Given a list of tuples containing coordinates, I want to find which coordinate is the closest to a coordinate I give in input:

cooList = [(11.6702634, 72.313323), (31.67342698, 78.465323)]
coordinate = (11.6702698, 78.113323)
takenearest(myList, myNumber)
(11.6702634, 72.313323)

Please let me know...

  • 3
    show your attempts.. – Avinash Raj Feb 5 '15 at 8:20
  • 5
    It will help us give you a better answer if you show us what you've already tried. This way you won't say "Oh, thanks for trying to help, but I already tried that. " – Patrick Falvey Feb 5 '15 at 8:23
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    How do you define distance? – L3viathan Feb 5 '15 at 8:35

For your data

cooList = [(11.6702634, 72.313323), (31.67342698, 78.465323)]
coordinate = (11.6702698, 78.113323)

the shortest Pythonic answer is:

nearest = min(cooList, key=lambda x: distance(x, coordinate))

with a function distance(a, b) returning the distance between the points a and b as a float, which you have to define yourself.

Now you have to decide how you calculate the distance: using simple a² + b² = c², some geographical formula or a dedicated library.

  • There is an error:NameError: global name 'distance' is not defined – Jothimani Feb 5 '15 at 8:52
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    @Jothimani You have to implement it yourself. – sloth Feb 5 '15 at 8:54
  • Please let me know clearly!!! – Jothimani Feb 5 '15 at 8:56
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    @Jothimani Please don't tell me you can't google python points distance – sloth Feb 5 '15 at 9:00
  • @Jothimani: You could use the math.hypot() function to calculate the Euclidean distance. Note however that you don't really need the actual distance to find the d1 < d2 closest—a common speed-up when doing distance comparisons is to use the distances squared which avoids the need to take a computationally-expensive square-root to obtain an actual distance. This is because for positive numbers, if d1 < d2 then d1² < d2² will also be true. – martineau Nov 23 '17 at 16:07

If I understand you right, you want the coordinate from the list that has the least distance to the given coordinate. That means you can just loop through the list like that:

def closest_coord(list, coord):
    closest = list[0]
    for c in list:
        if distance(c, coord) < distance(closest, coord):
            closest = c
    return closest

To calculate the distance between two variables, just use Pythagoras.

def distance(co1, co2):
    return sqrt(pow(abs(co1[0] - co2[0]), 2) + pow(abs(co1[1] - co2[2]), 2))

I hope this helps!

  • You can skip the sqrt for speed. – Selcuk Feb 5 '15 at 8:42
  • I know, for this case that will work, however, the returned value wouldn't be the distance between the two points anymore. If @Jothimani needs special speed because their list is kinda huge (e.g.) they can just modify the code to make it fit their needs. – 1Darco1 Feb 5 '15 at 8:48
>>> min(cooList, key=lambda c: (c[0]- coordinate[0])**2 + (c[1]-coordinate[1])**2)
(11.6702634, 72.313323)
  • Ugh. Why not use some pythonic functions like min or math.hypot? No need to reinvent the wheel.... – sloth Feb 5 '15 at 8:51
  • @sloth here it is. ;-) – John Hua Feb 5 '15 at 9:19
  • You could also use key=lambda c: math.hypot(c[0]- coordinate[0], c[1]-coordinate[1]). Note that you also have a typo: coordinate[0] instead of coordinate[1] – sloth Feb 5 '15 at 9:32
  • Thanks for correction. I agree that math.hypot is better in some sense but sometimes I thought the math lib is really over-designed. – John Hua Feb 5 '15 at 11:38
  • The Euclidean distance is not very useful with latitude & longitude. It's ok for small distances, but it doesn't work so well for larger distances &/or in regions near the poles. – PM 2Ring Feb 7 '15 at 4:59

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