//Constructors: public InteractionPoint(ManagedHand managedHand) { //sets: this.managedHand = managedHand; Touch = new InteractionState(this); Hover = new InteractionState(this); rotation = Quaternion.identity; }
//Public Methods: public void Update() { if (!_managedHand.Visible) { return; } //pinch rotation offset mirror: Vector3 rotationOffset = _pinchAbsoluteRotationOffset; if (_managedHand.Hand.Type == MLHandTracking.HandType.Left) { rotationOffset.y *= -1; } //holders: Vector3 pinchPosition = Vector3.zero; Quaternion pinchRotation = Quaternion.identity; //pinch interaction point radius: if (_managedHand.Skeleton.Thumb.Tip.Visible && _managedHand.Skeleton.Index.Tip.Visible) { Pinch.radius = Vector3.Distance(_managedHand.Skeleton.Thumb.Tip.positionFiltered, _managedHand.Skeleton.Index.Tip.positionFiltered); } if (_managedHand.Skeleton.Thumb.Tip.Visible) //absolute placement: { //are we swapping modes? if (_pinchIsRelative) { _pinchIsRelative = false; _pinchTransitioning = true; _pinchTransitionStartTime = Time.realtimeSinceStartup; } pinchPosition = _managedHand.Skeleton.Thumb.Tip.positionFiltered; pinchRotation = TransformUtilities.RotateQuaternion(_managedHand.Skeleton.Rotation, rotationOffset); //gather offset distance: if (_managedHand.Skeleton.Index.Knuckle.Visible && _managedHand.Skeleton.Thumb.Knuckle.Visible) { Vector3 mcpMidpoint = Vector3.Lerp(_managedHand.Skeleton.Index.Knuckle.positionFiltered, _managedHand.Skeleton.Thumb.Knuckle.positionFiltered, .5f); _pinchRelativePositionDistance = Vector3.Distance(mcpMidpoint, pinchPosition); } } else //relative placement: { //are we swapping modes? if (!_pinchIsRelative) { _pinchIsRelative = true; _pinchTransitioning = true; _pinchTransitionStartTime = Time.realtimeSinceStartup; } //place between available mcps: if (_managedHand.Skeleton.Index.Knuckle.Visible && _managedHand.Skeleton.Thumb.Knuckle.Visible) { pinchPosition = Vector3.Lerp(_managedHand.Skeleton.Index.Knuckle.positionFiltered, _managedHand.Skeleton.Thumb.Knuckle.positionFiltered, .5f); //rotate: pinchRotation = TransformUtilities.RotateQuaternion(_managedHand.Skeleton.Rotation, _pinchRelativeRotationOffset); //move out along rotation forward: pinchPosition += pinchRotation * Vector3.forward * _pinchRelativePositionDistance; } else { //just use previous: pinchPosition = Pinch.position; pinchRotation = Pinch.rotation; } } //sticky release reduction: if (_collapsed) { if (_managedHand.Skeleton.Thumb.Tip.Visible && _managedHand.Skeleton.Index.Tip.Visible) { //if starting to release, start using a point between the thumb and index tips: if (Vector3.Distance(_managedHand.Skeleton.Thumb.Tip.positionFiltered, _managedHand.Skeleton.Index.Tip.positionFiltered) > _dynamicReleaseDistance) { pinchPosition = Vector3.Lerp(_managedHand.Skeleton.Thumb.Tip.positionFiltered, _managedHand.Skeleton.Index.Tip.positionFiltered, .3f); } } } //apply pinch pose - to avoid jumps when relative placement is used we smooth until close enough: if (_pinchTransitioning) { //position: Pinch.position = Vector3.SmoothDamp(Pinch.position, pinchPosition, ref _pinchArrivalPositionVelocity, _pinchTransitionTime); float positionDelta = Vector3.Distance(Pinch.position, pinchPosition); //rotation: Pinch.rotation = MotionUtilities.SmoothDamp(Pinch.rotation, pinchRotation, ref _pinchArrivalRotationVelocity, _pinchTransitionTime); float rotationDelta = Quaternion.Angle(Pinch.rotation, pinchRotation); //close enough to hand off? if (positionDelta < .001f && rotationDelta < 5) { _pinchTransitioning = false; } //taking too long? if (Time.realtimeSinceStartup - _pinchTransitionStartTime > _pinchTransitionMaxDuration) { _pinchTransitioning = false; } } else { Pinch.position = pinchPosition; Pinch.rotation = pinchRotation; } //grasp interaction point: Bounds graspBounds = CalculateGraspBounds ( _managedHand.Skeleton.Thumb.Knuckle, _managedHand.Skeleton.Thumb.Joint, _managedHand.Skeleton.Thumb.Tip, _managedHand.Skeleton.Index.Knuckle, _managedHand.Skeleton.Index.Joint, _managedHand.Skeleton.Index.Tip, _managedHand.Skeleton.Middle.Knuckle, _managedHand.Skeleton.Middle.Joint, _managedHand.Skeleton.Middle.Tip ); Grasp.position = _managedHand.Skeleton.Position; //when points are being initially found they can be wildly off and this could cause a massively large volume: Grasp.radius = Mathf.Min(graspBounds.size.magnitude, _maxGraspRadius); Grasp.rotation = _managedHand.Skeleton.Rotation; //intent updated: if (_currentInteractionState != null) { _currentInteractionState.FireUpdate(); } //keypose change proposed: if (_managedHand.Hand.KeyPose != VerifiedGesture && _managedHand.Hand.KeyPose != _proposedKeyPose) { //queue a new proposed change to keypose: _proposedKeyPose = _managedHand.Hand.KeyPose; _keyPoseChangedTime = Time.realtimeSinceStartup; } //keypose change acceptance: if (_managedHand.Hand.KeyPose != VerifiedGesture && Time.realtimeSinceStartup - _keyPoseChangedTime > _keyPoseStabailityDuration) { //reset: Point.active = false; Pinch.active = false; Grasp.active = false; if (_collapsed) { //intent end: if (_managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.C || _managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.OpenHand || _managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.L || _managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.Finger) { if (_managedHand.Skeleton.Thumb.Tip.Visible && _managedHand.Skeleton.Index.Tip.Visible) { //dynamic release: if (Vector3.Distance(_managedHand.Skeleton.Thumb.Tip.positionFiltered, _managedHand.Skeleton.Index.Tip.positionFiltered) > _dynamicReleaseDistance) { //end intent: _collapsed = false; _currentInteractionState.FireEnd(); _currentInteractionState = null; //accept keypose change: VerifiedGesture = _managedHand.Hand.KeyPose; _proposedKeyPose = _managedHand.Hand.KeyPose; OnVerifiedGestureChanged?.Invoke(_managedHand, VerifiedGesture); if (_managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.Finger || _managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.L) { Intent = IntentPose.Pointing; OnIntentChanged?.Invoke(_managedHand, Intent); } else if (_managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.C || _managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.OpenHand || _managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.Thumb) { Intent = IntentPose.Relaxed; OnIntentChanged?.Invoke(_managedHand, Intent); } } } } } else { //intent begin: if (_managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.Pinch || _managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.Ok || _managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.Fist) { _collapsed = true; if (_managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.Pinch || _managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.Ok) { Intent = IntentPose.Pinching; Pinch.active = true; _currentInteractionState = Pinch.Touch; _currentInteractionState.FireBegin(); OnIntentChanged?.Invoke(_managedHand, Intent); } else if (_managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.Fist) { Intent = IntentPose.Grasping; Grasp.active = true; _currentInteractionState = Grasp.Touch; _currentInteractionState.FireBegin(); OnIntentChanged?.Invoke(_managedHand, Intent); } } if (_managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.Finger || _managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.L) { Intent = IntentPose.Pointing; Point.active = true; OnIntentChanged?.Invoke(_managedHand, Intent); } else if (_managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.C || _managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.OpenHand || _managedHand.Hand.KeyPose == MLHandTracking.HandKeyPose.Thumb) { Intent = IntentPose.Relaxed; OnIntentChanged?.Invoke(_managedHand, Intent); } //accept keypose change: VerifiedGesture = _managedHand.Hand.KeyPose; _proposedKeyPose = _managedHand.Hand.KeyPose; OnVerifiedGestureChanged?.Invoke(_managedHand, VerifiedGesture); } } //UpdateCurrentInteractionPoint(); UpdatePalmEvents(); }