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using UnityEngine;
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using System.Collections;
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namespace RootMotion.FinalIK {
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/// <summary>
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/// Maps a bone or a collection of bones to a node based %IK solver
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/// </summary>
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[System.Serializable]
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public class IKMapping {
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#region Main Interface
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/// <summary>
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/// Contains mapping information of a single bone
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/// </summary>
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[System.Serializable]
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public class BoneMap {
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/// <summary>
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/// The transform.
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/// </summary>
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public Transform transform;
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/// <summary>
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/// The node in %IK Solver.
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/// </summary>
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//public IKSolver.Node node;
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public int chainIndex = -1;
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public int nodeIndex = -1;
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public Vector3 defaultLocalPosition;
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public Quaternion defaultLocalRotation;
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public Vector3 localSwingAxis, localTwistAxis, planePosition, ikPosition;
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public Quaternion defaultLocalTargetRotation;
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private Quaternion maintainRotation;
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public float length;
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public Quaternion animatedRotation;
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private Transform planeBone1, planeBone2, planeBone3;
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private int plane1ChainIndex = -1;
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private int plane1NodeIndex = -1;
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private int plane2ChainIndex = -1;
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private int plane2NodeIndex = -1;
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private int plane3ChainIndex = -1;
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private int plane3NodeIndex = -1;
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//private IKSolver.Node planeNode1, planeNode2, planeNode3;
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public void Initiate(Transform transform, IKSolverFullBody solver) {
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this.transform = transform;
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solver.GetChainAndNodeIndexes(transform, out chainIndex, out nodeIndex);
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//IKSolver.Point point = solver.GetPoint(transform);
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//this.node = point as IKSolver.Node;
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}
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/// <summary>
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/// Gets the current swing direction of the bone in world space.
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/// </summary>
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public Vector3 swingDirection {
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get {
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return transform.rotation * localSwingAxis;
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}
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}
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public void StoreDefaultLocalState() {
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defaultLocalPosition = transform.localPosition;
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defaultLocalRotation = transform.localRotation;
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}
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public void FixTransform(bool position) {
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if (position) transform.localPosition = defaultLocalPosition;
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transform.localRotation = defaultLocalRotation;
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}
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#region Reading
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/*
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* Does this bone have a node in the IK Solver?
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* */
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public bool isNodeBone {
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get {
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return nodeIndex != -1;
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//return node != null;
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}
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}
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/*
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* Calculate length of the bone
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* */
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public void SetLength(BoneMap nextBone) {
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length = Vector3.Distance(transform.position, nextBone.transform.position);
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}
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/*
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* Sets the direction to the swing target in local space
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* */
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public void SetLocalSwingAxis(BoneMap swingTarget) {
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SetLocalSwingAxis(swingTarget, this);
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}
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/*
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* Sets the direction to the swing target in local space
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* */
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public void SetLocalSwingAxis(BoneMap bone1, BoneMap bone2) {
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localSwingAxis = Quaternion.Inverse(transform.rotation) * (bone1.transform.position - bone2.transform.position);
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}
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/*
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* Sets the direction to the twist target in local space
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* */
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public void SetLocalTwistAxis(Vector3 twistDirection, Vector3 normalDirection) {
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Vector3.OrthoNormalize(ref normalDirection, ref twistDirection);
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localTwistAxis = Quaternion.Inverse(transform.rotation) * twistDirection;
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}
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/*
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* Sets the 3 points defining a plane for this bone
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* */
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public void SetPlane(IKSolverFullBody solver, Transform planeBone1, Transform planeBone2, Transform planeBone3) {
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this.planeBone1 = planeBone1;
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this.planeBone2 = planeBone2;
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this.planeBone3 = planeBone3;
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solver.GetChainAndNodeIndexes(planeBone1, out plane1ChainIndex, out plane1NodeIndex);
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solver.GetChainAndNodeIndexes(planeBone2, out plane2ChainIndex, out plane2NodeIndex);
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solver.GetChainAndNodeIndexes(planeBone3, out plane3ChainIndex, out plane3NodeIndex);
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//this.planeNode1 = planeNode1;
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//this.planeNode2 = planeNode2;
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//this.planeNode3 = planeNode3;
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UpdatePlane(true, true);
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}
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/*
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* Updates the 3 plane points
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* */
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public void UpdatePlane(bool rotation, bool position) {
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Quaternion t = lastAnimatedTargetRotation;
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if (rotation) defaultLocalTargetRotation = QuaTools.RotationToLocalSpace(transform.rotation, t);
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if (position) planePosition = Quaternion.Inverse(t) * (transform.position - planeBone1.position);
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}
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/*
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* Sets the virtual position for this bone
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* */
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public void SetIKPosition() {
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ikPosition = transform.position;
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}
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/*
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* Stores the current rotation for later use.
