Beispiel #1
0
  public static String getTip(Context ctx, Preferences pref) {

    // generate tips sequentially
    String tips[] = ctx.getResources().getStringArray(R.array.Tips);
    int index = pref.getTipIndex();
    if (index >= tips.length) {
      index = 0;
    }
    String ret = tips[index];
    ret += ".\n" + ctx.getString(R.string.DisableTip);
    index++;
    pref.setTipIndex(index);
    return ret;
  }
Beispiel #2
0
  private void startClosestAirportTask(double x, double y) {
    // We won't be doing the airport long press under certain circumstances
    if (mDraw) {

      return;
    }

    if (null != mClosestTask) {
      mClosestTask.cancel(true);
    }
    mLongTouchDestination = null;
    mClosestTask = new ClosestAirportTask();

    double lon2, lat2;
    if (mPref.isTrackUp()) {
      double c_x = mOrigin.getOffsetX(mGpsParams.getLongitude());
      double c_y = mOrigin.getOffsetY(mGpsParams.getLatitude());
      double thetab = mGpsParams.getBearing();

      double p[];
      p = Helper.rotateCoord(c_x, c_y, thetab, x, y);
      lon2 = mOrigin.getLongitudeOf(p[0]);
      lat2 = mOrigin.getLatitudeOf(p[1]);
    } else {
      lon2 = mOrigin.getLongitudeOf(x);
      lat2 = mOrigin.getLatitudeOf(y);
    }
    mClosestTask.execute(lon2, lat2);
  }
Beispiel #3
0
  /**
   * @param time
   * @param location
   * @param data
   */
  public void putAirep(long time, String location, String data, DataSource db) {
    if (!mPref.useAdsbWeather()) {
      return;
    }
    String lonlat = db.findLonLat(location, Destination.BASE);
    if (null == lonlat) {
      return;
    }
    String tokens[] = lonlat.split(",");
    if (tokens.length != 2) {
      return;
    }

    Airep a = new Airep();
    a.lon = Float.parseFloat(tokens[0]);
    a.lat = Float.parseFloat(tokens[1]);
    a.rawText = data;
    a.reportType = "PIREP";
    Date dt = new Date(time);
    SimpleDateFormat sdf = new SimpleDateFormat("ddHHmm", Locale.getDefault());
    sdf.setTimeZone(TimeZone.getTimeZone("gmt"));
    a.time = sdf.format(dt) + "Z";
    a.timestamp = System.currentTimeMillis();

    mAirep.put(location, a);
  }
Beispiel #4
0
 /**
  * @param canvas
  * @param ctx
  */
 private void drawTraffic(Canvas canvas, DrawingContext ctx) {
   Traffic.draw(
       ctx,
       mService.getTrafficCache().getTraffic(),
       mService.getTrafficCache().getOwnAltitude(),
       mGpsParams,
       mPref.getAircraftICAOCode(),
       null == mPointProjection);
 }
Beispiel #5
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 /**
  * * Draw the vertical approach slope indicator if we have a destination set
  *
  * @param canvas what to draw the data upon
  */
 private void drawVASI(Canvas canvas) {
   if (mPointProjection == null && mErrorStatus == null) {
     if (mPref.getShowCDI()) {
       Destination dest = mService.getDestination();
       if (dest != null) {
         mService.getVNAV().drawVNAV(canvas, getWidth(), getHeight(), dest);
       }
     }
   }
 }
Beispiel #6
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  /**
   * Draw the tracks to show our previous positions. If tracking is enabled, there is a linked list
   * of gps coordinates attached to this view with the most recent one at the end of that list.
   * Start at the end value to begin the drawing and as soon as we find one that is not in the range
   * of this display, we can assume that we're done.
   *
   * @param canvas
   * @param ctx
   */
  private void drawTracks(Canvas canvas, DrawingContext ctx) {
    /*
     * Some pre-conditions that would prevent us from drawing anything
     */
    if (mPref.isDrawTracks() && (null == mPointProjection)) {

