示例#1
0
  @Override
  public void setWaitForUpdateVisualStyle() {

    GeoQuadric3D quadric = (GeoQuadric3D) getGeoElement();
    switch (quadric.getType()) {
      case GeoQuadricNDConstants.QUADRIC_SINGLE_POINT:
        super.setWaitForUpdate();
        break;
      case GeoQuadricNDConstants.QUADRIC_PARALLEL_PLANES:
      case GeoQuadricNDConstants.QUADRIC_INTERSECTING_PLANES:
        initDrawPlanes(quadric);
        drawPlanes[0].setWaitForUpdateVisualStyle();
        drawPlanes[1].setWaitForUpdateVisualStyle();
        super.setWaitForUpdate();
        break;

      case GeoQuadricNDConstants.QUADRIC_PLANE:
        initDrawPlanes(quadric);
        drawPlanes[0].setWaitForUpdateVisualStyle();
        super.setWaitForUpdate();
        break;

      case GeoQuadricNDConstants.QUADRIC_LINE:
        initDrawLine(quadric);
        drawLine.setWaitForUpdateVisualStyle();
        super.setWaitForUpdate();
        break;
    }

    super.setWaitForUpdateVisualStyle();
  }
示例#2
0
  @Override
  public void setWaitForUpdate() {

    super.setWaitForUpdate();
    setMinMax();
    checkViewDirectionIsParallel();
  }
示例#3
0
  @Override
  public void setWaitForUpdate() {

    super.setWaitForUpdate();
    GeoQuadric3D quadric = (GeoQuadric3D) getGeoElement();
    int type = quadric.getType();

    switch (type) {
      case GeoQuadricNDConstants.QUADRIC_PARALLEL_PLANES:
      case GeoQuadricNDConstants.QUADRIC_INTERSECTING_PLANES:
        initDrawPlanes(quadric);
        drawPlanes[0].setWaitForUpdate();
        drawPlanes[1].setWaitForUpdate();
        break;
      case GeoQuadricNDConstants.QUADRIC_PLANE:
        initDrawPlanes(quadric);
        drawPlanes[0].setWaitForUpdate();
        break;
      case GeoQuadricNDConstants.QUADRIC_LINE:
        initDrawLine(quadric);
        drawLine.setWaitForUpdate();
        break;
    }
  }
示例#4
0
  @Override
  protected void updateForView() {

    GeoQuadric3D quadric = (GeoQuadric3D) getGeoElement();
    int type = quadric.getType();

    switch (type) {
      case GeoQuadricNDConstants.QUADRIC_SPHERE:
        if (getView3D().viewChangedByZoom()) {
          Renderer renderer = getView3D().getRenderer();
          PlotterSurface surface = renderer.getGeometryManager().getSurface();

          double s = scale;
          scale = getView3D().getScale();
          // check if longitude length changes
          double radius = quadric.getHalfAxis(0);
          int l = surface.calcSphereLongitudesNeeded(radius, scale);
          // redraw if sphere was not visible, or if new longitude length,
          // or if negative zoom occured
          if (visible == Visible.TOTALLY_OUTSIDE || l != longitude || scale < s) {
            Coords center = quadric.getMidpoint3D();
            checkSphereVisible(center, radius);
            if (visible != Visible.TOTALLY_OUTSIDE) {
              // App.debug(l+","+longitude);
              longitude = l;
              surface.start(getReusableSurfaceIndex());
              drawSphere(surface, center, radius);
              setSurfaceIndex(surface.end());
              recordTrace();
            } else {
              setSurfaceIndex(-1);
            }
          }
        } else if (visible != Visible.TOTALLY_INSIDE && getView3D().viewChangedByTranslate()) {
          Renderer renderer = getView3D().getRenderer();
          PlotterSurface surface = renderer.getGeometryManager().getSurface();

          Coords center = quadric.getMidpoint3D();
          double radius = quadric.getHalfAxis(0);
          checkSphereVisible(center, radius);
          if (visible != Visible.TOTALLY_OUTSIDE) {
            surface.start(getReusableSurfaceIndex());
            drawSphere(surface, center, radius);
            setSurfaceIndex(surface.end());
            recordTrace();
          } else {
            setSurfaceIndex(-1);
          }
        }
        break;
      case GeoQuadricNDConstants.QUADRIC_ELLIPSOID:
      case GeoQuadricNDConstants.QUADRIC_CONE:
      case GeoQuadricNDConstants.QUADRIC_CYLINDER:
      case GeoQuadricNDConstants.QUADRIC_HYPERBOLOID_ONE_SHEET:
      case GeoQuadricNDConstants.QUADRIC_HYPERBOLOID_TWO_SHEETS:
      case GeoQuadricNDConstants.QUADRIC_PARABOLOID:
      case GeoQuadricNDConstants.QUADRIC_HYPERBOLIC_PARABOLOID:
      case GeoQuadricNDConstants.QUADRIC_PARABOLIC_CYLINDER:
      case GeoQuadricNDConstants.QUADRIC_HYPERBOLIC_CYLINDER:
      case GeoQuadricNDConstants.QUADRIC_SINGLE_POINT:
        if (getView3D().viewChangedByZoom() || getView3D().viewChangedByTranslate()) {
          updateForItSelf();
        }
        break;
      case GeoQuadricNDConstants.QUADRIC_PARALLEL_PLANES:
      case GeoQuadricNDConstants.QUADRIC_INTERSECTING_PLANES:
        if (getView3D().viewChanged()) {
          initDrawPlanes(quadric);
          drawPlanes[0].updateForView();
          drawPlanes[1].updateForView();
          super.setWaitForUpdate();
        }
        break;

      case GeoQuadricNDConstants.QUADRIC_PLANE:
        if (getView3D().viewChanged()) {
          initDrawPlanes(quadric);
          drawPlanes[0].updateForView();
          super.setWaitForUpdate();
        }
        break;

      case GeoQuadricNDConstants.QUADRIC_LINE:
        if (getView3D().viewChanged()) {
          initDrawLine(quadric);
          drawLine.updateForView();
          super.setWaitForUpdate();
        }
        break;
    }
  }