// Apply to IKSolverFullBodyBiped
public void Apply(VRIK ik, AnimationCurve[] curves, float weight)
{
float deltaTime = Time.time - lastTime;
lastTime = Time.time;
if (timer >= length)
{
return;
}
// Advance the timer
timer = Mathf.Clamp(timer + deltaTime, 0f, length);
// Advance the crossFader
if (crossFadeSpeed > 0f)
{
crossFader = Mathf.Clamp(crossFader + (deltaTime * crossFadeSpeed), 0f, 1f);
}
else
{
crossFader = 1f;
}
// Pass this on to the hit points
OnApply(ik, curves, weight);
}
private void initialize()
{
vrik = gameObject.AddComponent <RootMotion.FinalIK.VRIK>();
vrik.AutoDetectReferences();
vrik.references.leftThigh = null;
vrik.references.leftCalf = null;
vrik.references.leftFoot = null;
vrik.references.leftToes = null;
vrik.references.rightThigh = null;
vrik.references.rightCalf = null;
vrik.references.rightFoot = null;
vrik.references.rightToes = null;
Transform leftHand = (new GameObject()).transform;
leftHand.parent = leftController;
leftHand.transform.localPosition = new Vector3(-0.0153f, 0.0662f, -0.1731f);
leftHand.transform.localRotation = Quaternion.Euler(-8.222f, 79.485f, 142.351f);
vrik.solver.leftArm.target = leftHand;
Transform rightHand = (new GameObject()).transform;
rightHand.parent = rightController;
rightHand.transform.localPosition = new Vector3(0.02300016f, 0.07700036f, -0.1700005f);
rightHand.transform.localRotation = Quaternion.Euler(-4.75f, -85.497f, -145.387f);
vrik.solver.rightArm.target = rightHand;
Transform head = (new GameObject()).transform;
head.parent = camera;
head.localPosition = new Vector3(0, -0.165f, -0.085f);
head.localRotation = Quaternion.Euler(0, 90, 0);
vrik.solver.spine.headTarget = head;
vrik.solver.spine.maxRootAngle = 180;
}
// Use this for initialization
void Start()
{
this.targetPos = this.transform.localPosition;
#if HUMAN_NAVI_USING_FINAL_IK
this.vrik = this.bodyWithIK.GetComponent <RootMotion.FinalIK.VRIK>();
#endif
}
// Use this for initialization
void Start()
{
this.targetPos = this.transform.localPosition;
#if ENABLE_VRIK
this.vrik = this.bodyWithIK.GetComponent <RootMotion.FinalIK.VRIK>();
#endif
}
/// <summary>
/// Calibrates body target to avatar pelvis position and position/rotation offsets in character root space.
/// </summary>
public static void CalibrateBody(VRIK ik, Transform pelvisTracker, Vector3 trackerPositionOffset, Vector3 trackerRotationOffset)
{
if (ik.solver.spine.pelvisTarget == null)
{
ik.solver.spine.pelvisTarget = new GameObject("Pelvis IK Target").transform;
}
ik.solver.spine.pelvisTarget.position = ik.references.pelvis.position + ik.references.root.rotation * trackerPositionOffset;
ik.solver.spine.pelvisTarget.rotation = ik.references.root.rotation * Quaternion.Euler(trackerRotationOffset);
ik.solver.spine.pelvisTarget.parent = pelvisTracker;
}
protected override void OnApply(VRIK ik, AnimationCurve[] curves, float weight)
{
Vector3 a = ik.transform.up * base.force.magnitude;
Vector3 vector = curves[this.forceDirCurveIndex].Evaluate(base.timer) * base.force + curves[this.upDirCurveIndex].Evaluate(base.timer) * a;
vector *= weight;
foreach (HitReactionVRIK.PositionOffset.PositionOffsetLink positionOffsetLink in this.offsetLinks)
{
positionOffsetLink.Apply(ik, vector, base.crossFader);
}
}
void _Set()
{
if (BodyIK != _bodyIK)
{
Root.position = BodyIK.references.root.position;
Root.rotation = BodyIK.references.root.rotation;
HeadEF.position = BodyIK.references.head.position;
