WARN: Type inference failed for: r0v15, types: [J4.c, kotlin.jvm.internal.p] */
    /* JADX WARN: Type inference failed for: r1v16, types: [J4.c, kotlin.jvm.internal.p] */
    @Override // J4.c
    /*
        Code decompiled incorrectly, please refer to instructions dump.
    */
    public final Object invoke(Object obj) {
        J4.c cVar;
        J4.c cVar2;
        long jB;
        int iOrdinal;
        ?? r02;
        ?? r12;
        switch (this.f22674a) {
            case 0:
                W w6 = this.f22675b;
                w6.getClass();
                int iOrdinal2 = ((EnumC2649K) obj).ordinal();
                long j4 = this.f22676c;
                if (iOrdinal2 == 0) {
                    C2643E c2643e = ((Y) w6.f22683f).f22691b.f22780c;
                    if (c2643e != null && (cVar = c2643e.f22619b) != null) {
                        j4 = ((h1.l) cVar.invoke(new h1.l(j4))).f16627a;
                    }
                } else if (iOrdinal2 != 1) {
                    if (iOrdinal2 != 2) {
                        throw new E3.v();
                    }
                    C2643E c2643e2 = w6.f22684j.f22694a.f22780c;
                    if (c2643e2 != null && (cVar2 = c2643e2.f22619b) != null) {
                        j4 = ((h1.l) cVar2.invoke(new h1.l(j4))).f16627a;
                    }
                }
                return new h1.l(j4);
            case 1:
                EnumC2649K enumC2649K = (EnumC2649K) obj;
                W w7 = this.f22675b;
                if (w7.f22687n != null && w7.getAlignment() != null && !kotlin.jvm.internal.o.c(w7.f22687n, w7.getAlignment()) && (iOrdinal = enumC2649K.ordinal()) != 0 && iOrdinal != 1) {
                    if (iOrdinal != 2) {
                        throw new E3.v();
                    }
                    C2643E c2643e3 = w7.f22684j.f22694a.f22780c;
                    if (c2643e3 != null) {
                        long j6 = this.f22676c;
                        long j7 = ((h1.l) c2643e3.f22619b.invoke(new h1.l(j6))).f16627a;
                        InterfaceC2242f alignment = w7.getAlignment();
                        kotlin.jvm.internal.o.e(alignment);
                        h1.m mVar = h1.m.f16628a;
                        long jA = alignment.a(j6, j7, mVar);
                        InterfaceC2242f interfaceC2242f = w7.f22687n;
                        kotlin.jvm.internal.o.e(interfaceC2242f);
                        jB = h1.j.b(jA, interfaceC2242f.a(j6, j7, mVar));
                    } else {
                        jB = 0;
                    }
                }
                return new h1.j(jB);
            default:
                EnumC2649K enumC2649K2 = (EnumC2649K) obj;
                W w8 = this.f22675b;
                m0 m0Var = ((Y) w8.f22683f).f22691b.f22779b;
                long j8 = this.f22676c;
                long j9 = 0;
                long j10 = (m0Var == null || (r12 = m0Var.f22774a) == 0) ? 0L : ((h1.j) r12.invoke(new h1.l(j8))).f16621a;
                m0 m0Var2 = w8.f22684j.f22694a.f22779b;
                long j11 = (m0Var2 == null || (r02 = m0Var2.f22774a) == 0) ? 0L : ((h1.j) r02.invoke(new h1.l(j8))).f16621a;
                int iOrdinal3 = enumC2649K2.ordinal();
                if (iOrdinal3 == 0) {
                    j9 = j10;
                } else if (iOrdinal3 != 1) {
                    if (iOrdinal3 != 2) {
                        throw new E3.v();
                    }
                    j9 = j11;
                }
                return new h1.j(j9);
        }
    }
}
