android-34/android/hardware/gnss/IGnssAntennaInfoCallback.java - platform/prebuilts/fullsdk/sources - Gitiles

 /*
  * This file is auto-generated.  DO NOT MODIFY.
  */
 package android.hardware.gnss;
 /** @hide */
 public interface IGnssAntennaInfoCallback extends android.os.IInterface
 {
   /**
    * The version of this interface that the caller is built against.
    * This might be different from what {@link #getInterfaceVersion()
    * getInterfaceVersion} returns as that is the version of the interface
    * that the remote object is implementing.
    */
   public static final int VERSION = 2;
   public static final String HASH = "fc957f1d3d261d065ff5e5415f2d21caa79c310f";
   /** Default implementation for IGnssAntennaInfoCallback. */
   public static class Default implements android.hardware.gnss.IGnssAntennaInfoCallback
   {
     @Override public void gnssAntennaInfoCb(android.hardware.gnss.IGnssAntennaInfoCallback.GnssAntennaInfo[] gnssAntennaInfos) throws android.os.RemoteException
     {
     }
     @Override
     public int getInterfaceVersion() {
       return 0;
     }
     @Override
     public String getInterfaceHash() {
       return "";
     }
     @Override
     public android.os.IBinder asBinder() {
       return null;
     }
   }
   /** Local-side IPC implementation stub class. */
   public static abstract class Stub extends android.os.Binder implements android.hardware.gnss.IGnssAntennaInfoCallback
   {
     /** Construct the stub at attach it to the interface. */
     public Stub()
     {
       this.markVintfStability();
       this.attachInterface(this, DESCRIPTOR);
     }
     /**
      * Cast an IBinder object into an android.hardware.gnss.IGnssAntennaInfoCallback interface,
      * generating a proxy if needed.
      */
     public static android.hardware.gnss.IGnssAntennaInfoCallback asInterface(android.os.IBinder obj)
     {
       if ((obj==null)) {
         return null;
       }
       android.os.IInterface iin = obj.queryLocalInterface(DESCRIPTOR);
       if (((iin!=null)&&(iin instanceof android.hardware.gnss.IGnssAntennaInfoCallback))) {
         return ((android.hardware.gnss.IGnssAntennaInfoCallback)iin);
       }
       return new android.hardware.gnss.IGnssAntennaInfoCallback.Stub.Proxy(obj);
     }
     @Override public android.os.IBinder asBinder()
     {
       return this;
     }
     /** @hide */
     public static java.lang.String getDefaultTransactionName(int transactionCode)
     {
       switch (transactionCode)
       {
         case TRANSACTION_gnssAntennaInfoCb:
         {
           return "gnssAntennaInfoCb";
         }
         case TRANSACTION_getInterfaceVersion:
         {
           return "getInterfaceVersion";
         }
         case TRANSACTION_getInterfaceHash:
         {
           return "getInterfaceHash";
         }
         default:
         {
           return null;
         }
       }
     }
     /** @hide */
     public java.lang.String getTransactionName(int transactionCode)
     {
       return this.getDefaultTransactionName(transactionCode);
     }
     @Override public boolean onTransact(int code, android.os.Parcel data, android.os.Parcel reply, int flags) throws android.os.RemoteException
     {
       java.lang.String descriptor = DESCRIPTOR;
       if (code >= android.os.IBinder.FIRST_CALL_TRANSACTION && code <= android.os.IBinder.LAST_CALL_TRANSACTION) {
         data.enforceInterface(descriptor);
       }
       switch (code)
       {
         case INTERFACE_TRANSACTION:
         {
           reply.writeString(descriptor);
           return true;
         }
         case TRANSACTION_getInterfaceVersion:
         {
           reply.writeNoException();
           reply.writeInt(getInterfaceVersion());
           return true;
         }
         case TRANSACTION_getInterfaceHash:
         {
           reply.writeNoException();
           reply.writeString(getInterfaceHash());
           return true;
         }
       }
       switch (code)
       {
         case TRANSACTION_gnssAntennaInfoCb:
         {
           android.hardware.gnss.IGnssAntennaInfoCallback.GnssAntennaInfo[] _arg0;
           _arg0 = data.createTypedArray(android.hardware.gnss.IGnssAntennaInfoCallback.GnssAntennaInfo.CREATOR);
           data.enforceNoDataAvail();
           this.gnssAntennaInfoCb(_arg0);
           reply.writeNoException();
           break;
         }
         default:
         {