HeadEF.rotation = BodyIK.references.head.rotation;
BodyIK.solver.spine.headTarget = HeadEF;
PelvisEF.position = BodyIK.references.pelvis.position;
PelvisEF.rotation = BodyIK.references.pelvis.rotation;
BodyIK.solver.spine.pelvisTarget = PelvisEF;
LHandEF.position = BodyIK.references.leftHand.position;
LHandEF.rotation = BodyIK.references.leftHand.rotation;
BodyIK.solver.leftArm.target = LHandEF;
RHandEF.position = BodyIK.references.rightHand.position;
RHandEF.rotation = BodyIK.references.rightHand.rotation;
BodyIK.solver.rightArm.target = RHandEF;
LElbowEF.position = BodyIK.references.leftForearm.position;
LElbowEF.rotation = BodyIK.references.leftForearm.rotation;
BodyIK.solver.leftArm.bendGoal = LElbowEF;
RElbowEF.position = BodyIK.references.rightForearm.position;
RElbowEF.rotation = BodyIK.references.rightForearm.rotation;
BodyIK.solver.rightArm.bendGoal = RElbowEF;
LLegEF.position = BodyIK.references.leftFoot.position;
LLegEF.rotation = BodyIK.references.leftFoot.rotation;
BodyIK.solver.leftLeg.target = LLegEF;
RLegEF.position = BodyIK.references.rightFoot.position;
RLegEF.rotation = BodyIK.references.rightFoot.rotation;
BodyIK.solver.rightLeg.target = RLegEF;
LKneeEF.position = BodyIK.references.leftCalf.position;
LKneeEF.rotation = BodyIK.references.leftCalf.rotation;
BodyIK.solver.leftLeg.bendGoal = LKneeEF;
RKneeEF.position = BodyIK.references.rightCalf.position;
RKneeEF.rotation = BodyIK.references.rightCalf.rotation;
BodyIK.solver.rightLeg.bendGoal = RKneeEF;
_bodyIK = BodyIK;
}
}
protected override void OnApply(VRIK ik, AnimationCurve[] curves, float weight)
{
Vector3 a = ik.transform.up * base.force.magnitude;
Vector3 vector = curves[this.forceDirCurveIndex].Evaluate(base.timer) * base.force + curves[this.upDirCurveIndex].Evaluate(base.timer) * a;
vector *= weight;
HitReactionVRIK.PositionOffset.PositionOffsetLink[] array = this.offsetLinks;
for (int i = 0; i < array.Length; i++)
{
array[i].Apply(ik, vector, base.crossFader);
}
}
// Calculate offset, apply to FBBIK effectors
protected override void OnApply(VRIK ik, AnimationCurve[] curves, float weight)
{
Vector3 up = ik.transform.up * force.magnitude;
Vector3 offset = (curves[forceDirCurveIndex].Evaluate(timer) * force) + (curves[upDirCurveIndex].Evaluate(timer) * up);
offset *= weight;
foreach (PositionOffsetLink l in offsetLinks)
{
l.Apply(ik, offset, crossFader);
}
}
/// <summary>
/// Calibrates hand IK targets to specified anchor position and rotation offsets independent of avatar bone orientations.
/// </summary>
public static void CalibrateHands(VRIK ik, Transform leftHandAnchor, Transform rightHandAnchor, Vector3 anchorPositionOffset, Vector3 anchorRotationOffset)
{
if (ik.solver.leftArm.target == null)
{
ik.solver.leftArm.target = new GameObject("Left Hand IK Target").transform;
}
if (ik.solver.rightArm.target == null)
{
ik.solver.rightArm.target = new GameObject("Right Hand IK Target").transform;
}
CalibrateHand(ik, leftHandAnchor, anchorPositionOffset, anchorRotationOffset, true);
CalibrateHand(ik, rightHandAnchor, anchorPositionOffset, anchorRotationOffset, false);
}
// Auto-assign ik
void OnDrawGizmosSelected()
{
if (ik == null)
{
ik = GetComponent <VRIK>();
}
if (ik == null)
{
ik = GetComponentInParent <VRIK>();
}
if (ik == null)
{
ik = GetComponentInChildren <VRIK>();
}
}
/// <summary>
/// Simple calibration to head and hands using predefined anchor position and rotation offsets.