      /*
       *  Set the brush color and width
       */
      mPaint.setColor(Color.CYAN);
      mPaint.setStrokeWidth(6 * mDipToPix);
      mPaint.setStyle(Paint.Style.FILL);

      mService
          .getKMLRecorder()
          .getShape()
          .drawShape(canvas, mOrigin, mScale, mMovement, mPaint, mPref.isNightMode(), true);
    }
  }
Beispiel #7
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 /**
  * @param time
  * @param block
  * @param empty
  * @param isConus
  * @param data
  * @param cols
  * @param rows
  */
 public void putImg(
     long time, int block, int empty[], boolean isConus, int data[], int cols, int rows) {
   if (!mPref.useAdsbWeather()) {
     return;
   }
   if (isConus) {
     mNexradConus.putImg(time, block, empty, isConus, data, cols, rows);
   } else {
     mNexrad.putImg(time, block, empty, isConus, data, cols, rows);
   }
 }
Beispiel #8
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  /**
   * @param canvas
   * @param ctx
   */
  private void drawLayers(Canvas canvas, DrawingContext ctx) {
    if (mLayerType == null || null != mPointProjection || 0 == mPref.showLayer()) {
      return;
    }

    if (ctx.pref.useAdsbWeather()) {
      if (mLayerType.equals("NEXRAD")) {
        NexradBitmap.draw(
            ctx,
            mService.getAdsbWeather().getNexrad(),
            mService.getAdsbWeather().getNexradConus(),
            null == mPointProjection);
      } else if (mLayerType.equals("METAR")) {
        AdsbWeatherCache.drawMetars(
            ctx, mService.getAdsbWeather().getAllMetars(), null == mPointProjection);
      }
    } else {

      if (mLayerType.equals("NEXRAD")) {
        // draw nexrad
        mLayer = mService.getRadarLayer();
      } else if (mLayerType.equals("METAR")) {
        // draw metar flight catergory
        mLayer = ctx.service.getMetarLayer();
      } else {
        mLayer = null;
        return;
      }

      /*
       * layer is way too old.
       */
      if (mLayer.isOld(ctx.pref.getExpiryTime())) {
        return;
      }

      mPaint.setAlpha(mPref.showLayer());
      mLayer.draw(canvas, mPaint, mOrigin);
      mPaint.setAlpha(255);
    }
  }
Beispiel #9
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  /**
   * Draws concentric circles around the current aircraft position showing distance. author: rwalker
   *
   * @param canvas upon which to draw the circles
   */
  private void drawDistanceRings(Canvas canvas) {
    /*
     * Some pre-conditions that would prevent us from drawing anything
     */
    if (null != mPointProjection) {
      return;
    }

    // Tell the rings to draw themselves
    mService
        .getDistanceRings()
        .draw(canvas, mOrigin, mScale, mMovement, mPref.isTrackUp(), mGpsParams);
  }
Beispiel #10
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 /**
  * @param time
  * @param location
  * @param data
  */
 public void putTaf(long time, String location, String data) {
   if (!mPref.useAdsbWeather()) {
     return;
   }
   Taf f = new Taf();
   f.rawText = location + " " + data;
   f.stationId = location;
   Date dt = new Date(time);
   SimpleDateFormat sdf = new SimpleDateFormat("ddHHmm", Locale.getDefault());
   sdf.setTimeZone(TimeZone.getTimeZone("gmt"));
   f.time = sdf.format(dt) + "Z";
   f.timestamp = System.currentTimeMillis();
   mTaf.put(location, f);
 }
Beispiel #11
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  /**
   * @param time
   * @param location
   * @param data
   */
  public void putMetar(long time, String location, String data, String flightCategory) {
    if (!mPref.useAdsbWeather()) {
      return;
    }

