/** * Called when the roll changes due to user input. * * @param rollChange Change in roll. * @param actionAttribs Action that caused the change. */ protected void onRoll(Angle rollChange, ViewInputAttributes.ActionAttributes actionAttribs) { View view = this.getView(); if (view == null) // include this test to ensure any derived implementation performs it { return; } if (view instanceof BasicFlyView) { BasicFlyView flyView = (BasicFlyView) view; this.setRoll(flyView, this.uiAnimControl, flyView.getRoll().add(rollChange), actionAttribs); view.firePropertyChange(AVKey.VIEW, null, view); } }
public void goTo(Position lookAtPos, double distance) { Globe globe = this.getView().getGlobe(); BasicFlyView view = (BasicFlyView) this.getView(); Position lookFromPos = new Position( lookAtPos, globe.getElevation(lookAtPos.getLatitude(), lookAtPos.getLongitude()) + distance); // TODO: scale on mid-altitude? final long MIN_LENGTH_MILLIS = 4000; final long MAX_LENGTH_MILLIS = 16000; long timeToMove = AnimationSupport.getScaledTimeMillisecs( view.getEyePosition(), lookFromPos, MIN_LENGTH_MILLIS, MAX_LENGTH_MILLIS); FlyToFlyViewAnimator panAnimator = FlyToFlyViewAnimator.createFlyToFlyViewAnimator( view, view.getEyePosition(), lookFromPos, view.getHeading(), Angle.ZERO, view.getPitch(), Angle.ZERO, view.getEyePosition().getElevation(), lookFromPos.getElevation(), timeToMove, WorldWind.ABSOLUTE); this.gotoAnimControl.put(VIEW_ANIM_PAN, panAnimator); this.getView().firePropertyChange(AVKey.VIEW, null, this.getView()); }
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); }