/// </summary>
/// <param name="ik">The VRIK component.</param>
/// <param name="centerEyeAnchor">HMD.</param>
/// <param name="leftHandAnchor">Left hand controller.</param>
/// <param name="rightHandAnchor">Right hand controller.</param>
/// <param name="centerEyePositionOffset">Position offset of the camera from the head bone (root space).</param>
/// <param name="centerEyeRotationOffset">Rotation offset of the camera from the head bone (root space).</param>
/// <param name="handPositionOffset">Position offset of the hand controller from the hand bone (controller space).</param>
/// <param name="handRotationOffset">Rotation offset of the hand controller from the hand bone (controller space).</param>
/// <param name="scaleMlp">Multiplies the scale of the root.</param>
/// <returns></returns>
public static CalibrationData Calibrate(VRIK ik, Transform centerEyeAnchor, Transform leftHandAnchor, Transform rightHandAnchor, Vector3 centerEyePositionOffset, Vector3 centerEyeRotationOffset, Vector3 handPositionOffset, Vector3 handRotationOffset, float scaleMlp = 1f)
{
CalibrateHead(ik, centerEyeAnchor, centerEyePositionOffset, centerEyeRotationOffset);
CalibrateHands(ik, leftHandAnchor, rightHandAnchor, handPositionOffset, handRotationOffset);
CalibrateScale(ik, scaleMlp);
// Fill in Calibration Data
CalibrationData data = new CalibrationData();
data.scale = ik.references.root.localScale.y;
data.head = new CalibrationData.Target(ik.solver.spine.headTarget);
data.leftHand = new CalibrationData.Target(ik.solver.leftArm.target);
data.rightHand = new CalibrationData.Target(ik.solver.rightArm.target);
return(data);
}
/// <summary>
/// Calibrates head IK target to specified anchor position and rotation offset independent of avatar bone orientations.
/// </summary>
public static void CalibrateHead(VRIK ik, Transform centerEyeAnchor, Vector3 anchorPositionOffset, Vector3 anchorRotationOffset)
{
if (ik.solver.spine.headTarget == null)
{
ik.solver.spine.headTarget = new GameObject("Head IK Target").transform;
}
Vector3 forward = Quaternion.Inverse(ik.references.head.rotation) * ik.references.root.forward;
Vector3 up = Quaternion.Inverse(ik.references.head.rotation) * ik.references.root.up;
Quaternion headSpace = Quaternion.LookRotation(forward, up);
Vector3 anchorPos = ik.references.head.position + ik.references.head.rotation * headSpace * anchorPositionOffset;
Quaternion anchorRot = ik.references.head.rotation * headSpace * Quaternion.Euler(anchorRotationOffset);
Quaternion anchorRotInverse = Quaternion.Inverse(anchorRot);
ik.solver.spine.headTarget.parent = centerEyeAnchor;
ik.solver.spine.headTarget.localPosition = anchorRotInverse * (ik.references.head.position - anchorPos);
ik.solver.spine.headTarget.localRotation = anchorRotInverse * ik.references.head.rotation;
}
public void Apply(VRIK ik, AnimationCurve[] curves, float weight)
{
float num = Time.time - this.lastTime;
this.lastTime = Time.time;
if (this.timer >= this.length)
{
return;
}
this.timer = Mathf.Clamp(this.timer + num, 0f, this.length);
if (this.crossFadeSpeed > 0f)
{
this.crossFader = Mathf.Clamp(this.crossFader + num * this.crossFadeSpeed, 0f, 1f);
}
else
{
this.crossFader = 1f;
}
this.OnApply(ik, curves, weight);
}
protected override void OnApply(VRIK ik, AnimationCurve[] curves, float weight)
{
if (this.collider == null)
{
Debug.LogError("No collider assigned for a HitPointBone in the HitReaction component.");
return;
}
if (this.rigidbody == null)
{
this.rigidbody = this.collider.GetComponent <Rigidbody>();
}
if (this.rigidbody != null)
{
Vector3 axis = Vector3.Cross(base.force, base.point - this.rigidbody.worldCenterOfMass);
float angle = curves[this.curveIndex].Evaluate(base.timer) * weight;
Quaternion offset = Quaternion.AngleAxis(angle, axis);