    Metar m = new Metar();
    m.rawText = location + " " + data;
    m.stationId = location;
    Date dt = new Date(time);
    SimpleDateFormat sdf = new SimpleDateFormat("ddHHmm", Locale.getDefault());
    sdf.setTimeZone(TimeZone.getTimeZone("gmt"));
    m.time = sdf.format(dt) + "Z";
    m.flightCategory = flightCategory;
    m.timestamp = System.currentTimeMillis();
    mMetar.put(location, m);
    mMetarQueue.insertMetarInQueue(m); // This will slowly make a metar map
  }
Beispiel #12
0
 /**
  * * Draw the edge distance markers if configured to do so
  *
  * @param canvas what to draw them on
  */
 private void drawEdgeMarkers(Canvas canvas) {
   if (mPref.isShowEdgeTape()) {
     if (mPointProjection == null) {
       int x = (int) (mOrigin.getOffsetX(mGpsParams.getLongitude()));
       int y = (int) (mOrigin.getOffsetY(mGpsParams.getLatitude()));
       float pixPerNm = mOrigin.getPixelsInNmAtLatitude(1, mGpsParams.getLatitude());
       mService
           .getEdgeTape()
           .draw(
               canvas,
               mScale,
               pixPerNm,
               x,
               y,
               (int) mService.getInfoLines().getHeight(),
               getWidth(),
               getHeight());
     }
   }
 }
Beispiel #13
0
  /**
   * @param time
   * @param location
   * @param data
   */
  public void putWinds(long time, String location, String data) {
    if (!mPref.useAdsbWeather()) {
      return;
    }
    WindsAloft w = new WindsAloft();
    w.station = location;

    /*
     * Clear garbage spaces etc. Convert to Avare format
     */
    String winds[] = data.split(",");
    if (winds.length < 9) {
      return;
    }
    w.w3k = winds[0];
    w.w6k = winds[1];
    w.w9k = winds[2];
    w.w12k = winds[3];
    w.w18k = winds[4];
    w.w24k = winds[5];
    w.w30k = winds[6];
    w.w34k = winds[7];
    w.w39k = winds[8];
    Date dt = new Date(time);
    SimpleDateFormat sdf = new SimpleDateFormat("ddHHmm", Locale.getDefault());
    sdf.setTimeZone(TimeZone.getTimeZone("gmt"));
    w.time = sdf.format(dt) + "Z";

    /*
     * Find lon/lat of station
     */
    float coords[] = new float[2];
    if (!Stations.getStationLocation(location, coords)) {
      return;
    }

    w.lon = coords[0];
    w.lat = coords[1];
    w.timestamp = System.currentTimeMillis();
    mWinds.put(location, w);
  }
Beispiel #14
0
  /*
   * ALL ADSB weather should be kaput after expiry
   */
  public void sweep() {
    long now = System.currentTimeMillis();
    int expiry = mPref.getExpiryTime() * 60 * 1000;

    /*
     * Go at them one by one
     * LinkedList saves against concurrent modification exception
     */
    LinkedList<String> keys;

    /*
     * Winds
     */
    keys = new LinkedList<String>();
    for (String key : mWinds.keySet()) {
      WindsAloft w = mWinds.get(key);
      long diff = (now - w.timestamp) - expiry;
      if (diff > 0) {
        keys.add(key);
      }
    }
    for (String key : keys) {
      mWinds.remove(key);
    }

    /*
     * Taf
     */
    keys = new LinkedList<String>();
    for (String key : mTaf.keySet()) {
      Taf f = mTaf.get(key);
      long diff = (now - f.timestamp) - expiry;
      if (diff > 0) {
        keys.add(key);
      }
    }
    for (String key : keys) {
      mTaf.remove(key);
    }

    /*
     * Metar
     */
    keys = new LinkedList<String>();
    for (String key : mMetar.keySet()) {
      Metar m = mMetar.get(key);
      long diff = (now - m.timestamp) - expiry;
      if (diff > 0) {
        keys.add(key);
      }
    }
    for (String key : keys) {
      mMetar.remove(key);
    }

    /*
     * Airep
     */
    keys = new LinkedList<String>();
    for (String key : mAirep.keySet()) {
      Airep a = mAirep.get(key);
      long diff = (now - a.timestamp) - expiry;
      if (diff > 0) {
        keys.add(key);
      }
    }
    for (String key : keys) {
      mAirep.remove(key);
    }

    /*
     * Nexrad
     */
    LinkedList<Integer> keyi = new LinkedList<Integer>();
    SparseArray<NexradBitmap> img = mNexrad.getImages();
    for (int i = 0; i < img.size(); i++) {
      NexradBitmap n = img.valueAt(i);
      long diff = (now - n.timestamp) - expiry;
      if (diff > 0) {
        keyi.add(img.keyAt(i));
      }
    }
    for (Integer key : keyi) {
      img.remove(key);
    }
  }
Beispiel #15
0
  /* (non-Javadoc)
   * @see android.view.View.OnTouchListener#onTouch(android.view.View, android.view.MotionEvent)
   */
  @Override
  public boolean onTouch(View view, MotionEvent e) {
    boolean bPassToGestureDetector = true;

    if (e.getAction() == MotionEvent.ACTION_UP) {

      /** Rubberbanding */
      rubberBand(e.getX(), e.getY(), true);

