public void Deform(Vector3 impactVector, Vector3 simplifiedVector)
{
Deform_local(impactVector, simplifiedVector, mFilter.sharedMesh);
ThreadTools.WaitForThreads(ref threads);
threads.Clear();
mFilter.sharedMesh.vertices = thread_vertices;
mFilter.sharedMesh.RecalculateBounds();
Deform_local(impactVector, simplifiedVector, simplifiedMesh);
ThreadTools.WaitForThreads(ref threads);
threads.Clear();
simplifiedMesh.vertices = thread_vertices;
UpdateMeshCollider();
}
public void Deform(int meshIndex)
{
if (meshIndex > bMeshes.Length - 1)
{
return;
}
thread_pts = new Vector3[bMeshes[meshIndex].origVerts.Length];
BendParameters bp = new BendParameters();
bp.N = ts_transform.TransformDirection(1, 0, 0);
bp.BiN = ts_transform.TransformDirection(0, 0, -1);
bp.T = ts_transform.TransformDirection(0, 1, 0);
bp.bendEnd = ts_targetTransform.TransformPoint(0, length, 0);
int start = (direction) ? 0 : bMeshes[meshIndex].seperatingIndex;
int end = (direction) ? bMeshes[meshIndex].seperatingIndex : bMeshes[meshIndex].origVerts.Length;
for (int i = start; i < end; i += maxWorkGroupSize)
{
int workgroupSize = (i + maxWorkGroupSize < bMeshes[meshIndex].origVerts.Length) ? maxWorkGroupSize : bMeshes[meshIndex].origVerts.Length - i;
threads.Add(StartThread(i, i + workgroupSize, ts_transform, ts_targetTransform, bp, meshIndex));
}
start = (direction) ? bMeshes[meshIndex].seperatingIndex : 0;
end = (direction) ? bMeshes[meshIndex].origVerts.Length : bMeshes[meshIndex].seperatingIndex;
for (int i = start; i < end; i++)
{
thread_pts[i] = bMeshes[meshIndex].origVerts[i];
}
ThreadTools.WaitForThreads(ref threads);
bMeshes[meshIndex].mesh.vertices = thread_pts;
}