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* */
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public void MaintainRotation() {
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maintainRotation = transform.rotation;
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}
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#endregion Reading
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#region Writing
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/*
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* Moves the bone to its virtual position
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* */
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public void SetToIKPosition() {
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transform.position = ikPosition;
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}
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/*
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* Moves the bone to the solver position of its node
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* */
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public void FixToNode(IKSolverFullBody solver, float weight, IKSolver.Node fixNode = null) {
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if (fixNode == null) fixNode = solver.GetNode(chainIndex, nodeIndex);
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if (weight >= 1f) {
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transform.position = fixNode.solverPosition;
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return;
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}
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transform.position = Vector3.Lerp(transform.position, fixNode.solverPosition, weight);
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}
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/*
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* Gets the bone's position relative to its 3 plane nodes
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* */
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public Vector3 GetPlanePosition(IKSolverFullBody solver) {
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return solver.GetNode(plane1ChainIndex, plane1NodeIndex).solverPosition + (GetTargetRotation(solver) * planePosition);
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//return planeNode1.solverPosition + (targetRotation * planePosition);
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}
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/*
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* Positions the bone relative to its 3 plane nodes
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* */
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public void PositionToPlane(IKSolverFullBody solver) {
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transform.position = GetPlanePosition(solver);
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}
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/*
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* Rotates the bone relative to its 3 plane nodes
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* */
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public void RotateToPlane(IKSolverFullBody solver, float weight) {
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Quaternion r = GetTargetRotation(solver) * defaultLocalTargetRotation;
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if (weight >= 1f) {
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transform.rotation = r;
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return;
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}
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transform.rotation = Quaternion.Lerp(transform.rotation, r, weight);
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}
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/*
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* Swings to the swing target
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* */
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public void Swing(Vector3 swingTarget, float weight) {
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Swing(swingTarget, transform.position, weight);
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}
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/*
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* Swings to a direction from pos2 to pos1
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* */
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public void Swing(Vector3 pos1, Vector3 pos2, float weight) {
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Quaternion r = Quaternion.FromToRotation(transform.rotation * localSwingAxis, pos1 - pos2) * transform.rotation;
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if (weight >= 1f) {
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transform.rotation = r;
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return;
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}
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transform.rotation = Quaternion.Lerp(transform.rotation, r, weight);
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}
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/*
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* Twists to the twist target
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* */
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public void Twist(Vector3 twistDirection, Vector3 normalDirection, float weight) {
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Vector3.OrthoNormalize(ref normalDirection, ref twistDirection);
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Quaternion r = Quaternion.FromToRotation(transform.rotation * localTwistAxis, twistDirection) * transform.rotation;
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if (weight >= 1f) {
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transform.rotation = r;
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return;
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}
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transform.rotation = Quaternion.Lerp(transform.rotation, r, weight);
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}
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/*
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* Rotates back to the last animated local rotation
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* */
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public void RotateToMaintain(float weight) {
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if (weight <= 0f) return;
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transform.rotation = Quaternion.Lerp(transform.rotation, maintainRotation, weight);
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}
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/*
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* Rotates to match the effector rotation
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* */
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public void RotateToEffector(IKSolverFullBody solver, float weight) {
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if (!isNodeBone) return;
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float w = weight * solver.GetNode(chainIndex, nodeIndex).effectorRotationWeight;
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if (w <= 0f) return;
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if (w >= 1f) {
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transform.rotation = solver.GetNode(chainIndex, nodeIndex).solverRotation;
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return;
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}
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transform.rotation = Quaternion.Lerp(transform.rotation, solver.GetNode(chainIndex, nodeIndex).solverRotation, w);
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}
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#endregion Writing
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/*
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* Rotation of plane nodes in the solver
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* */
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private Quaternion GetTargetRotation(IKSolverFullBody solver) {
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Vector3 p1 = solver.GetNode(plane1ChainIndex, plane1NodeIndex).solverPosition;
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Vector3 p2 = solver.GetNode(plane2ChainIndex, plane2NodeIndex).solverPosition;
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Vector3 p3 = solver.GetNode(plane3ChainIndex, plane3NodeIndex).solverPosition;
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if (p1 == p3) return Quaternion.identity;
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return Quaternion.LookRotation(p2 - p1, p3 - p1);
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//if (planeNode1.solverPosition == planeNode3.solverPosition) return Quaternion.identity;
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//return Quaternion.LookRotation(planeNode2.solverPosition - planeNode1.solverPosition, planeNode3.solverPosition - planeNode1.solverPosition);
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}
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/*
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* Rotation of plane nodes in the animation
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* */
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private Quaternion lastAnimatedTargetRotation {
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get {
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if (planeBone1.position == planeBone3.position) return Quaternion.identity;
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return Quaternion.LookRotation(planeBone2.position - planeBone1.position, planeBone3.position - planeBone1.position);
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}
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}
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}
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/// <summary>
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/// Determines whether this IKMapping is valid.
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/// </summary>
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public virtual bool IsValid(IKSolver solver, ref string message) {
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return true;
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}
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#endregion Main Interface
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public virtual void Initiate(IKSolverFullBody solver) {}
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protected bool BoneIsValid(Transform bone, IKSolver solver, ref string message, Warning.Logger logger = null) {
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if (bone == null) {
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message = "IKMappingLimb contains a null reference.";
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if (logger != null) logger(message);
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return false;
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}
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if (solver.GetPoint(bone) == null) {
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message = "IKMappingLimb is referencing to a bone '" + bone.name + "' that does not excist in the Node Chain.";
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if (logger != null) logger(message);
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return false;
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}
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return true;
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}
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/*
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* Interpolates the joint position to match the bone's length
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*/
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protected Vector3 SolveFABRIKJoint(Vector3 pos1, Vector3 pos2, float length) {
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return pos2 + (pos1 - pos2).normalized * length;
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}
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}
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}
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