package fa;

import android.content.Context;
import android.view.View;
import com.google.crypto.tink.config.internal.TinkFipsUtil$AlgorithmFipsCompatibility;
import com.google.crypto.tink.proto.KeyData$KeyMaterialType;
import com.google.crypto.tink.proto.OutputPrefixType;
import com.google.crypto.tink.shaded.protobuf.ByteString;
import com.google.crypto.tink.shaded.protobuf.InvalidProtocolBufferException;
import ea.q0;
import ea.t0;
import ea.u0;
import ea.z;
import java.security.GeneralSecurityException;
import java.security.Provider;
import javax.crypto.Cipher;
import ma.c0;
import ma.d0;
import ma.i0;
import ma.o0;
import ma.u;
import ma.w;
import ma.x;
import ma.y;
import org.drive_hunter.R;
import ra.e0;
import ra.f0;
import ra.g0;
import ra.h0;
import ra.j0;
import ra.r1;
import ra.s1;
import ra.t1;
import ra.u1;
import ra.v1;
import ra.w1;
import ra.x0;
import ra.x1;
import ra.y0;
import ra.y1;
import ra.z1;
import tv.danmaku.ijk.media.player.IjkLibLoader;
import tv.danmaku.ijk.media.player.ui.IjkPlayerRuntime;
import xyz.netfly.MyApplication;
import xyz.netfly.SplashActivity;
import xyz.netfly.ui.dashboard.DashboardActivity;
import xyz.stream.api.entity.AudioEntity;
import xyz.stream.api.entity.CmsVideoSource;
import xyz.stream.api.entity.SeriesEntity;
import xyz.stream.api.entity.SubtitlePlayEntity;
import xyz.stream.api.entity.TagsEntity;
import xyz.stream.utils.entity.CheckResultEntity;
import xyz.stream.view.BaseActivity;
import xyz.stream.view.UiUtils;
import xyz.stream.view.ViewRuntime;
import xyz.stream.view.refresh.footer.ClassicsFooter;
import xyz.stream.view.refresh.hearder.MaterialHeader;
import xyz.stream.view.refresh.layout.api.RefreshLayout;
import xyz.stream.view.refresh.layout.listener.DefaultRefreshInitializer;

/* JADX INFO: loaded from: classes2.dex */
public final /* synthetic */ class h implements ma.g, ma.e, y, w, d0, o0, id.d, IjkLibLoader, ViewRuntime.LanguageProvider, ViewRuntime.ScreenReporter, ViewRuntime.RestartAction, DefaultRefreshInitializer, ag.b, xyz.stream.api.viewmodel.c, u4.d, IjkPlayerRuntime.PremiumUserProvider, u4.a, u4.c {

    /* JADX INFO: renamed from: a, reason: collision with root package name */
    public final /* synthetic */ int f26011a;

    public /* synthetic */ h(int i10) {
        this.f26011a = i10;
    }

    @Override // ag.b
    public void a() {
        switch (this.f26011a) {
            case 7:
                int i10 = SplashActivity.f34824f;
                System.exit(0);
                break;
            default:
                int i11 = DashboardActivity.f35280m;
                System.exit(0);
                break;
        }
    }

    @Override // u4.a
    public Object apply(Object obj) {
        switch (this.f26011a) {
            case 12:
                return Integer.valueOf(((SeriesEntity) obj).getVideoId());
            case 13:
                return ((AudioEntity) obj).getTitle();
            case 14:
                return ((SubtitlePlayEntity) obj).getTitle();
            case 15:
                return Integer.valueOf(((SeriesEntity) obj).getEpisodeNumber());
            case 16:
                return Integer.valueOf(((SeriesEntity) obj).getVideoId());
            case 17:
                return Integer.valueOf(((SeriesEntity) obj).getVideoId());
            case 18:
                return String.valueOf(((TagsEntity) obj).getId());
            case 19:
            case 20:
            default:
                return ((SubtitlePlayEntity) obj).getTitle();
            case 21:
                return Integer.valueOf(((SeriesEntity) obj).getVideoId());
            case 22:
                return Integer.valueOf(((SeriesEntity) obj).getVideoId());
        }
    }

    @Override // id.d
    public boolean b(View view) {
        return view.hasFocus();
    }

    @Override // u4.d
    public int c(Object obj) {
        return ((String) obj).length();
    }

