using System.Collections.Generic; using UnityEngine.Scripting.APIUpdating; namespace UnityEngine.U2D.IK { /// /// Component for 2D Limb IK. /// [MovedFrom("UnityEngine.Experimental.U2D.IK")] [Solver2DMenuAttribute("Limb")] public class LimbSolver2D : Solver2D { [SerializeField] IKChain2D m_Chain = new IKChain2D(); [SerializeField] bool m_Flip; Vector3[] m_Positions = new Vector3[3]; float[] m_Lengths = new float[2]; float[] m_Angles = new float[2]; /// /// Get Set for flip property. /// public bool flip { get => m_Flip; set => m_Flip = value; } /// /// Override base class DoInitialize. /// protected override void DoInitialize() { m_Chain.transformCount = m_Chain.effector == null || IKUtility.GetAncestorCount(m_Chain.effector) < 2 ? 0 : 3; base.DoInitialize(); } /// /// Override base class GetChainCount. /// /// Always returns 1. protected override int GetChainCount() => 1; /// /// Override base class GetChain. /// /// Index to query. /// Returns IKChain2D for the Solver. public override IKChain2D GetChain(int index) => m_Chain; /// /// Override base class DoPrepare. /// protected override void DoPrepare() { var lengths = m_Chain.lengths; m_Positions[0] = m_Chain.transforms[0].position; m_Positions[1] = m_Chain.transforms[1].position; m_Positions[2] = m_Chain.transforms[2].position; m_Lengths[0] = lengths[0]; m_Lengths[1] = lengths[1]; } /// /// Override base class DoUpdateIK. /// /// List of effector positions. protected override void DoUpdateIK(List effectorPositions) { var effectorPosition = effectorPositions[0]; var effectorLocalPosition2D = m_Chain.transforms[0].InverseTransformPoint(effectorPosition); effectorPosition = m_Chain.transforms[0].TransformPoint(effectorLocalPosition2D); if (effectorLocalPosition2D.sqrMagnitude > 0f && Limb.Solve(effectorPosition, m_Lengths, m_Positions, ref m_Angles)) { var flipSign = flip ? -1f : 1f; m_Chain.transforms[0].localRotation *= Quaternion.FromToRotation(Vector3.right, effectorLocalPosition2D) * Quaternion.FromToRotation(m_Chain.transforms[1].localPosition, Vector3.right); m_Chain.transforms[0].localRotation *= Quaternion.AngleAxis(flipSign * m_Angles[0], Vector3.forward); m_Chain.transforms[1].localRotation *= Quaternion.FromToRotation(Vector3.right, m_Chain.transforms[1].InverseTransformPoint(effectorPosition)) * Quaternion.FromToRotation(m_Chain.transforms[2].localPosition, Vector3.right); } } } }