コード例 #1
0
  public void updateEffectiveAreaSize(SARData sarData) {

    // System.out.println("Is the sar data null? ");
    // System.out.println(sarData == null);
    // System.out.println("Is the effective area null? ");
    // System.out.println(sarData.getFirstEffortAllocationData()==null);
    //
    if (sarData.getEffortAllocationData().size() > id) {
      sarData.getEffortAllocationData().get(id).setEffectiveAreaA(A);
      sarData.getEffortAllocationData().get(id).setEffectiveAreaB(B);
      sarData.getEffortAllocationData().get(id).setEffectiveAreaC(C);
      sarData.getEffortAllocationData().get(id).setEffectiveAreaD(D);
    }
  }
コード例 #2
0
  public EffectiveSRUAreaGraphics(
      Double width, Double height, SARData data, int id, String labelName) {
    super();

    this.id = id;

    this.sarData = data;

    totalSize = width * height;

    // Find center point
    Position centerPosition = null;

    if (sarData instanceof RapidResponseData) {
      RapidResponseData rapidResponseData = (RapidResponseData) data;
      centerPosition = rapidResponseData.getDatum();

      verticalBearing =
          Calculator.bearing(rapidResponseData.getA(), rapidResponseData.getD(), Heading.RL);
      horizontalBearing =
          Calculator.bearing(rapidResponseData.getA(), rapidResponseData.getB(), Heading.RL);

      // Vertical and horizontal must be swapped since the direction has
      // been set to very east or very west
      if (verticalBearing < 280 && verticalBearing > 260
          || verticalBearing < 100 && verticalBearing > 70) {

        double newVer = verticalBearing;
        System.out.println("swapping");
        verticalBearing = horizontalBearing;
        horizontalBearing = newVer;
      }

      // Reversing if direction is opposite way of assumed, assumed to be
      // headed in 90 direction ie. right
      if (horizontalBearing > 180 || horizontalBearing < 0) {

        horizontalBearing = Calculator.reverseDirection(horizontalBearing);
      }

      if (verticalBearing > 270 || verticalBearing < 90) {
        verticalBearing = Calculator.reverseDirection(verticalBearing);
      }

      System.out.println("Vertical bearing is: " + verticalBearing);
      System.out.println("Horizontal bearing is: " + horizontalBearing);
    }

    if (sarData instanceof DatumPointData) {
      DatumPointData datumData = (DatumPointData) data;
      verticalBearing = Calculator.bearing(datumData.getA(), datumData.getD(), Heading.RL);
      horizontalBearing = Calculator.bearing(datumData.getA(), datumData.getB(), Heading.RL);
      centerPosition = datumData.getDatumDownWind();

      // Vertical and horizontal must be swapped since the direction has
      // been set to very east or very west
      if (verticalBearing < 280 && verticalBearing > 260
          || verticalBearing < 100 && verticalBearing > 70) {

        double newVer = verticalBearing;
        System.out.println("swapping");
        verticalBearing = horizontalBearing;
        horizontalBearing = newVer;
      }

      // Reversing if direction is opposite way of assumed, assumed to be
      // headed in 90 direction ie. right
      if (horizontalBearing > 180 || horizontalBearing < 0) {

        horizontalBearing = Calculator.reverseDirection(horizontalBearing);
      }

      if (verticalBearing > 270 || verticalBearing < 90) {
        verticalBearing = Calculator.reverseDirection(verticalBearing);
      }

      System.out.println("Vertical bearing is: " + verticalBearing);
      System.out.println("Horizontal bearing is: " + horizontalBearing);
    }

    // Find A position
    Position topCenter =
        Calculator.findPosition(
            centerPosition,
            Calculator.reverseDirection(verticalBearing),
            Converter.nmToMeters(height / 2));

    A =
        Calculator.findPosition(
            topCenter,
            Calculator.reverseDirection(horizontalBearing),
            Converter.nmToMeters(width / 2));

    B = Calculator.findPosition(A, horizontalBearing, Converter.nmToMeters(width));

    C = Calculator.findPosition(A, verticalBearing, Converter.nmToMeters(height));
    D = Calculator.findPosition(C, horizontalBearing, Converter.nmToMeters(width));

    sarData.getEffortAllocationData().get(id).setEffectiveAreaA(A);
    sarData.getEffortAllocationData().get(id).setEffectiveAreaB(B);
    sarData.getEffortAllocationData().get(id).setEffectiveAreaC(C);
    sarData.getEffortAllocationData().get(id).setEffectiveAreaD(D);

    effectiveArea =
        new AreaInternalGraphics(
            A, B, C, D, width, height, this, verticalBearing, horizontalBearing, labelName);

    topLine = new SarEffectiveAreaLines(A, B, LineType.TOP, this);
    bottomLine = new SarEffectiveAreaLines(C, D, LineType.BOTTOM, this);

    leftLine = new SarEffectiveAreaLines(A, C, LineType.LEFT, this);

    rightLine = new SarEffectiveAreaLines(B, D, LineType.RIGHT, this);

    add(effectiveArea);
    add(bottomLine);
    add(topLine);
    add(leftLine);
    add(rightLine);
  }