android-34/android/hardware/gnss/GnssData.java - platform/prebuilts/fullsdk/sources - Git at Google

 /*
  * This file is auto-generated.  DO NOT MODIFY.
  */
 package android.hardware.gnss;
 /** @hide */
 public class GnssData implements android.os.Parcelable
 {
   public android.hardware.gnss.GnssMeasurement[] measurements;
   public android.hardware.gnss.GnssClock clock;
   public android.hardware.gnss.ElapsedRealtime elapsedRealtime;
   public android.hardware.gnss.GnssData.GnssAgc[] gnssAgcs = {};
   @Override
    public final int getStability() { return android.os.Parcelable.PARCELABLE_STABILITY_VINTF; }
   public static final android.os.Parcelable.Creator<GnssData> CREATOR = new android.os.Parcelable.Creator<GnssData>() {
     @Override
     public GnssData createFromParcel(android.os.Parcel _aidl_source) {
       GnssData _aidl_out = new GnssData();
       _aidl_out.readFromParcel(_aidl_source);
       return _aidl_out;
     }
     @Override
     public GnssData[] newArray(int _aidl_size) {
       return new GnssData[_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.writeTypedArray(measurements, _aidl_flag);
     _aidl_parcel.writeTypedObject(clock, _aidl_flag);
     _aidl_parcel.writeTypedObject(elapsedRealtime, _aidl_flag);
     _aidl_parcel.writeTypedArray(gnssAgcs, _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;
       measurements = _aidl_parcel.createTypedArray(android.hardware.gnss.GnssMeasurement.CREATOR);
       if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
       clock = _aidl_parcel.readTypedObject(android.hardware.gnss.GnssClock.CREATOR);
       if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
       elapsedRealtime = _aidl_parcel.readTypedObject(android.hardware.gnss.ElapsedRealtime.CREATOR);
       if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
       gnssAgcs = _aidl_parcel.createTypedArray(android.hardware.gnss.GnssData.GnssAgc.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(measurements);
     _mask |= describeContents(clock);
     _mask |= describeContents(elapsedRealtime);
     _mask |= describeContents(gnssAgcs);
     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;
   }
   public static class GnssAgc implements android.os.Parcelable
   {
     public double agcLevelDb = 0.000000;
     public int constellation = android.hardware.gnss.GnssConstellationType.UNKNOWN;
     public long carrierFrequencyHz = 0L;
     @Override
      public final int getStability() { return android.os.Parcelable.PARCELABLE_STABILITY_VINTF; }
     public static final android.os.Parcelable.Creator<GnssAgc> CREATOR = new android.os.Parcelable.Creator<GnssAgc>() {
       @Override
       public GnssAgc createFromParcel(android.os.Parcel _aidl_source) {
         GnssAgc _aidl_out = new GnssAgc();
         _aidl_out.readFromParcel(_aidl_source);
         return _aidl_out;
       }
       @Override
       public GnssAgc[] newArray(int _aidl_size) {
         return new GnssAgc[_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(agcLevelDb);
       _aidl_parcel.writeInt(constellation);
       _aidl_parcel.writeLong(carrierFrequencyHz);
       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;
         agcLevelDb = _aidl_parcel.readDouble();
         if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
         constellation = _aidl_parcel.readInt();
         if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
         carrierFrequencyHz = _aidl_parcel.readLong();
       } 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;
     }
   }
 }
	/*
	* This file is auto-generated. DO NOT MODIFY.
	*/
	package android.hardware.gnss;
	/** @hide */
	public class GnssData implements android.os.Parcelable
	{
	public android.hardware.gnss.GnssMeasurement[] measurements;
	public android.hardware.gnss.GnssClock clock;
	public android.hardware.gnss.ElapsedRealtime elapsedRealtime;
	public android.hardware.gnss.GnssData.GnssAgc[] gnssAgcs = {};
	@Override
	public final int getStability() { return android.os.Parcelable.PARCELABLE_STABILITY_VINTF; }
	public static final android.os.Parcelable.Creator<GnssData> CREATOR = new android.os.Parcelable.Creator<GnssData>() {
	@Override
	public GnssData createFromParcel(android.os.Parcel _aidl_source) {
	GnssData _aidl_out = new GnssData();
	_aidl_out.readFromParcel(_aidl_source);
	return _aidl_out;
	}
	@Override
	public GnssData[] newArray(int _aidl_size) {
	return new GnssData[_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.writeTypedArray(measurements, _aidl_flag);
	_aidl_parcel.writeTypedObject(clock, _aidl_flag);
	_aidl_parcel.writeTypedObject(elapsedRealtime, _aidl_flag);
	_aidl_parcel.writeTypedArray(gnssAgcs, _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;
	measurements = _aidl_parcel.createTypedArray(android.hardware.gnss.GnssMeasurement.CREATOR);
	if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
	clock = _aidl_parcel.readTypedObject(android.hardware.gnss.GnssClock.CREATOR);
	if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
	elapsedRealtime = _aidl_parcel.readTypedObject(android.hardware.gnss.ElapsedRealtime.CREATOR);
	if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
	gnssAgcs = _aidl_parcel.createTypedArray(android.hardware.gnss.GnssData.GnssAgc.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(measurements);
	_mask \|= describeContents(clock);
	_mask \|= describeContents(elapsedRealtime);
	_mask \|= describeContents(gnssAgcs);
	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;
	}
	public static class GnssAgc implements android.os.Parcelable
	{
	public double agcLevelDb = 0.000000;
	public int constellation = android.hardware.gnss.GnssConstellationType.UNKNOWN;
	public long carrierFrequencyHz = 0L;
	@Override
	public final int getStability() { return android.os.Parcelable.PARCELABLE_STABILITY_VINTF; }
	public static final android.os.Parcelable.Creator<GnssAgc> CREATOR = new android.os.Parcelable.Creator<GnssAgc>() {
	@Override
	public GnssAgc createFromParcel(android.os.Parcel _aidl_source) {
	GnssAgc _aidl_out = new GnssAgc();
	_aidl_out.readFromParcel(_aidl_source);
	return _aidl_out;
	}
	@Override
	public GnssAgc[] newArray(int _aidl_size) {
	return new GnssAgc[_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(agcLevelDb);
	_aidl_parcel.writeInt(constellation);
	_aidl_parcel.writeLong(carrierFrequencyHz);
	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;
	agcLevelDb = _aidl_parcel.readDouble();
	if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
	constellation = _aidl_parcel.readInt();
	if (_aidl_parcel.dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) return;
	carrierFrequencyHz = _aidl_parcel.readLong();
	} 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;
	}
	}
	}