           return super.onTransact(code, data, reply, flags);
         }
       }
       return true;
     }
     private static class Proxy implements android.hardware.gnss.IGnssAntennaInfoCallback
     {
       private android.os.IBinder mRemote;
       Proxy(android.os.IBinder remote)
       {
         mRemote = remote;
       }
       private int mCachedVersion = -1;
       private String mCachedHash = "-1";
       @Override public android.os.IBinder asBinder()
       {
         return mRemote;
       }
       public java.lang.String getInterfaceDescriptor()
       {
         return DESCRIPTOR;
       }
       @Override public void gnssAntennaInfoCb(android.hardware.gnss.IGnssAntennaInfoCallback.GnssAntennaInfo[] gnssAntennaInfos) throws android.os.RemoteException
       {
         android.os.Parcel _data = android.os.Parcel.obtain(asBinder());
         android.os.Parcel _reply = android.os.Parcel.obtain();
         try {
           _data.writeInterfaceToken(DESCRIPTOR);
           _data.writeTypedArray(gnssAntennaInfos, 0);
           boolean _status = mRemote.transact(Stub.TRANSACTION_gnssAntennaInfoCb, _data, _reply, 0);
           if (!_status) {
             throw new android.os.RemoteException("Method gnssAntennaInfoCb is unimplemented.");
           }
           _reply.readException();
         }
         finally {
           _reply.recycle();
           _data.recycle();
         }
       }
       @Override
       public int getInterfaceVersion() throws android.os.RemoteException {
         if (mCachedVersion == -1) {
           android.os.Parcel data = android.os.Parcel.obtain(asBinder());
           android.os.Parcel reply = android.os.Parcel.obtain();
           try {
             data.writeInterfaceToken(DESCRIPTOR);
             boolean _status = mRemote.transact(Stub.TRANSACTION_getInterfaceVersion, data, reply, 0);
             reply.readException();
             mCachedVersion = reply.readInt();
           } finally {
             reply.recycle();
             data.recycle();
           }
         }
         return mCachedVersion;
       }
       @Override
       public synchronized String getInterfaceHash() throws android.os.RemoteException {
         if ("-1".equals(mCachedHash)) {
           android.os.Parcel data = android.os.Parcel.obtain(asBinder());
           android.os.Parcel reply = android.os.Parcel.obtain();
           try {
             data.writeInterfaceToken(DESCRIPTOR);
             boolean _status = mRemote.transact(Stub.TRANSACTION_getInterfaceHash, data, reply, 0);
             reply.readException();
             mCachedHash = reply.readString();
           } finally {
             reply.recycle();
             data.recycle();
           }
         }
         return mCachedHash;
       }
     }
     static final int TRANSACTION_gnssAntennaInfoCb = (android.os.IBinder.FIRST_CALL_TRANSACTION + 0);
     static final int TRANSACTION_getInterfaceVersion = (android.os.IBinder.FIRST_CALL_TRANSACTION + 16777214);
     static final int TRANSACTION_getInterfaceHash = (android.os.IBinder.FIRST_CALL_TRANSACTION + 16777213);
     /** @hide */
     public int getMaxTransactionId()
     {
       return 16777214;
     }
   }
   public static final java.lang.String DESCRIPTOR = "android$hardware$gnss$IGnssAntennaInfoCallback".replace('$', '.');
   public void gnssAntennaInfoCb(android.hardware.gnss.IGnssAntennaInfoCallback.GnssAntennaInfo[] gnssAntennaInfos) throws android.os.RemoteException;
   public int getInterfaceVersion() throws android.os.RemoteException;
   public String getInterfaceHash() throws android.os.RemoteException;
   public static class Row implements android.os.Parcelable
   {
     public double[] row;
     @Override
      public final int getStability() { return android.os.Parcelable.PARCELABLE_STABILITY_VINTF; }
     public static final android.os.Parcelable.Creator<Row> CREATOR = new android.os.Parcelable.Creator<Row>() {
       @Override
       public Row createFromParcel(android.os.Parcel _aidl_source) {
         Row _aidl_out = new Row();
         _aidl_out.readFromParcel(_aidl_source);
         return _aidl_out;
       }
       @Override
       public Row[] newArray(int _aidl_size) {
         return new Row[_aidl_size];
       }
     };
     @Override public final void writeToParcel(android.os.Parcel _aidl_parcel, int _aidl_flag)
     {
       int _aidl_start_pos = _aidl_parcel.dataPosition();
       _aidl_parcel.writeInt(0);
       _aidl_parcel.writeDoubleArray(row);
