/* * Copyright (C) 2008 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package android.location; import android.util.SparseArray; import java.util.Iterator; import java.util.NoSuchElementException; /** * This class represents the current state of the GPS engine. * This class is used in conjunction with the {@link Listener} interface. */ public final class GpsStatus { private static final int NUM_SATELLITES = 255; /* These package private values are modified by the LocationManager class */ private int mTimeToFirstFix; private final SparseArray mSatellites = new SparseArray<>(); private final class SatelliteIterator implements Iterator { private final SparseArray mSatellites; private final int mSatellitesCount; private int mIndex = 0; SatelliteIterator(SparseArray satellites) { mSatellites = satellites; mSatellitesCount = satellites.size(); } public boolean hasNext() { for (; mIndex < mSatellitesCount; ++mIndex) { GpsSatellite satellite = mSatellites.valueAt(mIndex); if (satellite.mValid) { return true; } } return false; } public GpsSatellite next() { while (mIndex < mSatellitesCount) { GpsSatellite satellite = mSatellites.valueAt(mIndex); ++mIndex; if (satellite.mValid) { return satellite; } } throw new NoSuchElementException(); } public void remove() { throw new UnsupportedOperationException(); } } private Iterable mSatelliteList = new Iterable() { public Iterator iterator() { return new SatelliteIterator(mSatellites); } }; /** * Event sent when the GPS system has started. */ public static final int GPS_EVENT_STARTED = 1; /** * Event sent when the GPS system has stopped. */ public static final int GPS_EVENT_STOPPED = 2; /** * Event sent when the GPS system has received its first fix since starting. * Call {@link #getTimeToFirstFix()} to find the time from start to first fix. */ public static final int GPS_EVENT_FIRST_FIX = 3; /** * Event sent periodically to report GPS satellite status. * Call {@link #getSatellites()} to retrieve the status for each satellite. */ public static final int GPS_EVENT_SATELLITE_STATUS = 4; /** * Used for receiving notifications when GPS status has changed. */ public interface Listener { /** * Called to report changes in the GPS status. * The event number is one of: *
    *
  • {@link GpsStatus#GPS_EVENT_STARTED} *
  • {@link GpsStatus#GPS_EVENT_STOPPED} *
  • {@link GpsStatus#GPS_EVENT_FIRST_FIX} *
  • {@link GpsStatus#GPS_EVENT_SATELLITE_STATUS} *
* * When this method is called, the client should call * {@link LocationManager#getGpsStatus} to get additional * status information. * * @param event event number for this notification */ void onGpsStatusChanged(int event); } /** * Used for receiving NMEA sentences from the GPS. * NMEA 0183 is a standard for communicating with marine electronic devices * and is a common method for receiving data from a GPS, typically over a serial port. * See NMEA 0183 for more details. * You can implement this interface and call {@link LocationManager#addNmeaListener} * to receive NMEA data from the GPS engine. */ public interface NmeaListener { void onNmeaReceived(long timestamp, String nmea); } // For API-compat a public ctor() is not available GpsStatus() {} /** * Used internally within {@link LocationManager} to copy GPS status * data from the Location Manager Service to its cached GpsStatus instance. * Is synchronized to ensure that GPS status updates are atomic. */ synchronized void setStatus(int svCount, int[] prns, float[] snrs, float[] elevations, float[] azimuths, int ephemerisMask, int almanacMask, int usedInFixMask) { clearSatellites(); for (int i = 0; i < svCount; i++) { int prn = prns[i]; int prnShift = (1 << (prn - 1)); if (prn > 0 && prn <= NUM_SATELLITES) { GpsSatellite satellite = mSatellites.get(prn); if (satellite == null) { satellite = new GpsSatellite(prn); mSatellites.put(prn, satellite); } satellite.mValid = true; satellite.mSnr = snrs[i]; satellite.mElevation = elevations[i]; satellite.mAzimuth = azimuths[i]; satellite.mHasEphemeris = ((ephemerisMask & prnShift) != 0); satellite.mHasAlmanac = ((almanacMask & prnShift) != 0); satellite.mUsedInFix = ((usedInFixMask & prnShift) != 0); } } } /** * Used by {@link LocationManager#getGpsStatus} to copy LocationManager's * cached GpsStatus instance to the client's copy. * Since this method is only used within {@link LocationManager#getGpsStatus}, * it does not need to be synchronized. */ void setStatus(GpsStatus status) { mTimeToFirstFix = status.getTimeToFirstFix(); clearSatellites(); SparseArray otherSatellites = status.mSatellites; int otherSatellitesCount = otherSatellites.size(); int satelliteIndex = 0; // merge both sparse arrays, note that we have already invalidated the elements in the // receiver array for (int i = 0; i < otherSatellitesCount; ++i) { GpsSatellite otherSatellite = otherSatellites.valueAt(i); int otherSatellitePrn = otherSatellite.getPrn(); int satellitesCount = mSatellites.size(); while (satelliteIndex < satellitesCount && mSatellites.valueAt(satelliteIndex).getPrn() < otherSatellitePrn) { ++satelliteIndex; } if (satelliteIndex < mSatellites.size()) { GpsSatellite satellite = mSatellites.valueAt(satelliteIndex); if (satellite.getPrn() == otherSatellitePrn) { satellite.setStatus(otherSatellite); } else { satellite = new GpsSatellite(otherSatellitePrn); satellite.setStatus(otherSatellite); mSatellites.put(otherSatellitePrn, satellite); } } else { GpsSatellite satellite = new GpsSatellite(otherSatellitePrn); satellite.setStatus(otherSatellite); mSatellites.append(otherSatellitePrn, satellite); } } } void setTimeToFirstFix(int ttff) { mTimeToFirstFix = ttff; } /** * Returns the time required to receive the first fix since the most recent * restart of the GPS engine. * * @return time to first fix in milliseconds */ public int getTimeToFirstFix() { return mTimeToFirstFix; } /** * Returns an array of {@link GpsSatellite} objects, which represent the * current state of the GPS engine. * * @return the list of satellites */ public Iterable getSatellites() { return mSatelliteList; } /** * Returns the maximum number of satellites that can be in the satellite * list that can be returned by {@link #getSatellites()}. * * @return the maximum number of satellites */ public int getMaxSatellites() { return NUM_SATELLITES; } private void clearSatellites() { int satellitesCount = mSatellites.size(); for (int i = 0; i < satellitesCount; i++) { GpsSatellite satellite = mSatellites.valueAt(i); satellite.mValid = false; } } }