    @Override // ma.y
    public i0 d(da.l lVar) {
        switch (this.f26011a) {
            case 2:
                t0 t0Var = (t0) lVar;
                x xVar = r.f26027a;
                x0 x0VarK = y0.K();
                x0VarK.j("type.googleapis.com/google.crypto.tink.XAesGcmKey");
                t1 t1VarG = u1.G();
                v1 v1VarG = w1.G();
                int i10 = t0Var.f25762b;
                v1VarG.f();
                w1.D((w1) v1VarG.f23982b, i10);
                w1 w1Var = (w1) v1VarG.c();
                t1VarG.f();
                u1.D((u1) t1VarG.f23982b, w1Var);
                x0VarK.k(((u1) t1VarG.c()).f());
                x0VarK.i(r.a(t0Var.f25761a));
                return i0.a((y0) x0VarK.c());
            case 6:
                x xVar2 = t.f26034a;
                x0 x0VarK2 = y0.K();
                x0VarK2.j("type.googleapis.com/google.crypto.tink.XChaCha20Poly1305Key");
                x0VarK2.k(z1.E().f());
                x0VarK2.i(t.a(((ea.x0) lVar).f25791a));
                return i0.a((y0) x0VarK2.c());
            default:
                ja.d dVar = (ja.d) lVar;
                x xVar3 = ka.a.f29087a;
                x0 x0VarK3 = y0.K();
                x0VarK3.j("type.googleapis.com/google.crypto.tink.AesSivKey");
                g0 g0VarG = h0.G();
                int i11 = dVar.f28736a;
                g0VarG.f();
                h0.D((h0) g0VarG.f23982b, i11);
                x0VarK3.k(((h0) g0VarG.c()).f());
                x0VarK3.i(ka.a.a(dVar.f28737b));
                return i0.a((y0) x0VarK3.c());
        }
    }

    @Override // ma.d0
    public Object e(com.bumptech.glide.g gVar) throws GeneralSecurityException {
        byte[] bArrB;
        byte[] bArrB2;
        da.e eVar = da.e.f25073b;
        switch (this.f26011a) {
            case 11:
                ja.a aVar = (ja.a) gVar;
                c0 c0Var = ja.b.f28728a;
                ja.b.a(aVar.f28724b);
                return new sa.d(aVar.f28725c.F(eVar), aVar.f28726d);
            case 12:
                ma.j jVar = (ma.j) gVar;
                ma.h0 h0Var = jVar.f30530b;
                ma.j.S(h0Var);
                da.b bVar = (da.b) ma.c.f30500d.a(da.b.class, h0Var.f30520a).a(h0Var.f30522c);
                OutputPrefixType outputPrefixType = h0Var.f30524e;
                int iOrdinal = outputPrefixType.ordinal();
                ma.h0 h0Var2 = jVar.f30530b;
                if (iOrdinal == 1) {
                    bArrB = u.b(h0Var2.f30525f.intValue()).b();
                } else if (iOrdinal == 2) {
                    bArrB = u.a(h0Var2.f30525f.intValue()).b();
                } else if (iOrdinal != 3) {
                    if (iOrdinal != 4) {
                        throw new GeneralSecurityException("unknown output prefix type " + outputPrefixType.b());
                    }
                    bArrB = u.a(h0Var2.f30525f.intValue()).b();
                } else {
                    bArrB = u.f30557a.b();
                }
                return new ka.b(bVar, outputPrefixType, bArrB);
            case 20:
                na.a aVar2 = (na.a) gVar;
                ea.i iVar = na.b.f31129a;
                if (aVar2.f31125b.f31138a != 32) {
                    throw new GeneralSecurityException("AesCmacKey size wrong, must be 32 bytes");
                }
                if (!TinkFipsUtil$AlgorithmFipsCompatibility.f23814a.a()) {
                    throw new GeneralSecurityException("Cannot use AES-CMAC in FIPS-mode.");
                }
                Provider providerA = ma.a.a();
                if (providerA != null) {
                    try {
                        return oa.c.a(aVar2, providerA);
                    } catch (GeneralSecurityException unused) {
                    }
                }
                return new oa.c();
            case 21:
                na.a aVar3 = (na.a) gVar;
                ea.i iVar2 = na.b.f31129a;
                if (aVar3.f31125b.f31138a == 32) {
                    return new sa.n(aVar3);
                }
                throw new GeneralSecurityException("AesCmacKey size wrong, must be 32 bytes");
            case 22:
                oa.c cVar = new oa.c();
                if (TinkFipsUtil$AlgorithmFipsCompatibility.f23815b.a()) {
                    return cVar;
                }
                throw new GeneralSecurityException("Can not use HMAC in FIPS-mode, as BoringCrypto module is not available.");
            case 23:
                return new sa.n((na.h) gVar);
            default:
                ma.j jVar2 = (ma.j) gVar;
                ma.h0 h0Var3 = jVar2.f30530b;
                ma.j.S(h0Var3);
                da.k kVar = (da.k) ma.c.f30500d.a(da.k.class, h0Var3.f30520a).a(h0Var3.f30522c);
                OutputPrefixType outputPrefixType2 = h0Var3.f30524e;
                int iOrdinal2 = outputPrefixType2.ordinal();
                ma.h0 h0Var4 = jVar2.f30530b;
                if (iOrdinal2 == 1) {
                    bArrB2 = u.b(h0Var4.f30525f.intValue()).b();
                } else if (iOrdinal2 == 2) {
                    bArrB2 = u.a(h0Var4.f30525f.intValue()).b();
                } else if (iOrdinal2 != 3) {
                    if (iOrdinal2 != 4) {
                        throw new GeneralSecurityException("unknown output prefix type");
                    }
                    bArrB2 = u.a(h0Var4.f30525f.intValue()).b();
                } else {
                    bArrB2 = u.f30557a.b();
                }
                return new oa.e(kVar, outputPrefixType2, bArrB2);
        }
    }

