For radial slices (circular sectors), you have a couple of alternatives:

- Use
`Math.atan2`

to calculate the 4-quadrant angle of the line from the circle center to the point. Compare to the slice angles to determine the slice index.
- For a particular slice, you can test which side of each slice edge the point falls. Classify the point accordingly. This is more complicated to calculate but probably faster (for a single slice) than calling
`Math.atan2`

.

The following sample code calculates the slice index for a particular point:

```
int sliceIndex(double xx, double yy, double x, double y, int nSlices) {
double angle = Math.atan2(yy - y, xx - x);
double sliceAngle = 2.0 * Math.PI / nSlices;
return (int) (angle / sliceAngle);
}
```

The above code makes the following assumptions:

- slices are all the same (angular) width
- slices are indexed counter-clockwise
- slice 0 starts at the +x axis
- slices own their right edge but not their left edge

You can adjust the calculations if these assumptions do not apply. (For instance, you can subtract the start angle from `angle`

to eliminate assumption 3.)

`Math.hypot`

instead of squaring things yourself and calling`Math.sqrt`

. Your code could be reduced to a single, easily understood line:`return Math.hypot(xx-x, yy-y) <= radius;`

. – Ted Hopp Mar 1 '13 at 18:32