package android.location;
public class GpsMeasurement
implements android.os.Parcelable
{
GpsMeasurement() { throw new RuntimeException("Stub!"); }
public void set(android.location.GpsMeasurement measurement) { throw new RuntimeException("Stub!"); }
public void reset() { throw new RuntimeException("Stub!"); }
public byte getPrn() { throw new RuntimeException("Stub!"); }
public void setPrn(byte value) { throw new RuntimeException("Stub!"); }
public double getTimeOffsetInNs() { throw new RuntimeException("Stub!"); }
public void setTimeOffsetInNs(double value) { throw new RuntimeException("Stub!"); }
public short getState() { throw new RuntimeException("Stub!"); }
public void setState(short value) { throw new RuntimeException("Stub!"); }
public long getReceivedGpsTowInNs() { throw new RuntimeException("Stub!"); }
public void setReceivedGpsTowInNs(long value) { throw new RuntimeException("Stub!"); }
public long getReceivedGpsTowUncertaintyInNs() { throw new RuntimeException("Stub!"); }
public void setReceivedGpsTowUncertaintyInNs(long value) { throw new RuntimeException("Stub!"); }
public double getCn0InDbHz() { throw new RuntimeException("Stub!"); }
public void setCn0InDbHz(double value) { throw new RuntimeException("Stub!"); }
public double getPseudorangeRateInMetersPerSec() { throw new RuntimeException("Stub!"); }
public void setPseudorangeRateInMetersPerSec(double value) { throw new RuntimeException("Stub!"); }
public double getPseudorangeRateUncertaintyInMetersPerSec() { throw new RuntimeException("Stub!"); }
public void setPseudorangeRateUncertaintyInMetersPerSec(double value) { throw new RuntimeException("Stub!"); }
public short getAccumulatedDeltaRangeState() { throw new RuntimeException("Stub!"); }
public void setAccumulatedDeltaRangeState(short value) { throw new RuntimeException("Stub!"); }
public double getAccumulatedDeltaRangeInMeters() { throw new RuntimeException("Stub!"); }
public void setAccumulatedDeltaRangeInMeters(double value) { throw new RuntimeException("Stub!"); }
public double getAccumulatedDeltaRangeUncertaintyInMeters() { throw new RuntimeException("Stub!"); }
public void setAccumulatedDeltaRangeUncertaintyInMeters(double value) { throw new RuntimeException("Stub!"); }
public boolean hasPseudorangeInMeters() { throw new RuntimeException("Stub!"); }
public double getPseudorangeInMeters() { throw new RuntimeException("Stub!"); }
public void setPseudorangeInMeters(double value) { throw new RuntimeException("Stub!"); }
public void resetPseudorangeInMeters() { throw new RuntimeException("Stub!"); }
public boolean hasPseudorangeUncertaintyInMeters() { throw new RuntimeException("Stub!"); }
public double getPseudorangeUncertaintyInMeters() { throw new RuntimeException("Stub!"); }
public void setPseudorangeUncertaintyInMeters(double value) { throw new RuntimeException("Stub!"); }
public void resetPseudorangeUncertaintyInMeters() { throw new RuntimeException("Stub!"); }
public boolean hasCodePhaseInChips() { throw new RuntimeException("Stub!"); }
public double getCodePhaseInChips() { throw new RuntimeException("Stub!"); }
public void setCodePhaseInChips(double value) { throw new RuntimeException("Stub!"); }
public void resetCodePhaseInChips() { throw new RuntimeException("Stub!"); }
public boolean hasCodePhaseUncertaintyInChips() { throw new RuntimeException("Stub!"); }
public double getCodePhaseUncertaintyInChips() { throw new RuntimeException("Stub!"); }
public void setCodePhaseUncertaintyInChips(double value) { throw new RuntimeException("Stub!"); }
public void resetCodePhaseUncertaintyInChips() { throw new RuntimeException("Stub!"); }
public boolean hasCarrierFrequencyInHz() { throw new RuntimeException("Stub!"); }
public float getCarrierFrequencyInHz() { throw new RuntimeException("Stub!"); }
public void setCarrierFrequencyInHz(float carrierFrequencyInHz) { throw new RuntimeException("Stub!"); }
public void resetCarrierFrequencyInHz() { throw new RuntimeException("Stub!"); }
public boolean hasCarrierCycles() { throw new RuntimeException("Stub!"); }
public long getCarrierCycles() { throw new RuntimeException("Stub!"); }
public void setCarrierCycles(long value) { throw new RuntimeException("Stub!"); }
public void resetCarrierCycles() { throw new RuntimeException("Stub!"); }
public boolean hasCarrierPhase() { throw new RuntimeException("Stub!"); }
public double getCarrierPhase() { throw new RuntimeException("Stub!"); }
public void setCarrierPhase(double value) { throw new RuntimeException("Stub!"); }
public void resetCarrierPhase() { throw new RuntimeException("Stub!"); }
public boolean hasCarrierPhaseUncertainty() { throw new RuntimeException("Stub!"); }
public double getCarrierPhaseUncertainty() { throw new RuntimeException("Stub!"); }