       int _aidl_end_pos = _aidl_parcel.dataPosition();
       _aidl_parcel.setDataPosition(_aidl_start_pos);
       _aidl_parcel.writeInt(_aidl_end_pos - _aidl_start_pos);
       _aidl_parcel.setDataPosition(_aidl_end_pos);
     }
     public final void readFromParcel(android.os.Parcel _aidl_parcel)
     {
       int _aidl_start_pos = _aidl_parcel.dataPosition();
       int _aidl_parcelable_size = _aidl_parcel.readInt();
       try {
         if (_aidl_parcelable_size < 4) throw new android.os.BadParcelableException("Parcelable too small");;
         if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
         row = _aidl_parcel.createDoubleArray();
       } finally {
         if (_aidl_start_pos > (Integer.MAX_VALUE - _aidl_parcelable_size)) {
           throw new android.os.BadParcelableException("Overflow in the size of parcelable");
         }
         _aidl_parcel.setDataPosition(_aidl_start_pos + _aidl_parcelable_size);
       }
     }
     @Override
     public int describeContents() {
       int _mask = 0;
       return _mask;
     }
   }
   public static class Coord implements android.os.Parcelable
   {
     public double x = 0.000000;
     public double xUncertainty = 0.000000;
     public double y = 0.000000;
     public double yUncertainty = 0.000000;
     public double z = 0.000000;
     public double zUncertainty = 0.000000;
     @Override
      public final int getStability() { return android.os.Parcelable.PARCELABLE_STABILITY_VINTF; }
     public static final android.os.Parcelable.Creator<Coord> CREATOR = new android.os.Parcelable.Creator<Coord>() {
       @Override
       public Coord createFromParcel(android.os.Parcel _aidl_source) {
         Coord _aidl_out = new Coord();
         _aidl_out.readFromParcel(_aidl_source);
         return _aidl_out;
       }
       @Override
       public Coord[] newArray(int _aidl_size) {
         return new Coord[_aidl_size];
       }
     };
     @Override public final void writeToParcel(android.os.Parcel _aidl_parcel, int _aidl_flag)
     {
       int _aidl_start_pos = _aidl_parcel.dataPosition();
       _aidl_parcel.writeInt(0);
       _aidl_parcel.writeDouble(x);
       _aidl_parcel.writeDouble(xUncertainty);
       _aidl_parcel.writeDouble(y);
       _aidl_parcel.writeDouble(yUncertainty);
       _aidl_parcel.writeDouble(z);
       _aidl_parcel.writeDouble(zUncertainty);
       int _aidl_end_pos = _aidl_parcel.dataPosition();
       _aidl_parcel.setDataPosition(_aidl_start_pos);
       _aidl_parcel.writeInt(_aidl_end_pos - _aidl_start_pos);
       _aidl_parcel.setDataPosition(_aidl_end_pos);
     }
     public final void readFromParcel(android.os.Parcel _aidl_parcel)
     {
       int _aidl_start_pos = _aidl_parcel.dataPosition();
       int _aidl_parcelable_size = _aidl_parcel.readInt();
       try {
         if (_aidl_parcelable_size < 4) throw new android.os.BadParcelableException("Parcelable too small");;
         if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
         x = _aidl_parcel.readDouble();
         if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
         xUncertainty = _aidl_parcel.readDouble();
         if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
         y = _aidl_parcel.readDouble();
         if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
         yUncertainty = _aidl_parcel.readDouble();
         if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
         z = _aidl_parcel.readDouble();
         if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
         zUncertainty = _aidl_parcel.readDouble();
       } finally {
         if (_aidl_start_pos > (Integer.MAX_VALUE - _aidl_parcelable_size)) {
           throw new android.os.BadParcelableException("Overflow in the size of parcelable");
         }
         _aidl_parcel.setDataPosition(_aidl_start_pos + _aidl_parcelable_size);
       }
     }
     @Override
     public int describeContents() {
       int _mask = 0;
       return _mask;
     }
   }
   public static class GnssAntennaInfo implements android.os.Parcelable
   {
     public long carrierFrequencyHz = 0L;
     public android.hardware.gnss.IGnssAntennaInfoCallback.Coord phaseCenterOffsetCoordinateMillimeters;
     public android.hardware.gnss.IGnssAntennaInfoCallback.Row[] phaseCenterVariationCorrectionMillimeters;
     public android.hardware.gnss.IGnssAntennaInfoCallback.Row[] phaseCenterVariationCorrectionUncertaintyMillimeters;
