```
float pts[N][4]={{x1,y1,z1,v1},{x2,y2,z2,v2},...,{xN,yN,zN,vN}};
//in viewsight(0,0)-(w,h);
//N==w*h
//if pts[n][3]==0 then pts[n] is invalid
```

How to evaluate the normal vectors for each valid pts?

The pts is the points in Point-cloud-data， and being seen in a viewsight sized in (w,h);

something like this:

```
p11,p12,p13...p1w,
p21,p22,p23...p2w,
...
...
ph1,ph2,ph3...phw,
```

Each point is assosiated by their neighbors, and generate a surface together to us.

The pts are arranged tightly one by one, rows and columns. And the task of us is to find a way to evaluate the normal vector of each point toward our viewsight as more exactly as possible.

I'm trying to do this in real-time indeed for the pts is generated in real-time. For example counting 1024x1024 pts at a time. Is there a resolution someone have publish before?