    @Override // ma.g
    public ma.h0 g(com.bumptech.glide.g gVar) {
        da.e eVar = da.e.f25073b;
        KeyData$KeyMaterialType keyData$KeyMaterialType = KeyData$KeyMaterialType.SYMMETRIC;
        switch (this.f26011a) {
            case 0:
                z zVar = (z) gVar;
                ra.i0 i0VarG = j0.G();
                byte[] bArrF = zVar.f25795c.F(eVar);
                ByteString byteStringG = ByteString.g(0, bArrF.length, bArrF);
                i0VarG.f();
                j0.D((j0) i0VarG.f23982b, byteStringG);
                return ma.h0.a("type.googleapis.com/google.crypto.tink.ChaCha20Poly1305Key", ((j0) i0VarG.c()).f(), keyData$KeyMaterialType, i.a(zVar.f25794b.f25634a), zVar.f25797e);
            case 4:
                q0 q0Var = (q0) gVar;
                x xVar = r.f26027a;
                r1 r1VarI = s1.I();
                byte[] bArrF2 = q0Var.f25740c.F(eVar);
                ByteString byteStringG2 = ByteString.g(0, bArrF2.length, bArrF2);
                r1VarI.f();
                s1.E((s1) r1VarI.f23982b, byteStringG2);
                v1 v1VarG = w1.G();
                t0 t0Var = q0Var.f25739b;
                int i10 = t0Var.f25762b;
                v1VarG.f();
                w1.D((w1) v1VarG.f23982b, i10);
                w1 w1Var = (w1) v1VarG.c();
                r1VarI.f();
                s1.D((s1) r1VarI.f23982b, w1Var);
                return ma.h0.a("type.googleapis.com/google.crypto.tink.XAesGcmKey", ((s1) r1VarI.c()).f(), keyData$KeyMaterialType, r.a(t0Var.f25761a), q0Var.f25742e);
            case 8:
                u0 u0Var = (u0) gVar;
                x xVar2 = t.f26034a;
                x1 x1VarG = y1.G();
                byte[] bArrF3 = u0Var.f25768c.F(eVar);
                ByteString byteStringG3 = ByteString.g(0, bArrF3.length, bArrF3);
                x1VarG.f();
                y1.D((y1) x1VarG.f23982b, byteStringG3);
                return ma.h0.a("type.googleapis.com/google.crypto.tink.XChaCha20Poly1305Key", ((y1) x1VarG.c()).f(), keyData$KeyMaterialType, t.a(u0Var.f25767b.f25791a), u0Var.f25770e);
            case 16:
                ja.a aVar = (ja.a) gVar;
                x xVar3 = ka.a.f29087a;
                e0 e0VarG = f0.G();
                byte[] bArrF4 = aVar.f28725c.F(eVar);
                ByteString byteStringG4 = ByteString.g(0, bArrF4.length, bArrF4);
                e0VarG.f();
                f0.D((f0) e0VarG.f23982b, byteStringG4);
                return ma.h0.a("type.googleapis.com/google.crypto.tink.AesSivKey", ((f0) e0VarG.c()).f(), keyData$KeyMaterialType, ka.a.a(aVar.f28724b.f28737b), aVar.f28727e);
            default:
                ma.h0 h0Var = ((ma.j) gVar).f30530b;
                ma.j.S(h0Var);
                return h0Var;
        }
    }