     public android.hardware.gnss.IGnssAntennaInfoCallback.Row[] signalGainCorrectionDbi;
     public android.hardware.gnss.IGnssAntennaInfoCallback.Row[] signalGainCorrectionUncertaintyDbi;
     @Override
      public final int getStability() { return android.os.Parcelable.PARCELABLE_STABILITY_VINTF; }
     public static final android.os.Parcelable.Creator<GnssAntennaInfo> CREATOR = new android.os.Parcelable.Creator<GnssAntennaInfo>() {
       @Override
       public GnssAntennaInfo createFromParcel(android.os.Parcel _aidl_source) {
         GnssAntennaInfo _aidl_out = new GnssAntennaInfo();
         _aidl_out.readFromParcel(_aidl_source);
         return _aidl_out;
       }
       @Override
       public GnssAntennaInfo[] newArray(int _aidl_size) {
         return new GnssAntennaInfo[_aidl_size];
       }
     };
     @Override public final void writeToParcel(android.os.Parcel _aidl_parcel, int _aidl_flag)
     {
       int _aidl_start_pos = _aidl_parcel.dataPosition();
       _aidl_parcel.writeInt(0);
       _aidl_parcel.writeLong(carrierFrequencyHz);
       _aidl_parcel.writeTypedObject(phaseCenterOffsetCoordinateMillimeters, _aidl_flag);
       _aidl_parcel.writeTypedArray(phaseCenterVariationCorrectionMillimeters, _aidl_flag);
       _aidl_parcel.writeTypedArray(phaseCenterVariationCorrectionUncertaintyMillimeters, _aidl_flag);
       _aidl_parcel.writeTypedArray(signalGainCorrectionDbi, _aidl_flag);
       _aidl_parcel.writeTypedArray(signalGainCorrectionUncertaintyDbi, _aidl_flag);
       int _aidl_end_pos = _aidl_parcel.dataPosition();
       _aidl_parcel.setDataPosition(_aidl_start_pos);
       _aidl_parcel.writeInt(_aidl_end_pos - _aidl_start_pos);
       _aidl_parcel.setDataPosition(_aidl_end_pos);
     }
     public final void readFromParcel(android.os.Parcel _aidl_parcel)
     {
       int _aidl_start_pos = _aidl_parcel.dataPosition();
       int _aidl_parcelable_size = _aidl_parcel.readInt();
       try {
         if (_aidl_parcelable_size < 4) throw new android.os.BadParcelableException("Parcelable too small");;
         if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
         carrierFrequencyHz = _aidl_parcel.readLong();
         if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
         phaseCenterOffsetCoordinateMillimeters = _aidl_parcel.readTypedObject(android.hardware.gnss.IGnssAntennaInfoCallback.Coord.CREATOR);
         if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
         phaseCenterVariationCorrectionMillimeters = _aidl_parcel.createTypedArray(android.hardware.gnss.IGnssAntennaInfoCallback.Row.CREATOR);
         if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
         phaseCenterVariationCorrectionUncertaintyMillimeters = _aidl_parcel.createTypedArray(android.hardware.gnss.IGnssAntennaInfoCallback.Row.CREATOR);
         if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
         signalGainCorrectionDbi = _aidl_parcel.createTypedArray(android.hardware.gnss.IGnssAntennaInfoCallback.Row.CREATOR);
         if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
         signalGainCorrectionUncertaintyDbi = _aidl_parcel.createTypedArray(android.hardware.gnss.IGnssAntennaInfoCallback.Row.CREATOR);
       } finally {
         if (_aidl_start_pos > (Integer.MAX_VALUE - _aidl_parcelable_size)) {
           throw new android.os.BadParcelableException("Overflow in the size of parcelable");
         }
         _aidl_parcel.setDataPosition(_aidl_start_pos + _aidl_parcelable_size);
       }
     }
     @Override
     public int describeContents() {
       int _mask = 0;
       _mask |= describeContents(phaseCenterOffsetCoordinateMillimeters);
       _mask |= describeContents(phaseCenterVariationCorrectionMillimeters);
       _mask |= describeContents(phaseCenterVariationCorrectionUncertaintyMillimeters);
       _mask |= describeContents(signalGainCorrectionDbi);
       _mask |= describeContents(signalGainCorrectionUncertaintyDbi);
       return _mask;
     }
     private int describeContents(Object _v) {
       if (_v == null) return 0;
       if (_v instanceof Object[]) {
         int _mask = 0;
         for (Object o : (Object[]) _v) {
           _mask |= describeContents(o);
         }
         return _mask;
       }
       if (_v instanceof android.os.Parcelable) {
         return ((android.os.Parcelable) _v).describeContents();
       }
       return 0;
     }
   }
 }
	/*
	* This file is auto-generated. DO NOT MODIFY.