      /*
       * Drag stops for rubber band
       */
      mDragPlanPoint = -1;

      /*
       * Do not draw point. Only when long press and down.
       */
      mPointProjection = null;

      /*
       * Now that we have moved passed the macro level, re-query for new tiles.
       * Do not query repeatedly hence check for mFactor = 1
       */
      if (mMacro != mScale.getMacroFactor()) {
        loadTiles();
      }
    } else if (e.getAction() == MotionEvent.ACTION_DOWN) {

      if (mService != null) {
        /*
         * Find if this is close to a plan point. Do rubber banding if true
         * This is where rubberbanding starts
         */
        if (mService.getPlan() != null && mDragPlanPoint < 0 && mPref.allowRubberBanding()) {
          double lon = mOrigin.getLongitudeOf(e.getX());
          double lat = mOrigin.getLatitudeOf(e.getY());
          mDragPlanPoint = mService.getPlan().findClosePointId(lon, lat, mScale.getScaleFactor());
          mDragStartedX = e.getX();
          mDragStartedY = e.getY();
        }
      }

      mGestureCallBack.gestureCallBack(GestureInterface.TOUCH, (LongTouchDestination) null);

      // Remember this point so we can make sure we move far enough before losing the long press
      mDoCallbackWhenDone = false;
      mDownFocusPoint = getFocusPoint(e);
      startClosestAirportTask(e.getX(), e.getY());
    } else if (e.getAction() == MotionEvent.ACTION_MOVE) {
      if (mDownFocusPoint != null) {

        Point fp = getFocusPoint(e);
        final int deltaX = fp.x - mDownFocusPoint.x;
        final int deltaY = fp.y - mDownFocusPoint.y;
        int distanceSquare = (deltaX * deltaX) + (deltaY * deltaY);
        bPassToGestureDetector = distanceSquare > mTouchSlopSquare;
      }
      // Rubberbanding, intermediate
      rubberBand(e.getX(), e.getY(), false);
    }

    if (bPassToGestureDetector) {
      // Once we break out of the square or stop the long press, keep sending
      if (e.getAction() == MotionEvent.ACTION_MOVE || e.getAction() == MotionEvent.ACTION_UP) {
        mDownFocusPoint = null;
        mPointProjection = null;
        if (mClosestTask != null) {
          mClosestTask.cancel(true);
        }
      }
      mGestureDetector.onTouchEvent(e);
    }
    return mMultiTouchC.onTouchEvent(e, mScale.getMaxScale(), mScale.getMinScale(), mMacro);
  }
Beispiel #16
0
 // Display all of the user defined waypoints if configured to do so
 private void drawUserDefinedWaypoints(Canvas canvas, DrawingContext ctx) {
   if (mPointProjection == null) {
     mService.getUDWMgr().draw(canvas, mPref.isTrackUp(), mGpsParams, mFace, mOrigin);
   }
 }
Beispiel #17
0
  /**
   * Update the current speed, lat, lon, that will update ETA, distance and bearing to the
   * destination
   *
   * @param params
   */
  public void updateTo(GpsParams params) {

    /*
     */
    double mLon = params.getLongitude();
    double mLat = params.getLatitude();
    double speed = params.getSpeed();
    mDeclination = params.getDeclinition();

    if (!mFound) {
      return;
    }

    if (!mInited) {
      mLonInit = mLon;
      mLatInit = mLat;
      mInited = true;
    }

    /*
     * Project and find distance
     */
    Projection p = new Projection(mLon, mLat, mLond, mLatd);

    mDistance = p.getDistance();

    mBearing = p.getBearing();

    // in flying mode, calculate time based on ground speed from GPS
    mGroundSpeed = speed;
    mWca = 0;
    mCrs = mBearing;
    if (mPref.isSimulationMode()) {
      double ws = 0;
      double wd = 0;
      if (mWinds != null) {
        double winds[] = mWinds.getWindAtAltitude(params.getAltitude());
        ws = winds[0];
        wd = winds[1];
      }

