/** {@inheritDoc} */
 public Position getReferencePosition() {
   if (positions != null) {
     Iterator<? extends Position> iterator = this.positions.iterator();
     if (iterator.hasNext()) return iterator.next();
   }
   return null;
 }
  /**
   * {@inheritDoc}
   *
   * @param positions Control points. This graphic uses only two control point, which determine the
   *     midpoints of two opposite sides of the quad. See Fire Support Area (2.X.4.3.2.1.2) on pg.
   *     652 of MIL-STD-2525C for an example of how these points are interpreted.
   */
  public void setPositions(Iterable<? extends Position> positions) {
    if (positions == null) {
      String message = Logging.getMessage("nullValue.PositionsListIsNull");
      Logging.logger().severe(message);
      throw new IllegalArgumentException(message);
    }

    Iterator<? extends Position> iterator = positions.iterator();
    try {
      Position pos1 = iterator.next();
      Position pos2 = iterator.next();

      LatLon center = LatLon.interpolateGreatCircle(0.5, pos1, pos2);
      this.quad.setCenter(center);

      Angle heading = LatLon.greatCircleAzimuth(pos2, pos1);
      this.quad.setHeading(heading.subtract(Angle.POS90));

      this.positions = positions;
      this.shapeInvalid = true; // Need to recompute quad size
    } catch (NoSuchElementException e) {
      String message = Logging.getMessage("generic.InsufficientPositions");
      Logging.logger().severe(message);
      throw new IllegalArgumentException(message);
    }
  }
Exemplo n.º 3
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  /**
   * {@inheritDoc}
   *
   * @param positions Control points that orient the graphic. Must provide at least three points.
   */
  public void setPositions(Iterable<? extends Position> positions) {
    if (positions == null) {
      String message = Logging.getMessage("nullValue.PositionsListIsNull");
      Logging.logger().severe(message);
      throw new IllegalArgumentException(message);
    }

    try {
      Iterator<? extends Position> iterator = positions.iterator();
      this.position1 = iterator.next();
      this.position2 = iterator.next();
      this.position3 = iterator.next();
    } catch (NoSuchElementException e) {
      String message = Logging.getMessage("generic.InsufficientPositions");
      Logging.logger().severe(message);
      throw new IllegalArgumentException(message);
    }

    this.paths = null; // Need to recompute path for the new control points
    this.arrowHead1 = null;
    this.arrowHead2 = null;

    if (this.symbol != null) {
      this.symbol.setPosition(this.position1);
    }
  }
  @Override
  public Position getReferencePosition() {
    if (this.boundaries.getContourCount() == 0) return null;

    Iterator<? extends LatLon> iterator = this.boundaries.getContour(0).iterator();
    if (!iterator.hasNext()) return null;

    return new Position(iterator.next(), 0);
  }
  protected void computeQuadSize(DrawContext dc) {
    if (this.positions == null) return;

    Iterator<? extends Position> iterator = this.positions.iterator();

    Position pos1 = iterator.next();
    Position pos2 = iterator.next();

    Angle angularDistance = LatLon.greatCircleDistance(pos1, pos2);
    double length = angularDistance.radians * dc.getGlobe().getRadius();

    this.quad.setWidth(length);
  }
 /** {@inheritDoc} */
 @Override
 public void setModifier(String modifier, Object value) {
   if (SymbologyConstants.DISTANCE.equals(modifier)) {
     if (value instanceof Double) {
       this.setWidth((Double) value);
     } else if (value instanceof Iterable) {
       // Only use the first value of the iterable. This graphic uses two control points and a
       // width.
       Iterator iterator = ((Iterable) value).iterator();
       this.setWidth((Double) iterator.next());
     }
   } else {
     super.setModifier(modifier, value);
   }
 }
  /**
   * Create positions that describe lines parallel to a control line.
   *
   * @param iterator Iterator of control line positions.
   * @param leftPositions List to collect positions on the left line.
   * @param rightPositions List to collect positions on the right line.
   * @param halfWidth Distance from the center line to the left or right lines.
   * @param globe Current globe.
   */
  public void generateParallelLines(
      Iterator<? extends Position> iterator,
      List<Position> leftPositions,
      List<Position> rightPositions,
      double halfWidth,
      Globe globe) {
    // Starting at the start of the line, take points three at a time. B is the current control
    // point, A is the next
    // point in the line, and C is the previous point. We need to a find a vector that bisects angle
    // ABC.
    //       B
    //       ---------> C
    //      /
    //     /
    //    /
    // A /

    Position posB = iterator.next();
    Position posA = iterator.next();

    Vec4 ptA = globe.computePointFromLocation(posA);
    Vec4 ptB = globe.computePointFromLocation(posB);
    Vec4 ptC;

    // Compute side points at the start of the line.
    this.generateParallelPoints(ptB, null, ptA, leftPositions, rightPositions, halfWidth, globe);

    while (iterator.hasNext()) {
      posA = iterator.next();

      ptC = ptB;
      ptB = ptA;
      ptA = globe.computePointFromLocation(posA);

      generateParallelPoints(ptB, ptC, ptA, leftPositions, rightPositions, halfWidth, globe);
    }

    // Compute side points at the end of the line.
    generateParallelPoints(ptA, ptB, null, leftPositions, rightPositions, halfWidth, globe);
  }
  /**
   * {@inheritDoc}
   *
   * @param positions Control points. This graphic uses only one control point, which determines the
   *     center of the circle.
   */
  public void setPositions(Iterable<? extends Position> positions) {
    if (positions == null) {
      String message = Logging.getMessage("nullValue.PositionsListIsNull");
      Logging.logger().severe(message);
      throw new IllegalArgumentException(message);
    }

    try {
      // Ensure that the iterable provides at least four positions.
      Iterator<? extends Position> iterator = positions.iterator();
      for (int i = 0; i < 3; i++) {
        iterator.next();
      }
    } catch (NoSuchElementException e) {
      String message = Logging.getMessage("generic.InsufficientPositions");
      Logging.logger().severe(message);
      throw new IllegalArgumentException(message);
    }

    this.positions = positions;
    this.rings = null;
  }
  /**
   * Create the circles used to draw this graphic.
   *
   * @param dc Current draw context.
   */
  protected void createShapes(DrawContext dc) {
    if (this.positions == null) return;

    this.rings = new ArrayList<SurfaceCircle>();

    Iterator<? extends Position> iterator = this.positions.iterator();

    Position center = iterator.next();
    double globeRadius = dc.getGlobe().getRadius();

    while (iterator.hasNext()) {
      SurfaceCircle ring = this.createCircle();
      ring.setCenter(center);

      Position pos = iterator.next();
      Angle radius = LatLon.greatCircleDistance(center, pos);

      double radiusMeters = radius.radians * globeRadius;
      ring.setRadius(radiusMeters);

      this.rings.add(ring);
    }
  }