	*/
	package android.hardware.gnss;
	/** @hide */
	public interface IGnssAntennaInfoCallback extends android.os.IInterface
	{
	/**
	* The version of this interface that the caller is built against.
	* This might be different from what {@link #getInterfaceVersion()
	* getInterfaceVersion} returns as that is the version of the interface
	* that the remote object is implementing.
	*/
	public static final int VERSION = 2;
	public static final String HASH = "fc957f1d3d261d065ff5e5415f2d21caa79c310f";
	/** Default implementation for IGnssAntennaInfoCallback. */
	public static class Default implements android.hardware.gnss.IGnssAntennaInfoCallback
	{
	@Override public void gnssAntennaInfoCb(android.hardware.gnss.IGnssAntennaInfoCallback.GnssAntennaInfo[] gnssAntennaInfos) throws android.os.RemoteException
	{
	}
	@Override
	public int getInterfaceVersion() {
	return 0;
	}
	@Override
	public String getInterfaceHash() {
	return "";
	}
	@Override
	public android.os.IBinder asBinder() {
	return null;
	}
	}
	/** Local-side IPC implementation stub class. */
	public static abstract class Stub extends android.os.Binder implements android.hardware.gnss.IGnssAntennaInfoCallback
	{
	/** Construct the stub at attach it to the interface. */
	public Stub()
	{
	this.markVintfStability();
	this.attachInterface(this, DESCRIPTOR);
	}
	/**
	* Cast an IBinder object into an android.hardware.gnss.IGnssAntennaInfoCallback interface,
	* generating a proxy if needed.
	*/
	public static android.hardware.gnss.IGnssAntennaInfoCallback asInterface(android.os.IBinder obj)
	{
	if ((obj==null)) {
	return null;
	}
	android.os.IInterface iin = obj.queryLocalInterface(DESCRIPTOR);
	if (((iin!=null)&&(iin instanceof android.hardware.gnss.IGnssAntennaInfoCallback))) {
	return ((android.hardware.gnss.IGnssAntennaInfoCallback)iin);
	}
	return new android.hardware.gnss.IGnssAntennaInfoCallback.Stub.Proxy(obj);
	}
	@Override public android.os.IBinder asBinder()
	{
	return this;
	}
	/** @hide */
	public static java.lang.String getDefaultTransactionName(int transactionCode)
	{
	switch (transactionCode)
	{
	case TRANSACTION_gnssAntennaInfoCb:
	{
	return "gnssAntennaInfoCb";
	}
	case TRANSACTION_getInterfaceVersion:
	{
	return "getInterfaceVersion";
	}
	case TRANSACTION_getInterfaceHash:
	{
	return "getInterfaceHash";
	}
	default:
	{
	return null;
	}
	}
	}
	/** @hide */
	public java.lang.String getTransactionName(int transactionCode)
	{
	return this.getDefaultTransactionName(transactionCode);
	}
	@Override public boolean onTransact(int code, android.os.Parcel data, android.os.Parcel reply, int flags) throws android.os.RemoteException
	{
	java.lang.String descriptor = DESCRIPTOR;
	if (code >= android.os.IBinder.FIRST_CALL_TRANSACTION && code <= android.os.IBinder.LAST_CALL_TRANSACTION) {
	data.enforceInterface(descriptor);
	}
	switch (code)
	{
	case INTERFACE_TRANSACTION:
	{
	reply.writeString(descriptor);
	return true;
	}
	case TRANSACTION_getInterfaceVersion:
	{
	reply.writeNoException();
	reply.writeInt(getInterfaceVersion());
	return true;
	}
	case TRANSACTION_getInterfaceHash:
	{
	reply.writeNoException();
	reply.writeString(getInterfaceHash());
	return true;
	}
	}
	switch (code)
	{
	case TRANSACTION_gnssAntennaInfoCb:
	{
	android.hardware.gnss.IGnssAntennaInfoCallback.GnssAntennaInfo[] _arg0;
	_arg0 = data.createTypedArray(android.hardware.gnss.IGnssAntennaInfoCallback.GnssAntennaInfo.CREATOR);
	data.enforceNoDataAvail();
	this.gnssAntennaInfoCb(_arg0);
	reply.writeNoException();
	break;
	}
	default:
	{
	return super.onTransact(code, data, reply, flags);
	}
	}
	return true;
	}
	private static class Proxy implements android.hardware.gnss.IGnssAntennaInfoCallback
	{
	private android.os.IBinder mRemote;
	Proxy(android.os.IBinder remote)
