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Given two circle segments of the same circle: A=[a1, a2] and B=[b1, b2], with:

  • a1, a2, b1, b2 values in degree between -inf and +inf
  • a1 <= a2 ; b1 <= b2
  • a2-a1<=360; b2-b1<=360

How can I find out if these two circle segments overlap? (i.E. if they intersect or touch in at least one point)


A=[  -45°,    45°]; B=[   10°,   20°] ==> overlap
A=[  -45°,    45°]; B=[   90°,  180°] ==> no overlap
A=[  -45°,    45°]; B=[  180°,  360°] ==> overlap
A=[ -405°,  -315°]; B=[  180°,  360°] ==> overlap
A=[-3600°, -3601°]; B=[ 3601°, 3602°] ==> overlap (touching counts as overlap)
A=[ 3600°,  3601°]; B=[-3601°,-3602°] ==> overlap (touching counts as overlap)
A=[    -1°,    1°]; B=[ 3602°, 3603°] ==> no overlap 

This looks like a deceptively simple problem but I cannot wrap my head around it. I currently have a basic idea for a solution which involves splitting each segment into two if it crosses 0°, but I am not sure if that covers all cases, and I was wondering if there is an elegant formula.

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Given you don't specify radius of circle or center are we to assume that the arcs are on the same circle? –  Chris Aug 2 '12 at 10:29
@HighPerformanceMark I do not think that other question is a duplicate. The answer for that question involves sorting arrays and managing a list of neighboring segments. –  HugoRune Aug 2 '12 at 10:31
@Chris Yes, the segments are on the same circle; I had that in the text, but the title might have been unclear, I modified the question title to reflect this fact –  HugoRune Aug 2 '12 at 10:33
@HighPerformanceMark I just saw you modified the link; that other question looks indeed related, thought they only appear to have angles between 0° and 360°. The answer seems similar to my basic idea of splitting segments, I'd be interested to find out if that is indeed a working solution for my problem, and if there are any better ones? –  HugoRune Aug 2 '12 at 10:38

3 Answers 3

up vote 7 down vote accepted

As @admaoldak mentioned, normalize the degrees first:

a1_norm = a1 % 360
a2_norm = a2 % 360
b1_norm = b1 % 360
b2_norm = b2 % 360

Now to check if b1 is within (a1,a2),

def intersect(b, as, ae
    Intersect = False
    If as > ae:
        if b >= as or b <= ae:
            return True
        if b>=as and b<=ae:
            return True
    return False

Final answer is:

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Thanks! This is what I used; altough if speed were an issue, I think that it would be sufficient to only check for intersect(b1_norm,a1_norm,a2_norm)||intersect(a1_norm,b1_norm,b2_norm) to cover all cases –  HugoRune Aug 3 '12 at 20:58

For an interval [i.X , i.Y] , let's define the normalization i_norm = normalize(i) so that :

1. 0 <= i_norm.X < 360
2. i_norm.X <=i_norm.Y

then we define another operation i_slide = slide(i) so that :

1. i_slide.X = i.X + 360
2. i_slide.Y = i.Y + 360

we can prove that, for your input A and B , A circle-overlaps with B if and only if :

normalize(A) interval-overlaps with normalize(B)


normalize(A) interval-overlaps with slide( normalize(B))

interval-overlaps is defined in the same way as "intersection" in adamoldak's post.

and both operations normalize() and slide() are easy to be implemented.

take your example: A=[-45°,45°]; B=[10°,20°] , we have

normalize(A) = [315,405] 
normalize(B) = [10,20] 
slide( normalize(B) ) = [370,380]

and [315,405] interval-overlaps with [370,380]

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Switch A & B and your example breaks. You need to check norm(A) vs norm(B), slide(norm(A)) vs norm(B) & norm(A) vs slide(norm(B) –  Jxtps Nov 25 '13 at 23:45

How about normalizing each degree value to 0-360:

a1_norm = a1 % 360
a2_norm = a2 % 360
b1_norm = b1 % 360
b2_norm = b2 % 360

Then you just check for intersection:

(a1_norm <= b2_norm) and (a2_norm<= b1_norm) 
share|improve this answer
A=[-45°,45°]; B=[10°,20°] ==> A=[315°,45°]; B=[10°,20°], then a1_norm is > b2_norm despite overlap –  HugoRune Aug 2 '12 at 10:48
Your're right, I oversimplified it :/ –  adamoldak Aug 2 '12 at 13:10

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