Ejemplo n.º 1
0
  /**
   * This returns true when the line between pt1 and pt2 crosses the seam. When the cone is
   * flattened, the "seam" is lon0 +- 180.
   *
   * @param pt1 point 1
   * @param pt2 point 2
   * @return true when the line between pt1 and pt2 crosses the seam.
   */
  public boolean crossSeam(ProjectionPoint pt1, ProjectionPoint pt2) {
    // either point is infinite
    if (ProjectionPointImpl.isInfinite(pt1) || ProjectionPointImpl.isInfinite(pt2)) return true;

    // opposite signed X values, larger then 5000 km
    return (pt1.getX() * pt2.getX() < 0) && (Math.abs(pt1.getX() - pt2.getX()) > 5000.0);
  }
Ejemplo n.º 2
0
  /**
   * Convert a LatLonPoint to projection coordinates
   *
   * @param latLon convert from these lat, lon coordinates
   * @param result the object to write to
   * @return the given result
   */
  public ProjectionPoint latLonToProj(LatLonPoint latLon, ProjectionPointImpl result) {
    double toX, toY;
    double fromLat = latLon.getLatitude();
    double fromLon = latLon.getLongitude();
    double fromLat_r = Math.toRadians(fromLat);

    // infinite projection
    if ((Math.abs(90.0 - Math.abs(fromLat))) < TOLERANCE) {
      toX = Double.POSITIVE_INFINITY;
      toY = Double.POSITIVE_INFINITY;
    } else {
      toX = A * Math.toRadians(LatLonPointImpl.range180(fromLon - this.lon0));
      toY = A * SpecialMathFunction.atanh(Math.sin(fromLat_r)); // p 41 Snyder
    }

    result.setLocation(toX + falseEasting, toY + falseNorthing);
    return result;
  }
Ejemplo n.º 3
0
  /**
   * Convert lat/lon coordinates to projection coordinates.
   *
   * @param from array of lat/lon coordinates: from[2][n], where (from[0][i], from[1][i]) is the
   *     (lat,lon) coordinate of the ith point
   * @param to resulting array of projection coordinates: to[2][n] where (to[0][i], to[1][i]) is the
   *     (x,y) coordinate of the ith point
   * @return the "to" array
   */
  public double[][] projToLatLon(double[][] from, double[][] to) {
    int cnt = from[0].length;
    double[] fromXA = from[INDEX_X];
    double[] fromYA = from[INDEX_Y];
    double[] toLatA = to[INDEX_LAT];
    double[] toLonA = to[INDEX_LON];

    double toLat, toLon;
    for (int i = 0; i < cnt; i++) {
      double fromX = fromXA[i];
      double fromY = fromYA[i];

      double rho = Math.sqrt(fromX * fromX + fromY * fromY);
      double c = Math.asin(rho / R);

      toLon = lon0;
      double temp = 0;
      if (Math.abs(rho) > TOLERANCE) {
        toLat = Math.asin(Math.cos(c) * sinLat0 + (fromY * Math.sin(c) * cosLat0 / rho));
        if (Math.abs(lat0 - PI_OVER_4) > TOLERANCE) { // not 90 or -90
          temp = rho * cosLat0 * Math.cos(c) - fromY * sinLat0 * Math.sin(c);
          toLon = lon0 + Math.atan(fromX * Math.sin(c) / temp);
        } else if (lat0 == PI_OVER_4) {
          toLon = lon0 + Math.atan(fromX / -fromY);
          temp = -fromY;
        } else {
          toLon = lon0 + Math.atan(fromX / fromY);
          temp = fromY;
        }
      } else {
        toLat = lat0;
      }
      toLat = Math.toDegrees(toLat);
      toLon = Math.toDegrees(toLon);
      if (temp < 0) {
        toLon += 180;
      }
      toLon = LatLonPointImpl.lonNormal(toLon);

      toLatA[i] = toLat;
      toLonA[i] = toLon;
    }
    return to;
  }
Ejemplo n.º 4
0
  /**
   * Convert projection coordinates to a LatLonPoint Note: a new object is not created on each call
   * for the return value.
   *
   * @param world convert from these projection coordinates
   * @param result the object to write to
   * @return LatLonPoint convert to these lat/lon coordinates
   */
  public LatLonPoint projToLatLon(ProjectionPoint world, LatLonPointImpl result) {
    double toLat, toLon;
    double fromX = world.getX();
    double fromY = world.getY();

    double rho = Math.sqrt(fromX * fromX + fromY * fromY);
    double c = Math.asin(rho / R);

    toLon = lon0;
    double temp = 0;
    if (Math.abs(rho) > TOLERANCE) {
      toLat = Math.asin(Math.cos(c) * sinLat0 + (fromY * Math.sin(c) * cosLat0 / rho));
      if (Math.abs(lat0 - PI_OVER_4) > TOLERANCE) { // not 90 or -90
        temp = rho * cosLat0 * Math.cos(c) - fromY * sinLat0 * Math.sin(c);
        toLon = lon0 + Math.atan(fromX * Math.sin(c) / temp);
      } else if (lat0 == PI_OVER_4) {
        toLon = lon0 + Math.atan(fromX / -fromY);
        temp = -fromY;
      } else {
        toLon = lon0 + Math.atan(fromX / fromY);
        temp = fromY;
      }
    } else {
      toLat = lat0;
    }
    toLat = Math.toDegrees(toLat);
    toLon = Math.toDegrees(toLon);
    if (temp < 0) {
      toLon += 180;
    }
    toLon = LatLonPointImpl.lonNormal(toLon);

    result.setLatitude(toLat);
    result.setLongitude(toLon);
    return result;
  }
 boolean close(double d1, double d2) {
   return Math.abs(d1 - d2) < TOLERENCE;
 }