	{
	mRemote = remote;
	}
	private int mCachedVersion = -1;
	private String mCachedHash = "-1";
	@Override public android.os.IBinder asBinder()
	{
	return mRemote;
	}
	public java.lang.String getInterfaceDescriptor()
	{
	return DESCRIPTOR;
	}
	@Override public void gnssAntennaInfoCb(android.hardware.gnss.IGnssAntennaInfoCallback.GnssAntennaInfo[] gnssAntennaInfos) throws android.os.RemoteException
	{
	android.os.Parcel _data = android.os.Parcel.obtain(asBinder());
	android.os.Parcel _reply = android.os.Parcel.obtain();
	try {
	_data.writeInterfaceToken(DESCRIPTOR);
	_data.writeTypedArray(gnssAntennaInfos, 0);
	boolean _status = mRemote.transact(Stub.TRANSACTION_gnssAntennaInfoCb, _data, _reply, 0);
	if (!_status) {
	throw new android.os.RemoteException("Method gnssAntennaInfoCb is unimplemented.");
	}
	_reply.readException();
	}
	finally {
	_reply.recycle();
	_data.recycle();
	}
	}
	@Override
	public int getInterfaceVersion() throws android.os.RemoteException {
	if (mCachedVersion == -1) {
	android.os.Parcel data = android.os.Parcel.obtain(asBinder());
	android.os.Parcel reply = android.os.Parcel.obtain();
	try {
	data.writeInterfaceToken(DESCRIPTOR);
	boolean _status = mRemote.transact(Stub.TRANSACTION_getInterfaceVersion, data, reply, 0);
	reply.readException();
	mCachedVersion = reply.readInt();
	} finally {
	reply.recycle();
	data.recycle();
	}
	}
	return mCachedVersion;
	}
	@Override
	public synchronized String getInterfaceHash() throws android.os.RemoteException {
	if ("-1".equals(mCachedHash)) {
	android.os.Parcel data = android.os.Parcel.obtain(asBinder());
	android.os.Parcel reply = android.os.Parcel.obtain();
	try {
	data.writeInterfaceToken(DESCRIPTOR);
	boolean _status = mRemote.transact(Stub.TRANSACTION_getInterfaceHash, data, reply, 0);
	reply.readException();
	mCachedHash = reply.readString();
	} finally {
	reply.recycle();
	data.recycle();
	}
	}
	return mCachedHash;
	}
	}
	static final int TRANSACTION_gnssAntennaInfoCb = (android.os.IBinder.FIRST_CALL_TRANSACTION + 0);
	static final int TRANSACTION_getInterfaceVersion = (android.os.IBinder.FIRST_CALL_TRANSACTION + 16777214);
	static final int TRANSACTION_getInterfaceHash = (android.os.IBinder.FIRST_CALL_TRANSACTION + 16777213);
	/** @hide */
	public int getMaxTransactionId()
	{
	return 16777214;
	}
	}
	public static final java.lang.String DESCRIPTOR = "android$hardware$gnss$IGnssAntennaInfoCallback".replace('$', '.');
	public void gnssAntennaInfoCb(android.hardware.gnss.IGnssAntennaInfoCallback.GnssAntennaInfo[] gnssAntennaInfos) throws android.os.RemoteException;
	public int getInterfaceVersion() throws android.os.RemoteException;
	public String getInterfaceHash() throws android.os.RemoteException;
	public static class Row implements android.os.Parcelable
	{
	public double[] row;
	@Override
	public final int getStability() { return android.os.Parcelable.PARCELABLE_STABILITY_VINTF; }
	public static final android.os.Parcelable.Creator<Row> CREATOR = new android.os.Parcelable.Creator<Row>() {
	@Override
	public Row createFromParcel(android.os.Parcel _aidl_source) {
	Row _aidl_out = new Row();
	_aidl_out.readFromParcel(_aidl_source);
	return _aidl_out;
	}
	@Override
	public Row[] newArray(int _aidl_size) {
	return new Row[_aidl_size];
	}
	};
	@Override public final void writeToParcel(android.os.Parcel _aidl_parcel, int _aidl_flag)
	{
	int _aidl_start_pos = _aidl_parcel.dataPosition();
	_aidl_parcel.writeInt(0);
	_aidl_parcel.writeDoubleArray(row);
	int _aidl_end_pos = _aidl_parcel.dataPosition();
	_aidl_parcel.setDataPosition(_aidl_start_pos);
	_aidl_parcel.writeInt(_aidl_end_pos - _aidl_start_pos);
	_aidl_parcel.setDataPosition(_aidl_end_pos);
	}
	public final void readFromParcel(android.os.Parcel _aidl_parcel)
