My algorithm computes the vertices of a shape in 3-dimensional space by using a 2-dimensional loop iterating over the U and V segments.

```
for (LONG i=0; i < info.useg + 1; i++) {
// Calculate the u-parameter.
u = info.umin + i * info.udelta;
for (LONG j=0; j < info.vseg + 1; j++) {
// Calculate the v-parameter.
v = info.vmin + j * info.vdelta;
// Compute the point's position.
point = calc_point(op, &info, u, v);
// Set the point to the object and increase the point-index.
points[point_i] = point;
point_i++;
}
}
```

The array of points is however a one-dimensional array, which is why `point_i`

is incremented in each loop. I know that I could compute the index via `point_i = i * info.vseg + j`

.

I want this loop to be multithreaded. My aim was to create a number of threads that all process a specific range of points. In the thread, I'd do it like:

```
for (LONG x=start; x <= end; x++) {
LONG i = // ...
LONG j = // ...
Real u = info.umin + i * info.udelta;
Real v = info.vmin + j * info.vdelta;
points[i] = calc_point(op, &info, u, v);
}
```

The problem is to calculate the `i`

and `j`

indecies from the linear point-index. How can I compute `i`

and `j`

when (well I think):

```
point_i = i * vsegments + j
```

I'm unable to solve the math, here..