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Let us suppose we have a number circle, that ranges from -180 to 180, looking something like this:

         *** ***
    90 ***     *** -90
         *** ***

A section of the circle is always swept in a clockwise direction. How can you tell if a number is inside or outside of the interval swept?

In the following sample I/O, the first two numbers represent the interval and the third number is the number being checked. Output is true if the point is (inclusively) inside the interval, false otherwise.

2 4 6
2 4 4
90 -90 0
90 -90 -180
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so all these intervals in the sample I/O check against the -180/180 circle? – nbz Jul 7 '11 at 16:23
up vote 11 down vote accepted
  • Normalize your numbers from 0 to 359. Consider the arguments a, b and c (is c inside the sweep of a -> b). As pointed out by Chris Cunningham, you can also normalize to -180 to +179; see discussion below. The important part of normalization is to make sure only one number refers to each point on the circle.

  • If (a <= b) then return (c >= a && c <= b)

  • else you've swept across the 0 point and should return (c >= b || c <= a) (c >= a || c <= b)

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I would say: if (a > b) then return (c >= a || c <= b). Example: a = 270, b = 90, c = 300, should return true (c in a->b). – Jiri Jul 7 '11 at 16:43
@Jiri: You're right, I have updated the answer with the correct variables. – tomlogic Jul 7 '11 at 16:54
@Chris, main reason is that 180/-180 refer to the same point, so (170, 180, -180) should return true. If it's also necessary to treat 270/-90 as equal, normalizing fixes that. Finally, it's easier to do the range checking in a case of -90 to -140 (which covers -90, 0, 90, 180, -180, -140. – tomlogic Jul 7 '11 at 21:55
@tomlogic I agree that he needs to get rid of issues where the same location is referenced by two different numbers; since he preferred -180 to 180, I guess I would have told him to normalize the numbers from -180 to +179. It turns out it's a minor quibble; removing my -1. Edit: Apparently you can't remove downvotes unless the answer is edited. I learn something new every day... :/ – Chris Cunningham Jul 8 '11 at 18:02
@Chris, minor but fair quibble. I've edited my answer with a note regarding your normalization comments. – tomlogic Jul 8 '11 at 23:00

All the points x that are in [a,b] verifies :

if a%360<=b%360:

(x)%360<=b%360 and x%360>=a%360 if you process in the direct sens.

otherwise your intervall contains 0, and you can just verify. x in[a,b]


def f(x,a,b):
    if a%360<=b%360:
        return ((x)%360<=b%360 and x%360>=a%360)
        return b>=x>=a

does what you need.

>>> f(0,90,-90)
>>> f(-180,90,-90)
>>> f(4,2,4)
>>> f(6,2,4)

I might inverse some things.. so you wil may be need to check it again.

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I guess this only works in languages where negative numbers are converted to positive ones on modulo operations. Because -4%10 = -4 is true too. In this case you would have to test whether the number is still negative and subtract it from 360. – Felix Kling Jul 7 '11 at 16:45
Yes, you're right. if this function can return a negative number, you will need to define the positive remain of the euclidian division by 360 in another function. – Ricky Bobby Jul 7 '11 at 21:57
@Ricky Bobby: How is x<=b and x>=a different from b>=x>=a? I think your logic is a mixed up version of my answer... – tomlogic Jul 8 '11 at 23:06
@tomlogic: Yes you're right. I first wrote only the first test: x)%360<=b%360 and x%360>=a%360 and I realise afterwards it was not sufficient. the only difference here is that my test is on a%360<=b%360 (not equivalent to a<=b) but the results are the same. – Ricky Bobby Jul 10 '11 at 8:36

You have start and end as endpoints of the intervall.

range = 360
if start > end:
    if number > start:
        end += range
        start -= range
inside = (number >= start) and (number <= end)
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