	{
	int _aidl_start_pos = _aidl_parcel.dataPosition();
	int _aidl_parcelable_size = _aidl_parcel.readInt();
	try {
	if (_aidl_parcelable_size < 4) throw new android.os.BadParcelableException("Parcelable too small");;
	if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
	row = _aidl_parcel.createDoubleArray();
	} finally {
	if (_aidl_start_pos > (Integer.MAX_VALUE - _aidl_parcelable_size)) {
	throw new android.os.BadParcelableException("Overflow in the size of parcelable");
	}
	_aidl_parcel.setDataPosition(_aidl_start_pos + _aidl_parcelable_size);
	}
	}
	@Override
	public int describeContents() {
	int _mask = 0;
	return _mask;
	}
	}
	public static class Coord implements android.os.Parcelable
	{
	public double x = 0.000000;
	public double xUncertainty = 0.000000;
	public double y = 0.000000;
	public double yUncertainty = 0.000000;
	public double z = 0.000000;
	public double zUncertainty = 0.000000;
	@Override
	public final int getStability() { return android.os.Parcelable.PARCELABLE_STABILITY_VINTF; }
	public static final android.os.Parcelable.Creator<Coord> CREATOR = new android.os.Parcelable.Creator<Coord>() {
	@Override
	public Coord createFromParcel(android.os.Parcel _aidl_source) {
	Coord _aidl_out = new Coord();
	_aidl_out.readFromParcel(_aidl_source);
	return _aidl_out;
	}
	@Override
	public Coord[] newArray(int _aidl_size) {
	return new Coord[_aidl_size];
	}
	};
	@Override public final void writeToParcel(android.os.Parcel _aidl_parcel, int _aidl_flag)
	{
	int _aidl_start_pos = _aidl_parcel.dataPosition();
	_aidl_parcel.writeInt(0);
	_aidl_parcel.writeDouble(x);
	_aidl_parcel.writeDouble(xUncertainty);
	_aidl_parcel.writeDouble(y);
	_aidl_parcel.writeDouble(yUncertainty);
	_aidl_parcel.writeDouble(z);
	_aidl_parcel.writeDouble(zUncertainty);
	int _aidl_end_pos = _aidl_parcel.dataPosition();
	_aidl_parcel.setDataPosition(_aidl_start_pos);
	_aidl_parcel.writeInt(_aidl_end_pos - _aidl_start_pos);
	_aidl_parcel.setDataPosition(_aidl_end_pos);
	}
	public final void readFromParcel(android.os.Parcel _aidl_parcel)
	{
	int _aidl_start_pos = _aidl_parcel.dataPosition();
	int _aidl_parcelable_size = _aidl_parcel.readInt();
	try {
	if (_aidl_parcelable_size < 4) throw new android.os.BadParcelableException("Parcelable too small");;
	if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
	x = _aidl_parcel.readDouble();
	if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
	xUncertainty = _aidl_parcel.readDouble();
	if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
	y = _aidl_parcel.readDouble();
	if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
	yUncertainty = _aidl_parcel.readDouble();
	if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
	z = _aidl_parcel.readDouble();
	if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
	zUncertainty = _aidl_parcel.readDouble();
	} finally {
	if (_aidl_start_pos > (Integer.MAX_VALUE - _aidl_parcelable_size)) {
	throw new android.os.BadParcelableException("Overflow in the size of parcelable");
	}
	_aidl_parcel.setDataPosition(_aidl_start_pos + _aidl_parcelable_size);
	}
	}
	@Override
	public int describeContents() {
	int _mask = 0;
	return _mask;
	}
	}
	public static class GnssAntennaInfo implements android.os.Parcelable
	{
	public long carrierFrequencyHz = 0L;
	public android.hardware.gnss.IGnssAntennaInfoCallback.Coord phaseCenterOffsetCoordinateMillimeters;
	public android.hardware.gnss.IGnssAntennaInfoCallback.Row[] phaseCenterVariationCorrectionMillimeters;
	public android.hardware.gnss.IGnssAntennaInfoCallback.Row[] phaseCenterVariationCorrectionUncertaintyMillimeters;
	public android.hardware.gnss.IGnssAntennaInfoCallback.Row[] signalGainCorrectionDbi;
	public android.hardware.gnss.IGnssAntennaInfoCallback.Row[] signalGainCorrectionUncertaintyDbi;
