private void GetProjectTarget() { if (_projectTarget != null) { finalTarget = new TS_Transform(_projectTarget); } else { finalTarget = new TS_Transform(base.transform); } }
public BendProperty(Transform t, bool isParent = false) { parent = isParent; transform = new TS_Transform(t); originalPosition = t.localPosition; originalScale = t.localScale; originalRotation = t.localRotation; parentRotation = t.transform.rotation; if (t.transform.parent != null) { parentRotation = t.transform.parent.rotation; } filter = t.GetComponent <MeshFilter>(); collider = t.GetComponent <MeshCollider>(); if (filter != null && filter.sharedMesh != null) { originalMesh = filter.sharedMesh; normals = originalMesh.normals; for (int i = 0; i < normals.Length; i++) { normals[i] = transform.transform.TransformDirection(normals[i]).normalized; } } if (collider != null && collider.sharedMesh != null) { originalColliderMesh = collider.sharedMesh; colliderNormals = originalColliderMesh.normals; for (int i = 0; i < colliderNormals.Length; i++) { colliderNormals[i] = transform.transform.TransformDirection(colliderNormals[i]); } } if (!parent) { splineComputer = t.GetComponent <SplineComputer>(); } if (splineComputer != null) { if (splineComputer.isClosed) { originalSpline.Close(); } destinationSpline = new Spline(originalSpline.type); destinationSpline.points = new SplinePoint[originalSpline.points.Length]; destinationSpline.points = splineComputer.GetPoints(); if (splineComputer.isClosed) { destinationSpline.Close(); } } }
void Awake() { tsTransform = new TS_Transform(this.transform); }
private void Awake() { tsTransform = new TS_Transform(base.transform); }