foreach (HitReactionVRIK.RotationOffset.RotationOffsetLink rotationOffsetLink in this.offsetLinks)
{
rotationOffsetLink.Apply(ik, offset, base.crossFader);
}
}
}
// Calculate offset, apply to the bones
protected override void OnApply(VRIK ik, AnimationCurve[] curves, float weight)
{
if (collider == null)
{
Debug.LogError("No collider assigned for a HitPointBone in the HitReaction component.");
return;
}
if (rigidbody == null)
{
rigidbody = collider.GetComponent <Rigidbody>();
}
if (rigidbody != null)
{
float comValue = curves[curveIndex].Evaluate(timer) * weight;
Quaternion offset = Quaternion.AngleAxis(comValue, comAxis);
foreach (RotationOffsetLink l in offsetLinks)
{
l.Apply(ik, offset, crossFader);
}
}
}
private static void CalibrateHand(VRIK ik, Transform anchor, Vector3 positionOffset, Vector3 rotationOffset, bool isLeft)
{
if (isLeft)
{
positionOffset.x = -positionOffset.x;
rotationOffset.y = -rotationOffset.y;
rotationOffset.z = -rotationOffset.z;
}
var hand = isLeft ? ik.references.leftHand : ik.references.rightHand;
var forearm = isLeft ? ik.references.leftForearm : ik.references.rightForearm;
var target = isLeft ? ik.solver.leftArm.target : ik.solver.rightArm.target;
Vector3 forward = isLeft ? ik.solver.leftArm.wristToPalmAxis : ik.solver.rightArm.wristToPalmAxis;
if (forward == Vector3.zero)
{
forward = VRIKCalibrator.GuessWristToPalmAxis(hand, forearm);
}
Vector3 up = isLeft ? ik.solver.leftArm.palmToThumbAxis : ik.solver.rightArm.palmToThumbAxis;
if (up == Vector3.zero)
{
up = VRIKCalibrator.GuessPalmToThumbAxis(hand, forearm);
}
Quaternion handSpace = Quaternion.LookRotation(forward, up);
Vector3 anchorPos = hand.position + hand.rotation * handSpace * positionOffset;
Quaternion anchorRot = hand.rotation * handSpace * Quaternion.Euler(rotationOffset);
Quaternion anchorRotInverse = Quaternion.Inverse(anchorRot);
target.parent = anchor;
target.localPosition = anchorRotInverse * (hand.position - anchorPos);
target.localRotation = anchorRotInverse * hand.rotation;
}
/// <summary>
/// Calibrates VRIK to the specified trackers using CalibrationData from a previous calibration. Requires this character's bone orientations to match with the character's that was used in the previous calibration.
/// </summary>
/// <param name="ik">Reference to the VRIK component.</param>
/// <param name="data">Use calibration data from a previous calibration.</param>
/// <param name="headTracker">The HMD.</param>
/// <param name="bodyTracker">(Optional) A tracker placed anywhere on the body of the player, preferrably close to the pelvis, on the belt area.</param>
/// <param name="leftHandTracker">(Optional) A tracker or hand controller device placed anywhere on or in the player's left hand.</param>
/// <param name="rightHandTracker">(Optional) A tracker or hand controller device placed anywhere on or in the player's right hand.</param>
/// <param name="leftFootTracker">(Optional) A tracker placed anywhere on the ankle or toes of the player's left leg.</param>
/// <param name="rightFootTracker">(Optional) A tracker placed anywhere on the ankle or toes of the player's right leg.</param>
public static void Calibrate(VRIK ik, CalibrationData data, Transform headTracker, Transform bodyTracker = null, Transform leftHandTracker = null, Transform rightHandTracker = null, Transform leftFootTracker = null, Transform rightFootTracker = null)
{
if (!ik.solver.initiated)
{
Debug.LogError("Can not calibrate before VRIK has initiated.");
return;
}
if (headTracker == null)
{
Debug.LogError("Can not calibrate VRIK without the head tracker.");
return;
}
ik.solver.FixTransforms();
// Head
Transform headTarget = ik.solver.spine.headTarget == null ? (new GameObject("Head Target")).transform : ik.solver.spine.headTarget;
headTarget.parent = headTracker;
data.head.SetTo(headTarget);
ik.solver.spine.headTarget = headTarget;
