# Java - How to check of a point is inside a sliceof a circle

I have a circle drawn, and I want to make it so I can have more slices than four. I can easily do four quadrants because I just check if the mouse in in the circle and inside a box.

This is how I am checking if the point is in the circle.

``````if( Math.sqrt((xx-x)*(xx-x) + (yy-y)*(yy-y)) <= radius)
{
return true;
}
else
{
return false;
}
``````

How can I modify this if the circle is divided into more than 4 regions?

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This sounds more like maths than programming, to be honest... – Jon Skeet Mar 1 '13 at 18:16
Are these radial slices? How are they represented? Also, I don't see how your code is checking for four slices. – Ted Hopp Mar 1 '13 at 18:20
Do you mean circular sectors (en.wikipedia.org/wiki/Circular_sector)? – rgettman Mar 1 '13 at 18:22
Yeah, I mean circular sectors, and I am checking for four sectors by also checking a box, sorry I didn't make that clear. – user2124641 Mar 1 '13 at 18:23
You might want to use `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

First we can check that the point is within the circle as you did. But I woudln't combine this with a check for which quadrant (is that why you have radius/2 ?)

``````if( (xx-x)*(xx-x) + (yy-y)*(yy-y) > radius*radius)
return false;
``````

Now we can look to see which region the point is in by using the atan2 function. `atan2` is like Arctan except the Arctangent function always returns a value between -pi/2 and pi/2 (-90 and +90 degrees). We need the actual angle in polar coordinate fashion. Now assuming that (x,y) is the center of your circle and we are interested in the location of the point (xx,yy) we have

``````  double theta = Math.atan2(yy-y,xx-x);
//theta is now in the range -Math.PI to Math.PI
if(theta<0)
theta = Math.PI - theta;
//Now theta is in the range [0, 2*pi]
//Use this value to determine which slice of the circle the point resides in.
//For example:
int numSlices = 8;
int whichSlice = 0;
double sliceSize = Math.PI*2 / numSlices;
double sliceStart;
for(int i=1; i<=numSlices; i++) {
sliceStart = i*sliceSize;
if(theta < sliceStart) {
whichSlice = i;
break;
}
}
//whichSlice should now be a number from 1 to 8 representing which part of the circle
// the point is in, where the slices are numbered 1 to numSlices starting with
// the right middle (positive x-axis if the center is (0,0).
``````
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You probably meant `Math.atan2(yy-y, xx-x)` (two arguments instead of one). – Ted Hopp Mar 1 '13 at 18:29
Just saw that too, thanks, I'll try this out after I do some other stuff. – user2124641 Mar 1 '13 at 18:30
Mad props to you, thanks a tonne. – user2124641 Mar 1 '13 at 18:35
@TedHopp Thank you for pointing out the error. It's fixed. – Thorn Mar 1 '13 at 18:36

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

1. 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.
2. 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.)

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It is more a trig problem Try something like this.

`````` int numberOfSlices=8;

double angleInDegrees=(Math.toDegrees(Math.atan2(xx-x ,yy-y)));

long slice= Math.round(( numberOfSlices*angleInDegrees )/360 );
``````
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