public void setCarrierPhaseUncertainty(double value) { throw new RuntimeException("Stub!"); }
public void resetCarrierPhaseUncertainty() { throw new RuntimeException("Stub!"); }
public byte getLossOfLock() { throw new RuntimeException("Stub!"); }
public void setLossOfLock(byte value) { throw new RuntimeException("Stub!"); }
public boolean hasBitNumber() { throw new RuntimeException("Stub!"); }
public int getBitNumber() { throw new RuntimeException("Stub!"); }
public void setBitNumber(int bitNumber) { throw new RuntimeException("Stub!"); }
public void resetBitNumber() { throw new RuntimeException("Stub!"); }
public boolean hasTimeFromLastBitInMs() { throw new RuntimeException("Stub!"); }
public short getTimeFromLastBitInMs() { throw new RuntimeException("Stub!"); }
public void setTimeFromLastBitInMs(short value) { throw new RuntimeException("Stub!"); }
public void resetTimeFromLastBitInMs() { throw new RuntimeException("Stub!"); }
public boolean hasDopplerShiftInHz() { throw new RuntimeException("Stub!"); }
public double getDopplerShiftInHz() { throw new RuntimeException("Stub!"); }
public void setDopplerShiftInHz(double value) { throw new RuntimeException("Stub!"); }
public void resetDopplerShiftInHz() { throw new RuntimeException("Stub!"); }
public boolean hasDopplerShiftUncertaintyInHz() { throw new RuntimeException("Stub!"); }
public double getDopplerShiftUncertaintyInHz() { throw new RuntimeException("Stub!"); }
public void setDopplerShiftUncertaintyInHz(double value) { throw new RuntimeException("Stub!"); }
public void resetDopplerShiftUncertaintyInHz() { throw new RuntimeException("Stub!"); }
public byte getMultipathIndicator() { throw new RuntimeException("Stub!"); }
public void setMultipathIndicator(byte value) { throw new RuntimeException("Stub!"); }
public boolean hasSnrInDb() { throw new RuntimeException("Stub!"); }
public double getSnrInDb() { throw new RuntimeException("Stub!"); }
public void setSnrInDb(double snrInDb) { throw new RuntimeException("Stub!"); }
public void resetSnrInDb() { throw new RuntimeException("Stub!"); }
public boolean hasElevationInDeg() { throw new RuntimeException("Stub!"); }
public double getElevationInDeg() { throw new RuntimeException("Stub!"); }
public void setElevationInDeg(double elevationInDeg) { throw new RuntimeException("Stub!"); }
public void resetElevationInDeg() { throw new RuntimeException("Stub!"); }
public boolean hasElevationUncertaintyInDeg() { throw new RuntimeException("Stub!"); }
public double getElevationUncertaintyInDeg() { throw new RuntimeException("Stub!"); }
public void setElevationUncertaintyInDeg(double value) { throw new RuntimeException("Stub!"); }
public void resetElevationUncertaintyInDeg() { throw new RuntimeException("Stub!"); }
public boolean hasAzimuthInDeg() { throw new RuntimeException("Stub!"); }
public double getAzimuthInDeg() { throw new RuntimeException("Stub!"); }
public void setAzimuthInDeg(double value) { throw new RuntimeException("Stub!"); }
public void resetAzimuthInDeg() { throw new RuntimeException("Stub!"); }
public boolean hasAzimuthUncertaintyInDeg() { throw new RuntimeException("Stub!"); }
public double getAzimuthUncertaintyInDeg() { throw new RuntimeException("Stub!"); }
public void setAzimuthUncertaintyInDeg(double value) { throw new RuntimeException("Stub!"); }
public void resetAzimuthUncertaintyInDeg() { throw new RuntimeException("Stub!"); }
public boolean isUsedInFix() { throw new RuntimeException("Stub!"); }
public void setUsedInFix(boolean value) { throw new RuntimeException("Stub!"); }
public void writeToParcel(android.os.Parcel parcel, int flags) { throw new RuntimeException("Stub!"); }
public int describeContents() { throw new RuntimeException("Stub!"); }
public java.lang.String toString() { throw new RuntimeException("Stub!"); }
public static final short ADR_STATE_CYCLE_SLIP = 4;
public static final short ADR_STATE_RESET = 2;
public static final short ADR_STATE_UNKNOWN = 0;
public static final short ADR_STATE_VALID = 1;
public static final android.os.Parcelable.Creator<android.location.GpsMeasurement> CREATOR;
public static final byte LOSS_OF_LOCK_CYCLE_SLIP = 2;
public static final byte LOSS_OF_LOCK_OK = 1;
public static final byte LOSS_OF_LOCK_UNKNOWN = 0;
public static final byte MULTIPATH_INDICATOR_DETECTED = 1;
public static final byte MULTIPATH_INDICATOR_NOT_USED = 2;
public static final byte MULTIPATH_INDICATOR_UNKNOWN = 0;
public static final short STATE_BIT_SYNC = 2;
public static final short STATE_CODE_LOCK = 1;
public static final short STATE_SUBFRAME_SYNC = 4;
public static final short STATE_TOW_DECODED = 8;
public static final short STATE_UNKNOWN = 0;
static { CREATOR = null; }
}
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