// Size
ik.references.root.localScale = data.scale * Vector3.one;
// Body
if (bodyTracker != null)
{
Transform pelvisTarget = ik.solver.spine.pelvisTarget == null ? (new GameObject("Pelvis Target")).transform : ik.solver.spine.pelvisTarget;
pelvisTarget.parent = bodyTracker;
data.pelvis.SetTo(pelvisTarget);
ik.solver.spine.pelvisTarget = pelvisTarget;
ik.solver.spine.pelvisPositionWeight = data.pelvisPositionWeight;
ik.solver.spine.pelvisRotationWeight = data.pelvisRotationWeight;
ik.solver.plantFeet = false;
ik.solver.spine.maxRootAngle = 180f;
}
else if (leftFootTracker != null && rightFootTracker != null)
{
ik.solver.spine.maxRootAngle = 0f;
}
// Left Hand
if (leftHandTracker != null)
{
Transform leftHandTarget = ik.solver.leftArm.target == null ? (new GameObject("Left Hand Target")).transform : ik.solver.leftArm.target;
leftHandTarget.parent = leftHandTracker;
data.leftHand.SetTo(leftHandTarget);
ik.solver.leftArm.target = leftHandTarget;
ik.solver.leftArm.positionWeight = 1f;
ik.solver.leftArm.rotationWeight = 1f;
}
else
{
ik.solver.leftArm.positionWeight = 0f;
ik.solver.leftArm.rotationWeight = 0f;
}
// Right Hand
if (rightHandTracker != null)
{
Transform rightHandTarget = ik.solver.rightArm.target == null ? (new GameObject("Right Hand Target")).transform : ik.solver.rightArm.target;
rightHandTarget.parent = rightHandTracker;
data.rightHand.SetTo(rightHandTarget);
ik.solver.rightArm.target = rightHandTarget;
ik.solver.rightArm.positionWeight = 1f;
ik.solver.rightArm.rotationWeight = 1f;
}
else
{
ik.solver.rightArm.positionWeight = 0f;
ik.solver.rightArm.rotationWeight = 0f;
}
// Legs
if (leftFootTracker != null)
{
CalibrateLeg(data, leftFootTracker, ik.solver.leftLeg, (ik.references.leftToes != null ? ik.references.leftToes : ik.references.leftFoot), ik.references.root.forward, true);
}
if (rightFootTracker != null)
{
CalibrateLeg(data, rightFootTracker, ik.solver.rightLeg, (ik.references.rightToes != null ? ik.references.rightToes : ik.references.rightFoot), ik.references.root.forward, false);
}
// Root controller
bool addRootController = bodyTracker != null || (leftFootTracker != null && rightFootTracker != null);
var rootController = ik.references.root.GetComponent <VRIKRootController>();
if (addRootController)
{
if (rootController == null)
{
rootController = ik.references.root.gameObject.AddComponent <VRIKRootController>();
}
rootController.Calibrate(data);
}
else
{
if (rootController != null)
{
GameObject.Destroy(rootController);
}
}
// Additional solver settings
ik.solver.spine.minHeadHeight = 0f;
ik.solver.locomotion.weight = bodyTracker == null && leftFootTracker == null && rightFootTracker == null ? 1f : 0f;
}
// Apply a rotational offset to this effector
public void Apply(VRIK ik, Quaternion offset, float crossFader)
{
current = Quaternion.Lerp(lastValue, Quaternion.Lerp(Quaternion.identity, offset, weight), crossFader);
ik.solver.AddRotationOffset(rotationOffset, current);
}
// Apply an offset to this effector
public void Apply(VRIK ik, Vector3 offset, float crossFader)
{
current = Vector3.Lerp(lastValue, offset * weight, crossFader);
ik.solver.AddPositionOffset(positionOffset, current);
}
public void Apply(VRIK ik, Vector3 offset, float crossFader)
{
this.current = Vector3.Lerp(this.lastValue, offset * this.weight, crossFader);
ik.solver.AddPositionOffset(this.positionOffset, this.current);
}
} // 0x00000001802466A0-0x00000001802466B0
// Methods
public void Apply(VRIK ik, Vector3 offset, float crossFader)
{
} // 0x00000001809C3940-0x00000001809C3A90
/// <summary>
/// Calibrates only the avatar scale.
/// </summary>
private static void CalibrateScale(VRIK ik, Settings settings)
{
CalibrateScale(ik, settings.scaleMlp);
}
/// <summary>
/// Calibrates VRIK to the specified trackers using the VRIKTrackerCalibrator.Settings.