    @Override // ma.o0
    public Object get() throws GeneralSecurityException {
        na.j jVar = na.j.f31154d;
        na.j jVar2 = na.j.f31156f;
        na.k kVar = na.k.f31158b;
        switch (this.f26011a) {
            case 10:
                try {
                    Cipher cipher = (Cipher) ga.a.f26334a.get();
                    if (cipher != null) {
                        return cipher;
                    }
                    throw new GeneralSecurityException("AES GCM SIV cipher is invalid.");
                } catch (IllegalStateException e10) {
                    throw new GeneralSecurityException("AES GCM SIV cipher is not available or is invalid.", e10);
                }
            case 13:
                ja.d dVar = ja.i.f28745a;
                fe.h hVar = new fe.h();
                hVar.P(64);
                hVar.f26081c = ja.c.f28732b;
                return hVar.l();
            case 18:
                ma.t tVar = new ma.t();
                tVar.d(new ma.f(new h(19), ma.j.class));
                return tVar;
            case 25:
                na.l lVar = na.s.f31174a;
                u.e eVarB = na.l.b();
                eVarB.f33125a = 32;
                eVarB.f33126b = 16;
                eVarB.f33128d = kVar;
                eVarB.f33127c = jVar;
                return eVarB.e();
            case 26:
                na.l lVar2 = na.s.f31174a;
                u.e eVarB2 = na.l.b();
                eVarB2.f33125a = 32;
                eVarB2.f33126b = 32;
                eVarB2.f33128d = kVar;
                eVarB2.f33127c = jVar;
                return eVarB2.e();
            case 27:
                na.l lVar3 = na.s.f31174a;
                u.e eVarB3 = na.l.b();
                eVarB3.f33125a = 64;
                eVarB3.f33126b = 32;
                eVarB3.f33128d = kVar;
                eVarB3.f33127c = jVar2;
                return eVarB3.e();
            case 28:
                na.l lVar4 = na.s.f31174a;
                u.e eVarB4 = na.l.b();
                eVarB4.f33125a = 64;
                eVarB4.f33126b = 64;
                eVarB4.f33128d = kVar;
                eVarB4.f33127c = jVar2;
                return eVarB4.e();
            default:
                na.l lVar5 = na.s.f31174a;
                xyz.stream.utils.t tVar2 = new xyz.stream.utils.t((xyz.stream.utils.s) null);
                tVar2.x(32);
                tVar2.y(16);
                tVar2.f36174d = na.c.f31133b;
                return tVar2.j();
        }
    }

    @Override // xyz.stream.view.ViewRuntime.LanguageProvider
    public String getLanguage() {
        Context context = MyApplication.f34822a;
        xyz.stream.utils.e.d().getClass();
        return xyz.stream.utils.e.e();
    }

