Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I have a problem with a short function to calculate the midpoint of a line when given the latitude and longitude of the points at each end. To put it simply, it works correctly when the longitude is greater than -90 degrees or less than 90 degrees. For the other half of the planet, it provides a somewhat random result.

The code is a python conversion of javascript provided at, and appears to conform to the corrected versions here and here. When comparing with the two stackoverflow versions, I'll admit I don't code in C# or Java, but I can't spot where my error is.

Code is as follows:


import math

def midpoint(p1, p2):
   lat1, lat2 = math.radians(p1[0]), math.radians(p2[0])
   lon1, lon2 = math.radians(p1[1]), math.radians(p2[1])
   dlon = lon2 - lon1
   dx = math.cos(lat2) * math.cos(dlon)
   dy = math.cos(lat2) * math.sin(dlon)
   lat3 = math.atan2(math.sin(lat1) + math.sin(lat2), math.sqrt((math.cos(lat1) + dx) * (math.cos(lat1) + dx) + dy * dy))
   lon3 = lon1 + math.atan2(dy, math.cos(lat1) + dx)
   return(math.degrees(lat3), math.degrees(lon3))

p1 = (6.4, 45)
p2 = (7.3, 43.5)
print "Correct:", midpoint(p1, p2)

p1 = (95.5,41.4)
p2 = (96.3,41.8)
print "Wrong:", midpoint(p1, p2)

Any suggestions?

share|improve this question
Take comfort: is also wrong. – S.Lott May 5 '11 at 11:09
@S.Lott: what's wrong with the utexas code? – John Machin May 5 '11 at 11:15
@S.Lott: WHAT same error for short distances?? – John Machin May 5 '11 at 21:13
@John Machin: The second example provides an answer that does not appear to be between the two points. – S.Lott May 5 '11 at 21:34
@S.Lott: If you mean the OP's second example p1=(95.5,41.4) etc: 95.5 degrees of LATITUDE is invalid -- it would be further north than the North Pole. Read my answer -- the OP got lat and lon reversed and has confessed. If you mean something else, please explain. – John Machin May 5 '11 at 22:06

2 Answers 2

up vote 4 down vote accepted

Replace your arg set up code by:

lat1, lon1 = p1
lat2, lon2 = p2
assert -90 <= lat1 <= 90
assert -90 <= lat2 <= 90
assert -180 <= lon1 <= 180
assert -180 <= lon2 <= 180
lat1, lon1, lat2, lon2 = map(math.radians, (lat1, lon1, lat2, lon2))

and run your code again.

Update A few hopefully-helpful general suggestions about calculations involving latitude/longitude:

  1. Input lat/lon in degrees or radians?
  2. Check input lat/lon for valid range
  3. Check OUTPUT lat/lon for valid range. Longitude has a discontinuity at the international dateline.

The last part of the midpoint routine could be usefully changed to avoid a potential problem with long-distance use:

lon3 = lon1 + math.atan2(dy, math.cos(lat1) + dx)
# replacement code follows:
lon3d = math.degrees(lon3)
if lon3d < -180:
    print "oops1", lon3d
    lon3d += 360
elif lon3d > 180:
    print "oops2", lon3d
    lon3d -= 360
return(math.degrees(lat3), lon3d)

For example, finding a midpoint between Auckland, New Zealand (-36.9, 174.8) and Papeete, Tahiti (-17.5, -149.5) produces oops2 194.270430902 on the way to a valid answer (-28.355951246746923, -165.72956909809082)

share|improve this answer
corrected to assert p1[0] etc. and now I feel like an idiot - yep, the latitude and longitude were the wrong way round. Still provided the right answers for half the planet though! Thanks John. – ichneumonad May 5 '11 at 10:58
@ichneumonad: refer to my edited version for suggested better style than all that p0[1] stuff – John Machin May 5 '11 at 11:02
@ichneumonad: I'm finding it a bit hard to believe that swapping lat and lon gives the same answer for "half the planet". For example: midpoint((1, 2), (3, 4)) produces (2.0003044085023722, 2.999390393801055) but midpoint((2, 1), (4, 3)) produces (3.0004561487854735, 1.9990851259125342) – John Machin May 9 '11 at 0:42

First of all, apologies that I'm leaving another answer. I have a solution to the problem mentioned in that answer involving how to find the midpoint of two points on either side of the dateline. I'd love to simply add a comment to the existing answer, but I don't have the reputation to do so.

The solution was found by looking at the Javascript files powering the tool at I'm using shapely.geometry.Point. If you don't want to install this package, then using tuples instead would work just the same.

def midpoint(pointA, pointB):
    lonA = math.radians(pointA.x)
    lonB = math.radians(pointB.x)
    latA = math.radians(pointA.y)
    latB = math.radians(pointB.y)

    dLon = lonB - lonA

    Bx = math.cos(latB) * math.cos(dLon)
    By = math.cos(latB) * math.sin(dLon)

    latC = math.atan2(math.sin(latA) + math.sin(latB),
                  math.sqrt((math.cos(latA) + Bx) * (math.cos(latA) + Bx) + By * By))
    lonC = lonA + math.atan2(By, math.cos(latA) + Bx)
    lonC = (lonC + 3 * math.pi) % (2 * math.pi) - math.pi

    return Point(math.degrees(lonC), math.degrees(latC))

I hope this is helpful and not regarded as inappropriate seeing as how it is an answer to the question raised in the previous answer.

share|improve this answer

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.