public void lookAt(Position lookAtPos, long timeToMove) {
BasicFlyView view = (BasicFlyView) this.getView();
Vec4 lookDirection;
double distanceToSurface;
Vec4 currentLookAtPt = view.getCenterPoint();
Position newPosition;
if (currentLookAtPt == null) {
view.getGlobe().computePointFromPosition(lookAtPos);
double elevAtLookAtPos =
view.getGlobe().getElevation(lookAtPos.getLatitude(), lookAtPos.getLongitude());
newPosition = new Position(lookAtPos, elevAtLookAtPos + 10000);
} else {
Vec4 currentEyePt = view.getEyePoint();
distanceToSurface = currentEyePt.distanceTo3(currentLookAtPt);
lookDirection = currentLookAtPt.subtract3(currentEyePt).normalize3();
Vec4 newLookAtPt = view.getGlobe().computePointFromPosition(lookAtPos);
Vec4 flyToPoint = newLookAtPt.add3(lookDirection.multiply3(-distanceToSurface));
newPosition = view.getGlobe().computePositionFromPoint(flyToPoint);
}
ViewUtil.ViewState viewCoords = view.getViewState(newPosition, lookAtPos);
FlyToFlyViewAnimator panAnimator =
FlyToFlyViewAnimator.createFlyToFlyViewAnimator(
view,
view.getEyePosition(),
newPosition,
view.getHeading(),
viewCoords.getHeading(),
view.getPitch(),
viewCoords.getPitch(),
view.getEyePosition().getElevation(),
viewCoords.getPosition().getElevation(),
timeToMove,
WorldWind.ABSOLUTE);
this.gotoAnimControl.put(VIEW_ANIM_PAN, panAnimator);
this.getView().firePropertyChange(AVKey.VIEW, null, this.getView());
view.firePropertyChange(AVKey.VIEW, null, view);
}
protected void onMoveTo(
Position focalPosition,
ViewInputAttributes.DeviceAttributes deviceAttributes,
ViewInputAttributes.ActionAttributes actionAttribs) {
BasicFlyView view = (BasicFlyView) this.getView();
if (view == null) // include this test to ensure any derived implementation performs it
{
return;
}
// We're treating a speed parameter as smoothing here. A greater speed results in greater
// smoothing and
// slower response. Therefore the min speed used at lower altitudes ought to be *greater* than
// the max
// speed used at higher altitudes.
double smoothing = this.getScaleValueElevation(deviceAttributes, actionAttribs);
if (!actionAttribs.isEnableSmoothing()) smoothing = 0.0;
Vec4 currentLookAtPt = view.getCenterPoint();
if (currentLookAtPt == null) {
currentLookAtPt = view.getGlobe().computePointFromPosition(focalPosition);
}
Vec4 currentEyePt = view.getEyePoint();
double distanceToSurface = currentEyePt.distanceTo3(currentLookAtPt);
Vec4 lookDirection = currentEyePt.subtract3(currentLookAtPt).normalize3();
Vec4 newLookAtPt = view.getGlobe().computePointFromPosition(focalPosition);
Vec4 flyToPoint = newLookAtPt.add3(lookDirection.multiply3(distanceToSurface));
Position newPosition = view.getGlobe().computePositionFromPoint(flyToPoint);
ViewUtil.ViewState viewCoords = view.getViewState(newPosition, focalPosition);
this.stopAnimators();
this.gotoAnimControl.put(
VIEW_ANIM_HEADING,
new RotateToAngleAnimator(
view.getHeading(),
viewCoords.getHeading(),
smoothing,
ViewPropertyAccessor.createHeadingAccessor(view)));
this.gotoAnimControl.put(
VIEW_ANIM_PITCH,
new RotateToAngleAnimator(
view.getPitch(),
viewCoords.getPitch(),
smoothing,
ViewPropertyAccessor.createPitchAccessor(view)));
double elevation =
((FlyViewLimits) view.getViewPropertyLimits())
.limitEyeElevation(newPosition, view.getGlobe());
if (elevation != newPosition.getElevation()) {
newPosition = new Position(newPosition, elevation);
}
this.gotoAnimControl.put(
VIEW_ANIM_POSITION,
new MoveToPositionAnimator(
view.getEyePosition(),
newPosition,
smoothing,
ViewPropertyAccessor.createEyePositionAccessor(view)));
view.firePropertyChange(AVKey.VIEW, null, view);
}