private void DetectSoftRigid(RigidBody rigidBody, SoftBody softBody) { if (rigidBody.Shape is Multishape) { Multishape ms = (rigidBody.Shape as Multishape); ms = ms.RequestWorkingClone(); TSBBox transformedBoundingBox = softBody.BoundingBox; transformedBoundingBox.InverseTransform(ref rigidBody.position, ref rigidBody.orientation); int msLength = ms.Prepare(ref transformedBoundingBox); List <int> detected = potentialTriangleLists.GetNew(); softBody.dynamicTree.Query(detected, ref rigidBody.boundingBox); foreach (int i in detected) { SoftBody.Triangle t = softBody.dynamicTree.GetUserData(i); FPVector point, normal; FP penetration; bool result; for (int e = 0; e < msLength; e++) { ms.SetCurrentShape(e); result = XenoCollide.Detect(ms, t, ref rigidBody.orientation, ref FPMatrix.InternalIdentity, ref rigidBody.position, ref FPVector.InternalZero, out point, out normal, out penetration); if (result) { int minIndex = FindNearestTrianglePoint(softBody, i, ref point); RaiseCollisionDetected(rigidBody, softBody.VertexBodies[minIndex], ref point, ref point, ref normal, penetration); } } } detected.Clear(); potentialTriangleLists.GiveBack(detected); ms.ReturnWorkingClone(); } else { List <int> detected = potentialTriangleLists.GetNew(); softBody.dynamicTree.Query(detected, ref rigidBody.boundingBox); foreach (int i in detected) { SoftBody.Triangle t = softBody.dynamicTree.GetUserData(i); FPVector point, normal; FP penetration; bool result; result = XenoCollide.Detect(rigidBody.Shape, t, ref rigidBody.orientation, ref FPMatrix.InternalIdentity, ref rigidBody.position, ref FPVector.InternalZero, out point, out normal, out penetration); if (result) { int minIndex = FindNearestTrianglePoint(softBody, i, ref point); RaiseCollisionDetected(rigidBody, softBody.VertexBodies[minIndex], ref point, ref point, ref normal, penetration); } } detected.Clear(); potentialTriangleLists.GiveBack(detected); } }