Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I need the size of the black part of this image:

I've done some research about how to find it in normal math, and I was pointed to this website: Website

The final answer on getting it was pict

where r is the radius of the first circle, R the radius of the second circle, and d the distance between the two centers.

The code I tried to use to get the size of this was the following:

float r = getRadius1();
float R = e.getRadius1();
float deltaX = Math.abs((getX()  + getRadius()) - (e.getX() + e.getRadius()));
float deltaY =  Math.abs((getY()  + getRadius()) - (e.getY() + e.getRadius()));
float d = (float) Math.sqrt(Math.pow(deltaX, 2) + Math.pow(deltaY, 2));

float part, part2, part3;
//Chopping it in parts, because it's easier.

part = (float) (Math.pow(r,2) * Math.acos(
      Math.toRadians((Math.pow(d, 2) + Math.pow(r, 2) - Math.pow(R, 2))/(2*d*r))));

part2 = (float) (Math.pow(R,2) * Math.acos(
      Math.toRadians((Math.pow(d, 2) + Math.pow(R, 2) - Math.pow(r, 2))/(2*d*R))));

part3 = (float) (0.5 * Math.sqrt((-d + r + R) * (d+r-R) * (d-r+R) * (d+r+R)));

float res = part + part2 - part3; 

Main.log(res + "       " + part + " " + part2 + " " + part3+ "       "
         + r + " " + R  + " " + d);
//logs the data and System.out's it

I did some testing, and the output was this:

1345.9663       621.6233 971.1231 246.78008       20.0 25.0 43.528286

So that indicates that the size of the overlapping part was bigger than the circle itself (which is r^2 * PI).

What did I do wrong?

share|improve this question
I would use double instead of float as it will have less representation error, but not enough to explain yours. ;) –  Peter Lawrey Jan 10 '12 at 16:38
Can you show us the formula for deltaX and Y because they don't look right? What is the difference between getRadius() and getRadius1() ? –  Peter Lawrey Jan 10 '12 at 16:40
Why do you have getRadius1() and e.getRadius1()? Are you forgetting to get the radius of r? –  Max Jan 10 '12 at 16:41
Just as a side note: try caching the Math.pow(x, 2) operations (where x is r, R or d) as it makes things easier to read and increases performance (those values are caluclated multiple times and they don't change during the calculation, do they? :) ). –  Thomas Jan 10 '12 at 16:49
Exemplary question. Hope you don't mind my reformat, just a bit more whitespace and got rid of the horizontal scrollbar in the code block. Note that with Markdown you don't need to supply <br/> to get linebreaks. –  AakashM Jan 10 '12 at 17:17

1 Answer 1

up vote 5 down vote accepted

Just a guess (as stated in my comment): try removing the Math.toRadians(...) conversion.

Since there are no degrees involved in the formula but rather radii, I assume the parameter to cos-1(...) is already a value in radians.

If I remove the conversion and run your code, I get the following overlap area size: 11.163887023925781 which seems plausible since the length of the overlap segment on the line between the two centers is 20 + 25 - 43.5 = 1.5 (approximated)


If I set the distance to 5 (the smaller circle is completely contained in the bigger one but touches its edge) I get the overlap area size 1256.63 which is exactly the area of the smaller circle (202 * Π). The calculation doesn't seem to work if the distance is smaller than the difference of the radii (i.e. in your case smaller than 5), but that might just be a problem of numerical representation (the normal datatypes might not be able to represent some of the intermediate results).

share|improve this answer
Math.acos(Math.toRadians(...)) is definitely wrong, as the argument to Math.acos() is not an angle. The argument to Math.acos() should be a value between -1 and 1, and will return a value in radians. –  Simon Nickerson Jan 10 '12 at 17:13
This did it, thanks. –  Lolmewn Jan 10 '12 at 18:26

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.