protected void assembleHeightControlPoints() {
if (this.controlPoints.size() < 2) return;
// Add one control point for the height between the first and second vertices.
// TODO: ensure that this control point is visible
Position firstVertex = this.controlPoints.get(0).getPosition();
Position secondVertex = this.controlPoints.get(1).getPosition();
Globe globe = this.wwd.getModel().getGlobe();
// Get cartesian points for the vertices
Vec4 firstPoint = globe.computePointFromPosition(firstVertex);
Vec4 secondPoint = globe.computePointFromPosition(secondVertex);
// Find the midpoint of the line segment that connects the vertices
Vec4 halfwayPoint = firstPoint.add3(secondPoint).divide3(2.0);
Position halfwayPosition = globe.computePositionFromPoint(halfwayPoint);
this.controlPoints.add(
new ControlPointMarker(
CHANGE_HEIGHT_ACTION,
halfwayPosition,
halfwayPoint,
this.heightControlAttributes,
this.controlPoints.size()));
}
protected void assembleVertexControlPoints(DrawContext dc) {
Terrain terrain = dc.getTerrain();
ExtrudedPolygon polygon = this.getPolygon();
Position refPos = polygon.getReferencePosition();
Vec4 refPoint = terrain.getSurfacePoint(refPos.getLatitude(), refPos.getLongitude(), 0);
int altitudeMode = polygon.getAltitudeMode();
double height = polygon.getHeight();
Vec4 vaa = null;
double vaaLength = 0; // used to compute independent length of each cap vertex
double vaLength = 0;
int i = 0;
for (LatLon location : polygon.getOuterBoundary()) {
Vec4 vert;
// Compute the top/cap point.
if (altitudeMode == WorldWind.CONSTANT || !(location instanceof Position)) {
if (vaa == null) {
// Compute the vector lengths of the top and bottom points at the reference position.
vaa = refPoint.multiply3(height / refPoint.getLength3());
vaaLength = vaa.getLength3();
vaLength = refPoint.getLength3();
}
// Compute the bottom point, which is on the terrain.
vert = terrain.getSurfacePoint(location.getLatitude(), location.getLongitude(), 0);
double delta = vaLength - vert.dot3(refPoint) / vaLength;
vert = vert.add3(vaa.multiply3(1d + delta / vaaLength));
} else if (altitudeMode == WorldWind.RELATIVE_TO_GROUND) {
vert =
terrain.getSurfacePoint(
location.getLatitude(),
location.getLongitude(),
((Position) location).getAltitude());
} else // WorldWind.ABSOLUTE
{
vert =
terrain
.getGlobe()
.computePointFromPosition(
location.getLatitude(),
location.getLongitude(),
((Position) location).getAltitude() * terrain.getVerticalExaggeration());
}
Position vertexPosition = this.wwd.getModel().getGlobe().computePositionFromPoint(vert);
this.controlPoints.add(
new ControlPointMarker(
MOVE_VERTEX_ACTION, vertexPosition, vert, this.vertexControlAttributes, i));
i++;
}
}
/**
* Add a vertex to the polygon's outer boundary.
*
* @param mousePoint the point at which the mouse was clicked. The new vertex will be placed as
* near as possible to this point, at the elevation of the polygon.
*/
protected void addVertex(Point mousePoint) {
// Try to find the edge that is closest to a ray passing through the screen point. We're trying
// to determine
// the user's intent as to which edge a new two control points should be added to.
Line ray = this.wwd.getView().computeRayFromScreenPoint(mousePoint.getX(), mousePoint.getY());
Vec4 pickPoint = this.intersectPolygonAltitudeAt(ray);
double nearestDistance = Double.MAX_VALUE;
int newVertexIndex = 0;
// Loop through the control points and determine which edge is closest to the pick point
for (int i = 0; i < this.controlPoints.size(); i++) {
ControlPointMarker thisMarker = (ControlPointMarker) this.controlPoints.get(i);
ControlPointMarker nextMarker =
(ControlPointMarker) this.controlPoints.get((i + 1) % this.controlPoints.size());
Vec4 pointOnEdge =
AirspaceEditorUtil.nearestPointOnSegment(thisMarker.point, nextMarker.point, pickPoint);
if (!AirspaceEditorUtil.isPointBehindLineOrigin(ray, pointOnEdge)) {
double d = pointOnEdge.distanceTo3(pickPoint);
if (d < nearestDistance) {
newVertexIndex = i + 1;
nearestDistance = d;
}
}
}
Position newPosition = this.wwd.getModel().getGlobe().computePositionFromPoint(pickPoint);
// Copy the outer boundary list
ArrayList<Position> positionList = new ArrayList<Position>(this.controlPoints.size());
for (LatLon position : this.getPolygon().getOuterBoundary()) {
positionList.add((Position) position);
}
// Add the new vertex
positionList.add(newVertexIndex, newPosition);
this.getPolygon().setOuterBoundary(positionList);
}