/// </summary>
/// <param name="ik">Reference to the VRIK component.</param>
/// <param name="settings">Calibration settings.</param>
/// <param name="headTracker">The HMD.</param>
/// <param name="bodyTracker">(Optional) A tracker placed anywhere on the body of the player, preferrably close to the pelvis, on the belt area.</param>
/// <param name="leftHandTracker">(Optional) A tracker or hand controller device placed anywhere on or in the player's left hand.</param>
/// <param name="rightHandTracker">(Optional) A tracker or hand controller device placed anywhere on or in the player's right hand.</param>
/// <param name="leftFootTracker">(Optional) A tracker placed anywhere on the ankle or toes of the player's left leg.</param>
/// <param name="rightFootTracker">(Optional) A tracker placed anywhere on the ankle or toes of the player's right leg.</param>
public static CalibrationData Calibrate(VRIK ik, Settings settings, Transform headTracker, Transform bodyTracker = null, Transform leftHandTracker = null, Transform rightHandTracker = null, Transform leftFootTracker = null, Transform rightFootTracker = null)
{
if (!ik.solver.initiated)
{
Debug.LogError("Can not calibrate before VRIK has initiated.");
return(null);
}
if (headTracker == null)
{
Debug.LogError("Can not calibrate VRIK without the head tracker.");
return(null);
}
CalibrationData data = new CalibrationData();
ik.solver.FixTransforms();
// Root position and rotation
Vector3 headPos = headTracker.position + headTracker.rotation * Quaternion.LookRotation(settings.headTrackerForward, settings.headTrackerUp) * settings.headOffset;
ik.references.root.position = new Vector3(headPos.x, ik.references.root.position.y, headPos.z);
Vector3 headForward = headTracker.rotation * settings.headTrackerForward;
headForward.y = 0f;
ik.references.root.rotation = Quaternion.LookRotation(headForward);
// Head
Transform headTarget = ik.solver.spine.headTarget == null ? (new GameObject("Head Target")).transform : ik.solver.spine.headTarget;
headTarget.position = headPos;
headTarget.rotation = ik.references.head.rotation;
headTarget.parent = headTracker;
ik.solver.spine.headTarget = headTarget;
// Size
float sizeF = (headTarget.position.y - ik.references.root.position.y) / (ik.references.head.position.y - ik.references.root.position.y);
ik.references.root.localScale *= sizeF * settings.scaleMlp;
// Body
if (bodyTracker != null)
{
Transform pelvisTarget = ik.solver.spine.pelvisTarget == null ? (new GameObject("Pelvis Target")).transform : ik.solver.spine.pelvisTarget;
pelvisTarget.position = ik.references.pelvis.position;
pelvisTarget.rotation = ik.references.pelvis.rotation;
pelvisTarget.parent = bodyTracker;
ik.solver.spine.pelvisTarget = pelvisTarget;
ik.solver.spine.pelvisPositionWeight = settings.pelvisPositionWeight;
ik.solver.spine.pelvisRotationWeight = settings.pelvisRotationWeight;
ik.solver.plantFeet = false;
ik.solver.spine.maxRootAngle = 180f;
}
else if (leftFootTracker != null && rightFootTracker != null)
{
ik.solver.spine.maxRootAngle = 0f;
}
// Left Hand
if (leftHandTracker != null)
{
Transform leftHandTarget = ik.solver.leftArm.target == null ? (new GameObject("Left Hand Target")).transform : ik.solver.leftArm.target;
leftHandTarget.position = leftHandTracker.position + leftHandTracker.rotation * Quaternion.LookRotation(settings.handTrackerForward, settings.handTrackerUp) * settings.handOffset;
Vector3 leftHandUp = Vector3.Cross(ik.solver.leftArm.wristToPalmAxis, ik.solver.leftArm.palmToThumbAxis);
leftHandTarget.rotation = QuaTools.MatchRotation(leftHandTracker.rotation * Quaternion.LookRotation(settings.handTrackerForward, settings.handTrackerUp), settings.handTrackerForward, settings.handTrackerUp, ik.solver.leftArm.wristToPalmAxis, leftHandUp);
leftHandTarget.parent = leftHandTracker;
ik.solver.leftArm.target = leftHandTarget;
ik.solver.leftArm.positionWeight = 1f;
ik.solver.leftArm.rotationWeight = 1f;
}
else
{
ik.solver.leftArm.positionWeight = 0f;
ik.solver.leftArm.rotationWeight = 0f;
}
// Right Hand
if (rightHandTracker != null)
{