	@Override
	public final int getStability() { return android.os.Parcelable.PARCELABLE_STABILITY_VINTF; }
	public static final android.os.Parcelable.Creator<GnssAntennaInfo> CREATOR = new android.os.Parcelable.Creator<GnssAntennaInfo>() {
	@Override
	public GnssAntennaInfo createFromParcel(android.os.Parcel _aidl_source) {
	GnssAntennaInfo _aidl_out = new GnssAntennaInfo();
	_aidl_out.readFromParcel(_aidl_source);
	return _aidl_out;
	}
	@Override
	public GnssAntennaInfo[] newArray(int _aidl_size) {
	return new GnssAntennaInfo[_aidl_size];
	}
	};
	@Override public final void writeToParcel(android.os.Parcel _aidl_parcel, int _aidl_flag)
	{
	int _aidl_start_pos = _aidl_parcel.dataPosition();
	_aidl_parcel.writeInt(0);
	_aidl_parcel.writeLong(carrierFrequencyHz);
	_aidl_parcel.writeTypedObject(phaseCenterOffsetCoordinateMillimeters, _aidl_flag);
	_aidl_parcel.writeTypedArray(phaseCenterVariationCorrectionMillimeters, _aidl_flag);
	_aidl_parcel.writeTypedArray(phaseCenterVariationCorrectionUncertaintyMillimeters, _aidl_flag);
	_aidl_parcel.writeTypedArray(signalGainCorrectionDbi, _aidl_flag);
	_aidl_parcel.writeTypedArray(signalGainCorrectionUncertaintyDbi, _aidl_flag);
	int _aidl_end_pos = _aidl_parcel.dataPosition();
	_aidl_parcel.setDataPosition(_aidl_start_pos);
	_aidl_parcel.writeInt(_aidl_end_pos - _aidl_start_pos);
	_aidl_parcel.setDataPosition(_aidl_end_pos);
	}
	public final void readFromParcel(android.os.Parcel _aidl_parcel)
	{
	int _aidl_start_pos = _aidl_parcel.dataPosition();
	int _aidl_parcelable_size = _aidl_parcel.readInt();
	try {
	if (_aidl_parcelable_size < 4) throw new android.os.BadParcelableException("Parcelable too small");;
	if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
	carrierFrequencyHz = _aidl_parcel.readLong();
	if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
	phaseCenterOffsetCoordinateMillimeters = _aidl_parcel.readTypedObject(android.hardware.gnss.IGnssAntennaInfoCallback.Coord.CREATOR);
	if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
	phaseCenterVariationCorrectionMillimeters = _aidl_parcel.createTypedArray(android.hardware.gnss.IGnssAntennaInfoCallback.Row.CREATOR);
	if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
	phaseCenterVariationCorrectionUncertaintyMillimeters = _aidl_parcel.createTypedArray(android.hardware.gnss.IGnssAntennaInfoCallback.Row.CREATOR);
	if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
	signalGainCorrectionDbi = _aidl_parcel.createTypedArray(android.hardware.gnss.IGnssAntennaInfoCallback.Row.CREATOR);
	if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
	signalGainCorrectionUncertaintyDbi = _aidl_parcel.createTypedArray(android.hardware.gnss.IGnssAntennaInfoCallback.Row.CREATOR);
	} finally {
	if (_aidl_start_pos > (Integer.MAX_VALUE - _aidl_parcelable_size)) {
	throw new android.os.BadParcelableException("Overflow in the size of parcelable");
	}
	_aidl_parcel.setDataPosition(_aidl_start_pos + _aidl_parcelable_size);
	}
	}
	@Override
	public int describeContents() {
	int _mask = 0;
	_mask \|= describeContents(phaseCenterOffsetCoordinateMillimeters);
	_mask \|= describeContents(phaseCenterVariationCorrectionMillimeters);
	_mask \|= describeContents(phaseCenterVariationCorrectionUncertaintyMillimeters);
	_mask \|= describeContents(signalGainCorrectionDbi);
	_mask \|= describeContents(signalGainCorrectionUncertaintyDbi);
	return _mask;
	}
	private int describeContents(Object _v) {
	if (_v == null) return 0;
	if (_v instanceof Object[]) {
	int _mask = 0;
	for (Object o : (Object[]) _v) {
	_mask \|= describeContents(o);
	}
	return _mask;
	}
	if (_v instanceof android.os.Parcelable) {
	return ((android.os.Parcelable) _v).describeContents();
	}
	return 0;
	}
	}
	}