    @Override // ma.e
    public com.bumptech.glide.g h(ma.h0 h0Var) throws GeneralSecurityException {
        da.e eVar = da.e.f25073b;
        Integer num = h0Var.f30525f;
        OutputPrefixType outputPrefixType = h0Var.f30524e;
        ByteString byteString = h0Var.f30522c;
        String str = h0Var.f30520a;
        switch (this.f26011a) {
            case 1:
                if (!str.equals("type.googleapis.com/google.crypto.tink.ChaCha20Poly1305Key")) {
                    throw new IllegalArgumentException("Wrong type URL in call to ChaCha20Poly1305ProtoSerialization.parseKey");
                }
                try {
                    j0 j0VarH = j0.H(byteString, com.google.crypto.tink.shaded.protobuf.q.a());
                    if (j0VarH.F() == 0) {
                        return z.S(i.b(outputPrefixType), xyz.stream.utils.f0.e(j0VarH.E().k(), eVar), num);
                    }
                    throw new GeneralSecurityException("Only version 0 keys are accepted");
                } catch (InvalidProtocolBufferException unused) {
                    throw new GeneralSecurityException("Parsing ChaCha20Poly1305Key failed");
                }
            case 5:
                x xVar = r.f26027a;
                if (!str.equals("type.googleapis.com/google.crypto.tink.XAesGcmKey")) {
                    throw new IllegalArgumentException("Wrong type URL in call to XAesGcmProtoSerialization.parseKey");
                }
                try {
                    s1 s1VarJ = s1.J(byteString, com.google.crypto.tink.shaded.protobuf.q.a());
                    if (s1VarJ.H() != 0) {
                        throw new GeneralSecurityException("Only version 0 keys are accepted");
                    }
                    if (s1VarJ.F().size() == 32) {
                        return q0.S(t0.b(r.b(outputPrefixType), s1VarJ.G().F()), xyz.stream.utils.f0.e(s1VarJ.F().k(), eVar), num);
                    }
                    throw new GeneralSecurityException("Only 32 byte key size is accepted");
                } catch (InvalidProtocolBufferException unused2) {
                    throw new GeneralSecurityException("Parsing XAesGcmKey failed");
                }
            case 9:
                x xVar2 = t.f26034a;
                if (!str.equals("type.googleapis.com/google.crypto.tink.XChaCha20Poly1305Key")) {
                    throw new IllegalArgumentException("Wrong type URL in call to XChaCha20Poly1305ProtoSerialization.parseKey");
                }
                try {
                    y1 y1VarH = y1.H(byteString, com.google.crypto.tink.shaded.protobuf.q.a());
                    if (y1VarH.F() == 0) {
                        return u0.S(t.b(outputPrefixType), xyz.stream.utils.f0.e(y1VarH.E().k(), eVar), num);
                    }
                    throw new GeneralSecurityException("Only version 0 keys are accepted");
                } catch (InvalidProtocolBufferException unused3) {
                    throw new GeneralSecurityException("Parsing XChaCha20Poly1305Key failed");
                }
            default:
                x xVar3 = ka.a.f29087a;
                if (!str.equals("type.googleapis.com/google.crypto.tink.AesSivKey")) {
                    throw new IllegalArgumentException("Wrong type URL in call to AesSivParameters.parseParameters");
                }
                try {
                    f0 f0VarH = f0.H(byteString, com.google.crypto.tink.shaded.protobuf.q.a());
                    if (f0VarH.F() != 0) {
                        throw new GeneralSecurityException("Only version 0 keys are accepted");
                    }
                    fe.h hVar = new fe.h();
                    hVar.P(f0VarH.E().size());
                    hVar.f26081c = ka.a.b(outputPrefixType);
                    ja.d dVarL = hVar.l();
                    xyz.stream.utils.t tVar = new xyz.stream.utils.t((xyz.stream.utils.p) null);
                    tVar.f36172b = dVarL;
                    tVar.f36173c = xyz.stream.utils.f0.e(f0VarH.E().k(), eVar);
                    tVar.f36174d = num;
                    return tVar.g();
                } catch (InvalidProtocolBufferException unused4) {
                    throw new GeneralSecurityException("Parsing AesSivKey failed");
                }
        }
    }

    @Override // ma.w
    public da.l i(i0 i0Var) throws GeneralSecurityException {
        y0 y0Var = i0Var.f30529b;
        switch (this.f26011a) {
            case 3:
                x xVar = r.f26027a;
                if (!y0Var.I().equals("type.googleapis.com/google.crypto.tink.XAesGcmKey")) {
                    throw new IllegalArgumentException("Wrong type URL in call to XAesGcmProtoSerialization.parseParameters: " + y0Var.I());
                }
                try {
                    u1 u1VarH = u1.H(y0Var.J(), com.google.crypto.tink.shaded.protobuf.q.a());
                    if (u1VarH.F() == 0) {
                        return t0.b(r.b(y0Var.H()), u1VarH.E().F());
                    }
                    throw new GeneralSecurityException("Only version 0 parameters are accepted");
                } catch (InvalidProtocolBufferException e10) {
                    throw new GeneralSecurityException("Parsing XAesGcmParameters failed: ", e10);
                }
            case 7:
                x xVar2 = t.f26034a;
                if (!y0Var.I().equals("type.googleapis.com/google.crypto.tink.XChaCha20Poly1305Key")) {
                    throw new IllegalArgumentException("Wrong type URL in call to XChaCha20Poly1305ProtoSerialization.parseParameters: " + y0Var.I());
                }
                try {
                    if (z1.G(y0Var.J(), com.google.crypto.tink.shaded.protobuf.q.a()).F() == 0) {
                        return new ea.x0(t.b(y0Var.H()));
                    }
                    throw new GeneralSecurityException("Only version 0 parameters are accepted");
                } catch (InvalidProtocolBufferException e11) {
                    throw new GeneralSecurityException("Parsing XChaCha20Poly1305Parameters failed: ", e11);
                }
            default:
                x xVar3 = ka.a.f29087a;
                if (!y0Var.I().equals("type.googleapis.com/google.crypto.tink.AesSivKey")) {
                    throw new IllegalArgumentException("Wrong type URL in call to AesSivParameters.parseParameters: " + y0Var.I());
                }
                try {
                    h0 h0VarH = h0.H(y0Var.J(), com.google.crypto.tink.shaded.protobuf.q.a());
                    if (h0VarH.F() != 0) {
                        throw new GeneralSecurityException("Only version 0 keys are accepted");
                    }
                    fe.h hVar = new fe.h();
                    hVar.P(h0VarH.E());
                    hVar.f26081c = ka.a.b(y0Var.H());
                    return hVar.l();
                } catch (InvalidProtocolBufferException e12) {
                    throw new GeneralSecurityException("Parsing AesSivParameters failed: ", e12);
                }
        }
    }