      // in sim mode, do planning with winds
      speed = mPref.getAircraftTAS(); // in sim mode, use preferred TAS
      // from aviation formulary
      double hd = mBearing;
      mGroundSpeed =
          Math.sqrt(
              ws * ws + speed * speed - 2 * ws * speed * Math.cos((hd - wd) * Math.PI / 180.0));
      mWca =
          -Math.toDegrees(
              Math.atan2(
                  ws * Math.sin((hd - wd) * Math.PI / 180.0),
                  speed - ws * Math.cos((hd - wd) * Math.PI / 180.0)));
      mCrs = (hd + mWca + 360) % 360;
    } else if (mPref.useBearingForETEA() && (!mService.getPlan().isActive())) {
      // This is just when we have a destination set and no plan is active
      // We can't assume that we are heading DIRECTLY for the destination, so
      // we need to figure out the multiply factor by taking the COS of the difference
      // between the bearing and the heading.
      double angDif = Helper.angularDifference(params.getBearing(), mBearing);
      double xFactor = 1;

      // If the difference is 90 or greater, then ETE means nothing as we are not
      // closing on the target
      if (angDif < 90) {
        // Calculate the actual relative speed closing on the target
        xFactor = Math.cos(angDif * Math.PI / 180);
      }
      mGroundSpeed *= xFactor;
    }

    /*
     * ETA when speed != 0
     */
    mEte = Helper.calculateEte(mDistance, mGroundSpeed, 0, true);
    if (mGroundSpeed == 0) {
      mEteSec = Long.MAX_VALUE;
      mFuelGallons = Float.MAX_VALUE;
      mFuel = "-.-";
    } else {
      mEteSec = (long) (mDistance / mGroundSpeed * 3600);
      mFuelGallons = (float) mEteSec / 3600 * mPref.getFuelBurn();
      mFuel = String.valueOf((float) Math.round(mFuelGallons * 10.f) / 10.f);
    }

    // Calculate the time of arrival at our destination. We SHOULD be taking in to account
    // the timezone at that location
    mEta = Helper.calculateEta(Calendar.getInstance().getTimeZone(), mDistance, mGroundSpeed);
  }
Beispiel #18
0
  /** @param canvas Does pretty much all drawing on screen */
  private void drawMap(Canvas canvas) {

    if (mService == null) {
      return;
    }

    // If our track is supposed to be at the top, save the current
    // canvas and rotate it based upon our bearing if we have one
    boolean bRotated = false;
    if (mPref.isTrackUp() && (mGpsParams != null)) {
      bRotated = true;
      canvas.save();
      /*
       * Rotate around current position
       */
      float x = (float) mOrigin.getOffsetX(mGpsParams.getLongitude());
      float y = (float) mOrigin.getOffsetY(mGpsParams.getLatitude());
      canvas.rotate(-(int) mGpsParams.getBearing(), x, y);
    }

    DrawingContext ctx = new DrawingContext();
    ctx.service = mService;
    ctx.canvas = canvas;
    ctx.context = mContext;
    ctx.dip2pix = mDipToPix;
    ctx.movement = mMovement;
    ctx.origin = mOrigin;
    ctx.paint = mPaint;
    ctx.textPaint = mMsgPaint;
    ctx.scale = mScale;
    ctx.pan = mPan;
    ctx.pref = mPref;
    ctx.runwayPaint = mRunwayPaint;
    ctx.view = this;

    // Call the draw routines for the items that rotate with
    // the chart
    drawTiles(canvas, ctx);
    drawLayers(canvas, ctx);
    drawDrawing(canvas, ctx);
    drawCapGrids(canvas, ctx);
    drawTraffic(canvas, ctx);
    drawTFR(canvas, ctx);
    drawGameTFRs(ctx);
    drawShapes(canvas, ctx);
    drawAirSigMet(canvas, ctx);
    drawTracks(canvas, ctx);
    drawTrack(canvas, ctx);
    drawRunways(canvas, ctx);
    drawAircraft(canvas, ctx);
    drawUserDefinedWaypoints(canvas, ctx);

