package m1;

import E3.v;
import G0.B;
import G0.Z;
import G0.p0;
import G0.q0;
import android.os.Build;
import android.os.Bundle;
import android.view.ViewGroup;
import androidx.navigation.C1134i;
import com.google.firebase.firestore.index.FirestoreIndexValueWriter;
import java.util.Collections;
import java.util.List;
import java.util.Set;
import kotlin.jvm.internal.D;
import o0.C2632c;
import r1.C2868b;
import w4.C3138B;
import w4.x;

/* JADX INFO: loaded from: classes.dex */
public abstract class g {

    /* JADX INFO: renamed from: a, reason: collision with root package name */
    public static boolean f20429a = true;

    public static final z.m a() {
        return new z.m();
    }

    public static final C2632c b(long j4, long j6) {
        int i6 = (int) (j4 >> 32);
        int i7 = (int) (j4 & 4294967295L);
        return new C2632c(Float.intBitsToFloat(i6), Float.intBitsToFloat(i7), Float.intBitsToFloat((int) (j6 >> 32)) + Float.intBitsToFloat(i6), Float.intBitsToFloat((int) (j6 & 4294967295L)) + Float.intBitsToFloat(i7));
    }

    public static final void c(r rVar, List list) {
        int size = list.size();
        for (int i6 = 0; i6 < size; i6++) {
            Z z6 = (Z) list.get(i6);
            Object objJ = B.j(z6);
            if (objJ == null) {
                z6.S();
                objJ = new C1134i(11);
            }
            C2868b c2868bB = rVar.b(objJ.toString());
            if (c2868bB != null) {
                c2868bB.f0 = z6;
                u1.d dVar = c2868bB.g0;
                if (dVar != null) {
                    dVar.f24460c0 = z6;
                }
            }
            z6.S();
        }
    }

    public static String e(Object value, String str) {
        kotlin.jvm.internal.o.h(value, "value");
        return str + " value: " + value;
    }

    public static final String f(String serialName, j5.c decoder) {
        kotlin.jvm.internal.o.h(serialName, "serialName");
        kotlin.jvm.internal.o.h(decoder, "decoder");
        return "Cannot deserialize " + serialName + " with '" + D.a(decoder.getClass()).c() + "'. This serializer can only be used with SavedStateDecoder. Use 'decodeFromSavedState' instead.";
    }

    public static final String g(j5.d encoder, String serialName) {
        kotlin.jvm.internal.o.h(serialName, "serialName");
        kotlin.jvm.internal.o.h(encoder, "encoder");
        return "Cannot serialize " + serialName + " with '" + D.a(encoder.getClass()).c() + "'. This serializer can only be used with SavedStateEncoder. Use 'encodeToSavedState' instead.";
    }

    public static boolean h(int i6) {
        int type = Character.getType(i6);
        if (type != 29 && type != 30) {
            switch (type) {
                default:
                    if (i6 != 36 && i6 != 43 && i6 != 94 && i6 != 96 && i6 != 124 && i6 != 126) {
                        switch (i6) {
                            case FirestoreIndexValueWriter.INDEX_TYPE_REFERENCE_SEGMENT /* 60 */:
                            case 61:
                            case 62:
                                break;
                            default:
                                return false;
                        }
                    }
                case 20:
                case 21:
                case 22:
                case 23:
                case 24:
                    return true;
            }
        }
        return true;
    }

    public static boolean i(int i6) {
        return i6 == 9 || i6 == 10 || i6 == 12 || i6 == 13 || i6 == 32 || Character.getType(i6) == 12;
    }

    public static w4.h j(w4.i iVar, J4.a initializer) {
        kotlin.jvm.internal.o.h(initializer, "initializer");
        int iOrdinal = iVar.ordinal();
        if (iOrdinal == 0) {
            return new w4.p(initializer);
        }
        x xVar = x.f25488a;
        if (iOrdinal == 1) {
            w4.o oVar = new w4.o();
            oVar.f25474a = initializer;
            oVar.f25475b = xVar;
            return oVar;
        }
        if (iOrdinal != 2) {
            throw new v();
        }
        C3138B c3138b = new C3138B();
        c3138b.f25454a = initializer;
        c3138b.f25455b = xVar;
        return c3138b;
    }

    public static w4.p k(J4.a initializer) {
        kotlin.jvm.internal.o.h(initializer, "initializer");
        return new w4.p(initializer);
    }

    public static void l(p0 p0Var, q0 q0Var, r1.k kVar) {
        if (kVar.f23911o == 8) {
            return;
        }
        if (Float.isNaN(kVar.f23903f) && Float.isNaN(kVar.f23904g) && Float.isNaN(kVar.f23905h) && Float.isNaN(kVar.f23906i) && Float.isNaN(kVar.f23907j) && Float.isNaN(kVar.f23908k) && Float.isNaN(kVar.l) && Float.isNaN(kVar.f23909m) && Float.isNaN(kVar.f23910n)) {
            p0.q(p0Var, q0Var, (((long) (kVar.f23899b - ((int) 0))) << 32) | (((long) (kVar.f23900c - ((int) 0))) & 4294967295L));
        } else {
            p0Var.B(q0Var, kVar.f23899b - ((int) 0), kVar.f23900c - ((int) 0), Float.isNaN(kVar.f23908k) ? 0.0f : kVar.f23908k, new C0.Z(kVar, 23));
        }
    }

    public static final void m(Bundle bundle, String key, Bundle value) {
        kotlin.jvm.internal.o.h(key, "key");
        kotlin.jvm.internal.o.h(value, "value");
        bundle.putBundle(key, value);
    }

    public static Set o(Object obj) {
        Set setSingleton = Collections.singleton(obj);
        kotlin.jvm.internal.o.g(setSingleton, "singleton(...)");
        return setSingleton;
    }

    public static void p(ViewGroup viewGroup, boolean z6) {
        if (Build.VERSION.SDK_INT >= 29) {
            M0.b.i(viewGroup, z6);
        } else if (f20429a) {
            try {
                M0.b.i(viewGroup, z6);
            } catch (NoSuchMethodError unused) {
                f20429a = false;
            }
        }
    }

    public abstract Object d();

    public abstract g n(String str, J4.c cVar);
}