    @Override // xyz.stream.view.refresh.layout.listener.DefaultRefreshInitializer
    public void initialize(Context context, RefreshLayout refreshLayout) {
        int i10 = SplashActivity.f34824f;
        refreshLayout.setEnableHeaderTranslationContent(true);
        refreshLayout.setEnableFooterFollowWhenNoMoreData(xyz.stream.utils.e.d().f36119h);
        ClassicsFooter classicsFooter = new ClassicsFooter(context);
        classicsFooter.setNoMoreText(xyz.stream.utils.e.d().f36119h ? context.getString(R.string.no_more) : "");
        refreshLayout.setRefreshFooter(classicsFooter, 0, UiUtils.dp2px(120.0f));
        MaterialHeader materialHeader = new MaterialHeader(context);
        materialHeader.setSize(0);
        Object obj = g0.d.f26125a;
        materialHeader.setColorSchemeColors(context.getColor(R.color.main_color));
        materialHeader.setProgressBackgroundColorSchemeColor(context.getColor(R.color.bg_color));
        refreshLayout.setRefreshHeader(materialHeader);
    }

    @Override // tv.danmaku.ijk.media.player.ui.IjkPlayerRuntime.PremiumUserProvider
    public boolean isPremiumUser() {
        int i10 = SplashActivity.f34824f;
        CheckResultEntity checkResultEntityC = xyz.stream.utils.e.d().c();
        return (checkResultEntityC == null || checkResultEntityC.getIsPremium() == null || checkResultEntityC.getIsPremium().intValue() != 1) ? false : true;
    }

    @Override // tv.danmaku.ijk.media.player.IjkLibLoader
    public void loadLibrary(String str) {
        System.loadLibrary(str);
    }

    @Override // xyz.stream.view.ViewRuntime.ScreenReporter
    public void reportScreen(String str) {
        kotlinx.coroutines.y.S(str);
    }

    @Override // xyz.stream.view.ViewRuntime.RestartAction
    public void restartApp(BaseActivity baseActivity) {
        Context context = MyApplication.f34822a;
        xyz.stream.utils.e.d().i();
    }

    @Override // u4.c
    public boolean test(Object obj) {
        switch (this.f26011a) {
            case 1:
                break;
            case 19:
                if (((CmsVideoSource) obj).getIsDefault().intValue() == 1) {
                }
                break;
            case 20:
                if (((CmsVideoSource) obj).getIsDefault().intValue() == 1) {
                }
                break;
            case 24:
                SubtitlePlayEntity subtitlePlayEntity = (SubtitlePlayEntity) obj;
                if (!subtitlePlayEntity.getTitle().contains("AI") && !subtitlePlayEntity.getTitle().equals("Off")) {
                    break;
                }
                break;
            case 25:
                break;
            case 26:
                if (((CmsVideoSource) obj).getIsDefault().intValue() == 1) {
                }
                break;
            case 27:
                if (((CmsVideoSource) obj).getIsDefault().intValue() == 1) {
                }
                break;
            default:
                if (((CmsVideoSource) obj).getIsDefault().intValue() == 1) {
                }
                break;
        }
        return true;
    }
}