Transform rightHandTarget = ik.solver.rightArm.target == null ? (new GameObject("Right Hand Target")).transform : ik.solver.rightArm.target;
rightHandTarget.position = rightHandTracker.position + rightHandTracker.rotation * Quaternion.LookRotation(settings.handTrackerForward, settings.handTrackerUp) * settings.handOffset;
Vector3 rightHandUp = -Vector3.Cross(ik.solver.rightArm.wristToPalmAxis, ik.solver.rightArm.palmToThumbAxis);
rightHandTarget.rotation = QuaTools.MatchRotation(rightHandTracker.rotation * Quaternion.LookRotation(settings.handTrackerForward, settings.handTrackerUp), settings.handTrackerForward, settings.handTrackerUp, ik.solver.rightArm.wristToPalmAxis, rightHandUp);
rightHandTarget.parent = rightHandTracker;
ik.solver.rightArm.target = rightHandTarget;
ik.solver.rightArm.positionWeight = 1f;
ik.solver.rightArm.rotationWeight = 1f;
}
else
{
ik.solver.rightArm.positionWeight = 0f;
ik.solver.rightArm.rotationWeight = 0f;
}
// Legs
if (leftFootTracker != null)
{
CalibrateLeg(settings, leftFootTracker, ik.solver.leftLeg, (ik.references.leftToes != null ? ik.references.leftToes : ik.references.leftFoot), ik.references.root.forward, true);
}
if (rightFootTracker != null)
{
CalibrateLeg(settings, rightFootTracker, ik.solver.rightLeg, (ik.references.rightToes != null ? ik.references.rightToes : ik.references.rightFoot), ik.references.root.forward, false);
}
// Root controller
bool addRootController = bodyTracker != null || (leftFootTracker != null && rightFootTracker != null);
var rootController = ik.references.root.GetComponent <VRIKRootController>();
if (addRootController)
{
if (rootController == null)
{
rootController = ik.references.root.gameObject.AddComponent <VRIKRootController>();
}
rootController.Calibrate();
}
else
{
if (rootController != null)
{
GameObject.Destroy(rootController);
}
}
// Additional solver settings
ik.solver.spine.minHeadHeight = 0f;
ik.solver.locomotion.weight = bodyTracker == null && leftFootTracker == null && rightFootTracker == null ? 1f : 0f;
// Fill in Calibration Data
data.scale = ik.references.root.localScale.y;
data.head = new CalibrationData.Target(ik.solver.spine.headTarget);
data.pelvis = new CalibrationData.Target(ik.solver.spine.pelvisTarget);
data.leftHand = new CalibrationData.Target(ik.solver.leftArm.target);
data.rightHand = new CalibrationData.Target(ik.solver.rightArm.target);
data.leftFoot = new CalibrationData.Target(ik.solver.leftLeg.target);
data.rightFoot = new CalibrationData.Target(ik.solver.rightLeg.target);
data.leftLegGoal = new CalibrationData.Target(ik.solver.leftLeg.bendGoal);
data.rightLegGoal = new CalibrationData.Target(ik.solver.rightLeg.bendGoal);
data.pelvisTargetRight = rootController.pelvisTargetRight;
data.pelvisPositionWeight = ik.solver.spine.pelvisPositionWeight;
data.pelvisRotationWeight = ik.solver.spine.pelvisRotationWeight;
return(data);
}
/// <summary>
/// Calibrates only the avatar scale.
/// </summary>
private static void CalibrateScale(VRIK ik, float scaleMlp = 1f)
{
float sizeF = (ik.solver.spine.headTarget.position.y - ik.references.root.position.y) / (ik.references.head.position.y - ik.references.root.position.y);
ik.references.root.localScale *= sizeF * scaleMlp;
}
protected abstract void OnApply(VRIK ik, AnimationCurve[] curves, float weight);
} // 0x00000001809C42D0-0x00000001809C4330
protected override void OnApply(VRIK ik, AnimationCurve[] curves, float weight)
{
} // 0x00000001809C4450-0x00000001809C4860
} // 0x00000001809C4250-0x00000001809C42D0
// Methods
public void Apply(VRIK ik, Quaternion offset, float crossFader)
{
} // 0x00000001809C4120-0x00000001809C4240
} // 0x00000001809C3000-0x00000001809C3120
public void Apply(VRIK ik, AnimationCurve[] curves, float weight)
{
} // 0x00000001809C2E80-0x00000001809C3000
/// <summary>
/// Recalibrates only the avatar scale. Can be called only if the avatar has already been calibrated.
/// </summary>
public static void RecalibrateScale(VRIK ik, Settings settings)
{
float sizeF = (ik.solver.spine.headTarget.position.y - ik.references.root.position.y) / (ik.references.head.position.y - ik.references.root.position.y);
ik.references.root.localScale *= sizeF * settings.scaleMlp;
}
