# Check if a circle is contained in another circle

I'm trying to check if a circle is contained within another circle. I'm not sure if the math behind it is the problem or if its my if statement because I keep getting `True` for anything I pass.

``````#Get_center returns (x,y)
def contains(self,circle):
distance = round(math.sqrt((circle.get_center()[0]-self.get_center()[0])**2 + (circle.get_center()[1] - self.get_center()[1])**2))
if distance_2 > distance:
return True        #Circle 2 is contained within circle 1
``````
• Do you mean thoroughly contained ? Or partially? Nov 3, 2015 at 2:26
• @CroCo The entire circle would have to be contained Nov 3, 2015 at 2:35
• dont you think self radius should enter the calculation? Nov 3, 2015 at 2:38
• @CroCo what do you mean by assumptions? Nov 3, 2015 at 2:42
• Well, your distance_2 is always distance + some positive number. So checking if distance_2 is greater than distance, will always be true. Well, you might get false if `circle` has radius 0. Nov 3, 2015 at 3:17

I don't know about python but the math is simple. See the below picture

To check if circle 2 inside circle 1,

``````compute d
d = sqrt( (x2-x1)^2 + (y2-y1)^2 );
get c2 and c1
if c1 > ( d + c2 )
circle 2 inside circle 1
else
circle 2 not inside circle 1
``````
• Nice picture, makes answer obvious. Nov 3, 2015 at 3:09
• Good answer, just going to say you can do it without sqrt: ( (x2-x1)^2 + (y2-y1)^2 ) > ( d + c2 )^2 Dec 2, 2019 at 19:39

You have `distance_2 = distance + circle.get_radius()`, so `distance_2` will always be higher than `distance` and `distance_2 > distance` will always be true.

CODE ACCORDING TO THE IMAGE IN THE ACCEPTED ANSWER (without getters, as it's more readable):

``````import math
def contains(self, circle):
d = math.sqrt(
(circle.center[0] - self.center[0]) ** 2 +
(circle.center[1] - self.center[1]) ** 2)
``````

I used it, and it works. In the following plot, you can see how the circles completely contained in the red big one are painted in green, and the others in black:

If you want strict containment, that means that the absolute value of the difference of radii will be less than the distance between centers. You can exploit that in order to avoid taking square root (because squares of two positive numbers will have the same order as the numbers themselves):

``````def contains(self,circle):
distance_squared = (circle.get_center()[0]-self.get_center()[0])**2 + (circle.get_center()[1] - self.get_center()[1])**2