I would like to get the center point(x,y) of a figure created by a set of points.

How do I do this?

  • 6
    Define "center". Center of gravity? Centroid? Something else? – Karl Knechtel Dec 4 '10 at 21:22
  • This is more like a math related question. I think in this exellent book: openbookproject.net/thinkcs I dont remember if in python or C++, there are some examples of what you are trying to achieve. – mRt Dec 4 '10 at 21:28

If you mean centroid, you just get the average of all the points.

x = [p[0] for p in points]
y = [p[1] for p in points]
centroid = (sum(x) / len(points), sum(y) / len(points))
  • 4
    But be careful with integer division in Python 2.x: if every point has an integer x value, the x value of your centroid will be rounded down to an integer. Use from __future__ import division, explicitly convert to a float before division, or use Python 3. – Thomas K Dec 4 '10 at 21:33
  • 7
    If points is a two-dimensional Numpy array, you can probably just use points.mean(0). – Philipp Dec 4 '10 at 21:53
  • Thank you this is what i wanted. – Dominik Szopa Dec 5 '10 at 10:08
  • 5
    that is not the centroid, is just the average of the points. If you want to compute the centroid, you have to use Green's theorem for discrete segments, as in en.wikipedia.org/wiki/Centroid#Centroid_of_polygon – chuse Oct 15 '15 at 13:39

I assume that a point is a tuple like (x,y).

center=(max(x)+min(x))/2., (max(y)+min(y))/2.
  • Shouldn't that be max + min, not max - min? – Thomas K Dec 4 '10 at 21:54
  • @Thomas K: You are absolutely right. – Kabie Dec 4 '10 at 22:06
  • trying to understand what this is doing... why do we 'add' the min to the max? The answer from @colin makes sense to me, but wasn't sure why this works too. – Futile32 Feb 22 '15 at 4:48

If the set of points is a numpy array positions of sizes N x 2, then the centroid is simply given by:

centroid = positions.mean(axis=0)

It will directly give you the 2 coordinates a a numpy array.

In general, numpy arrays can be used for all these measures in a vectorized way, which is compact and very quick compared to for loops.

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