I'm writing a K-Means cluster for a project which uses clusters to identify objects, so the robot is freely almost autonomous. The camera basically captures a picture in a half second

rate, which is stores in a 'blob' of pixels. This blob is sent to the data mining algorithm, k-means, which identify the 'shades' of the object as a cluster, so the robot can be programmed to avoid those areas. I post my k-means code. it's written in python.

```
import sys, math, random
class Point:
def __init__(self, coords, reference=None):
self.coords = coords
self.n = len(coords)
self.reference = reference
def __repr__(self):
return str(self.coords)
class Cluster:
def __init__(self, points):
if len(points) == 0:
raise Exception("ILLEGAL: empty cluster")
self.points = points
self.n = points[0].n # make the first element to be the number of clusters
for p in points:
if p.n != self.n:
raise Exception("ILLEGAL: wrong dimension")
self.centroid = self.calculateCentroid()
def __repr__(self):
return str(self.points)
def update(self, points):
old_centroid = self.centroid
self.points = points
self.centroid = self.calculateCentroid()
return getDistance(old_centroid, self.centroid)
def calculateCentroid(self):
reduce_coord = lambda i:reduce(lambda x,p : x + p.coords[i], self.points, 0.0)
if len(self.points) == 0:
print "Dividing by 0"
self.points = [1]
centroid_coords = [reduce_coord(i) / len(self.points) for i in range(self.n)]
return Point(centroid_coords)
def kmeans(points, k, cutoff):
initial = random.sample(points, k)
clusters = [Cluster([p]) for p in initial]
print clusters
while True:
lists = [ [] for c in clusters]
for p in points:
smallest_distance = getDistance(p, clusters[0].centroid)
index = 0
for i in range(len(clusters[1:])):
distance = getDistance(p, clusters[i+1].centroid)
if distance < smallest_distance:
smallest_distance = distance
index = i+1
lists[index].append(p)
biggest_shift = 0.0
for i in range(len(clusters)):
shift = clusters[i].update(lists[i])
biggest_shift = max(biggest_shift, shift)
if biggest_shift < cutoff:
break
return clusters
def getDistance(a, b):
if a.n != b.n:
raise Exception("ILLEGAL: non comparable points")
ret = reduce(lambda x, y: x + pow((a.coords[y] - b.coords[y]), 2), range(a.n), 0.0)
return math.sqrt(ret)
def makeRandomPoint(n, lower, upper):
return Point([random.uniform(lower, upper) for i in range(n)])
def main():
num_points, dim, k, cutoff, lower, upper = 10, 2, 3, 0.5, 0, 200
points = map(lambda i: makeRandomPoint(dim, lower, upper), range(num_points))
clusters = kmeans(points, k, cutoff)
for i, c in enumerate(clusters):
for p in c.points:
print "Cluster: ", i, "\t Point: ", p
if __name__ == "__main__":
main()
```

Sure enough, it's not working!

```
Traceback (most recent call last):
File "C:\Users\philippe\Documents\workspace-sts-2.7.2.RELEASE\scribber\kmeans\kmeans.py", line 100, in ?
main()
File "C:\Users\philippe\Documents\workspace-sts-2.7.2.RELEASE\scribber\kmeans\kmeans.py", line 92, in main
[ clusters = kmeans(points, k, cutoff)
[[89.152748179548524, 81.217634455465131]], [[83.439023369838509, 169.75355953688432]], [[1.8622622156419633, 41.364078271733739]]]
Dividing by 0
File "C:\Users\philippe\Documents\workspace-sts-2.7.2.RELEASE\scribber\kmeans\kmeans.py", line 69, in kmeans
shift = clusters[i].update(lists[i])
File "C:\Users\philippe\Documents\workspace-sts-2.7.2.RELEASE\scribber\kmeans\kmeans.py", line 35, in update
self.centroid = self.calculateCentroid()
File "C:\Users\philippe\Documents\workspace-sts-2.7.2.RELEASE\scribber\kmeans\kmeans.py", line 43, in calculateCentroid
centroid_coords = [reduce_coord(i) / len(self.points) for i in range(self.n)]
File "C:\Users\philippe\Documents\workspace-sts-2.7.2.RELEASE\scribber\kmeans\kmeans.py", line 39, in <lambda>
reduce_coord = lambda i:reduce(lambda x,p : x + p.coords[i], self.points, 0.0)
File "C:\Users\philippe\Documents\workspace-sts-2.7.2.RELEASE\scribber\kmeans\kmeans.py", line 39, in <lambda>
reduce_coord = lambda i:reduce(lambda x,p : x + p.coords[i], self.points, 0.0)
AttributeError: 'int' object has no attribute 'coords'
```

When I do a print in `lists`

in the function `kmeans(points, k, cutoff)`

I get
`[[], [], []]`

. I'm trying to figure it out, why is that returning me an empty list. I posted the entire code, so one can run the code and replicate the error. In the error log, it's possible to see what 'clusters` is: that list of points.
Thanks