    // Restore the canvas to be upright again
    if (true == bRotated) {
      canvas.restore();
    }

    // Now draw the items that do NOT rotate with the chart
    drawDistanceRings(canvas);
    drawCDI(canvas);
    drawVASI(canvas);
    drawStatusLines(canvas);
    drawEdgeMarkers(canvas); // Must be after the infolines
    drawNavComments(canvas);
  }
Beispiel #19
0
 // Display cap grids
 private void drawCapGrids(Canvas canvas, DrawingContext ctx) {
   if (mPointProjection == null && mPref.showCAPGrids()) {
     mService.getCap().draw(canvas, mOrigin, mScale);
   }
 }
Beispiel #20
0
  /* (non-Javadoc)
   * @see com.ds.avare.MultiTouchController.MultiTouchObjectCanvas#setPositionAndScale(java.lang.Object, com.ds.avare.MultiTouchController.PositionAndScale, com.ds.avare.MultiTouchController.PointInfo)
   */
  public boolean setPositionAndScale(
      Object obj, PositionAndScale newObjPosAndScale, PointInfo touchPoint) {
    touchPointChanged(touchPoint);
    if (false == mCurrTouchPoint.isMultiTouch()) {

      /*
       * Do not move on drag
       */
      if (mDragPlanPoint >= 0) {
        return true;
      }

      /*
       * Do not move on multitouch
       */
      if (mDraw && mService != null) {
        float x = mCurrTouchPoint.getX() * mScale.getScaleFactor();
        float y = mCurrTouchPoint.getY() * mScale.getScaleFactor();
        /*
         * Threshold the drawing so we do not generate too many points
         */
        if (mPref.isTrackUp()) {
          double thetab = mGpsParams.getBearing();
          double p[] = new double[2];
          double c_x = mOrigin.getOffsetX(mGpsParams.getLongitude());
          double c_y = mOrigin.getOffsetY(mGpsParams.getLatitude());
          p = Helper.rotateCoord(c_x, c_y, thetab, x, y);
          mService.getDraw().addPoint((float) p[0], (float) p[1], mOrigin);
        } else {
          mService.getDraw().addPoint(x, y, mOrigin);
        }
        return true;
      }

      // Pan
      if (mPan.setMove(newObjPosAndScale.getXOff(), newObjPosAndScale.getYOff())) {
        /*
         * Query when we have moved one tile. This will happen in background.
         */
        loadTiles();
      }
    } else {

      // Zooming does not change drag
      mDragPlanPoint = -1;

      /*
       * on double touch find distance and bearing between two points.
       */

      if (mPointProjection == null) {
        double x0 = mCurrTouchPoint.getXs()[0];
        double y0 = mCurrTouchPoint.getYs()[0];
        double x1 = mCurrTouchPoint.getXs()[1];
        double y1 = mCurrTouchPoint.getYs()[1];

        double lon0, lat0, lon1, lat1;
        // convert to origin coord if Trackup
        if (mPref.isTrackUp()) {
          double c_x = mOrigin.getOffsetX(mGpsParams.getLongitude());
          double c_y = mOrigin.getOffsetY(mGpsParams.getLatitude());
          double thetab = mGpsParams.getBearing();
          double p0[], p1[];
          p0 = Helper.rotateCoord(c_x, c_y, thetab, x0, y0);
          p1 = Helper.rotateCoord(c_x, c_y, thetab, x1, y1);
          lon0 = mOrigin.getLongitudeOf(p0[0]);
          lat0 = mOrigin.getLatitudeOf(p0[1]);
          lon1 = mOrigin.getLongitudeOf(p1[0]);
          lat1 = mOrigin.getLatitudeOf(p1[1]);
        } else {
          lon0 = mOrigin.getLongitudeOf(x0);
          lat0 = mOrigin.getLatitudeOf(y0);
          lon1 = mOrigin.getLongitudeOf(x1);
          lat1 = mOrigin.getLatitudeOf(y1);
        }
        mPointProjection = new Projection(lon0, lat0, lon1, lat1);
      }

      /*
       * Clamp scaling.
       */

      mScale.setScaleFactor(newObjPosAndScale.getScale());
    }
    updateCoordinates();
    invalidate();
    return true;
  }