# Simple list removal in python not working

Trying to remove a tuple from a list of tuples. From the output it would seem like it can remove... yet instead it gives ValueError: list.remove(x): x not in list

``````oldPosition = 0
newPosition = 0
counter = -1
newPartition = copy.deepcopy(partitions)
# Find which cluster the current point is in and where the move-to cluster is
for clusters in partitions:
counter += 1
if (inCluster(point,clusters)):
oldPosition = counter
if (cluster == clusters):
newPosition = counter

# Do the removal and appending
print "Old: " + str(oldPosition) + "New: " + str(newPosition)
print "Remove From =  " + str(newPartition[oldPosition])
print "Remove = " + str(point)
newPartition[oldPosition].remove(point)
``````

Output is

``````Old: 1New: 0
Remove From =  [(2.64, 3.3, 5.24), (1.64, 1.2, 3.82), (3.59, 7.5, 6.58), (1.94, 5.6, 4.25), (3.09, 6.5, 5.87), (0.54, 4.6, 2.27), (2.04, 4.5, 4.39), (-0.16, 3.8, 1.28)]
Remove = (2.64, 3.3, 5.24)
``````

But it says (2.64, 3.3, 5.24) is not in the list?

EDIT: Full code

``````# Return whether a point is in a cluster
def inCluster(point, cluster):
for points in cluster:
if (point == points):
return True

return False                    # Default return: will only reach here if no points match

# Given a cluster, return the coordinates corresponding to its center of gravity
def centerOfGravity(cluster):
total = (0,0,0)
count = 0
for points in cluster:
total = tuple(map(operator.add, total, points))
count += 1
return (total[0] / count, total[1] / count, total[2] / count)

# Returns new partition after moving specified point from its old cluster to the new cluster
def moveToNewCluster(point, cluster, partitions):
oldPosition = 0
newPosition = 0
counter = -1
newPartition = copy.deepcopy(partitions)
# Find which cluster the current point is in and where the move-to cluster is
for clusters in partitions:
counter += 1
if (inCluster(point,clusters)):
oldPosition = counter
if (cluster == clusters):
newPosition = counter

# Do the removal and appending
print "Old: " + str(oldPosition) + "New: " + str(newPosition)
print "Remove From =  " + str(newPartition[oldPosition])
print "Remove = " + str(point)
newPartition[oldPosition].remove(point)
newPartition[newPosition].append(point)

# Clean up the new partition (we created at most one empty partition)
newPartition.remove([])

return newPartition

# Return a list of centers of gravity given the new partitions
def allCentersOfGravity(partitions):
partitionsCoG = []
for clusters in partitions:
partitionsCoG.append(centerOfGravity(clusters))
return partitionsCoG

# Find the euclidean distance in 3 space between two points
def distance(a, b):
return math.sqrt(pow(a[0]-b[0], 2) + pow(a[1]-b[1], 2) + pow(a[2]-b[2], 2))

# Find the smallest absolute value distance from a point to a center of gravity
def minCenterDistance(point, centerOfGravities):
minimumDistance = 10000000000
dist = 0
for center in centerOfGravities:
dist = abs(distance(point, center))
if (dist < minimumDistance):
minimumDistance = dist
return minimumDistance

# Given a set of points and partitions of those points, calculate the suqard error distortion
def squaredErrorDistortion(points, centerOfGravities):
total = 0
for point in points:
total += pow(minCenterDistance(point, centerOfGravities), 2)
total = total / len(points)

# Calculate the cost of moving point into cluster
# Value of a move is calculated as the old squared error distortion minus the new squared eror distortion
def moveValue(point, cluster, partitions, points):
# Create the new partition formed by the swap
newPartition = moveToNewCluster(point, cluster, partitions)
# Get the centers of gravity for the clusters
oldCoG = allCentersOfGravity(partitions)
newCoG = allCentersOfGravity(newPartition)

oldError = squaredErrorDistortion(points, oldCoG)
newError = squaredErrorDistortion(points, newCoG)

print "Old Partition: " + str(partitions)
print "Old CoG: " + str(oldCoG)
print "Old Error: " + str(oldError)
print "New Partition: " + str(newPartition)
print "New CoG: " + str(newCoG)
print "New Error: " + str(newError)

# Define the value as old - new.  If expecting the other way around results could be different
moveErrorValue = oldError - newError

return moveErrorValue

if __name__ == "__main__":
# The points
points = [(0.39, 3.3, 2.06), (0.09, 4.5, 1.63), (2.64, 3.3, 5.24), (1.64, 1.2, 3.82), (3.59, 7.5, 6.58),
(1.94, 5.6, 4.25), (3.09, 6.5, 5.87), (0.54, 4.6, 2.27), (2.04, 4.5, 4.39), (-0.16, 3.8, 1.28)]

# Initial Partition
partitions = [[points[0], points[1]],
[points[2], points[3], points[4], points[5], points[6], points[7], points[8], points[9]]]
'''
# Center of Gravity test
print centerOfGravity(partitions[0])

# InCluster test
print inCluster(points[0], partitions[1])
print inCluster(points[0], partitions[0])
'''
# moveValue(points[2], partitions[0], partitions, points

bestPartition = []
tempPartition = copy.deepcopy(partitions)
while (1==1):
bestChangeValue = 0                                                                        # The higher the change value the better since we are doing old-new
for cluster in tempPartition:
for point in points:
valueOfMove = moveValue(point, cluster, tempPartition, points)                 # Have to send partition over in order to find the cluster the point is currently in
if (valueOfMove > bestChangeValue):
bestChangevalue = valueOfMove
bestPartition = moveToNewCluster(point, cluster, tempPartition)            # Create the new partition
if (bestChangeValue > 0):
tempPartition = bestPartition
else:
break
# At the end, tempPartition holds the best k-means partition
print "Best partition is: " + str(tempPartition)
print "Error Value: " + str(squaredErrorDistortion(points, allCentersOfGravity(tempPartition)))
``````
-
What is point? Note that floating points numbers can have precision issues, i.e. you think `point` is equal to the element of the list, but it actually isn't. Try to use `print "Remove = " + repr(point)` instead and see if the output changes. – Bakuriu Nov 21 '13 at 16:47
How are you generating these tuples? – Wooble Nov 21 '13 at 16:47
`l = [(2.64, 3.3, 5.24), (...` and then `l.remove((2.64, 3.3, 5.24))` works for me. – BartoszKP Nov 21 '13 at 16:48
As @Bakuriu correctly points out, this might as well be a precision issue, the way to get around this would be to write a delta-compare function, that checks if `|x-y| < delta`, where delta is some small (very) number. – ffledgling Nov 21 '13 at 16:54
Let me post my entire code so you can see I guess. The tupels are just being seeded into two groups of points at random and then are worked on progressively. The stuff in the while loop hasn't been fully debugged since I haven't been able to run it with the remove working, although all of the other functions appear to be working so far... – 章 哲 Nov 21 '13 at 16:54

The actual problem is in this line

``````# Clean up the new partition (we created at most one empty partition)
newPartition.remove([])
``````

There are no empty lists in `newPartition`. If you absolutely want to make sure, they are not there, you can do this

``````if [] in newPartition: newPartition.remove([])
``````

With this change, your program runs without any problems.

-
Oh well that was a really dumb oversight haha. Thanks. Lots of code only to get tripped up by an accident non check lol. – 章 哲 Nov 21 '13 at 17:04
@user1276512 You are welcome :) Please consider accepting this answer if it helps you meta.stackexchange.com/a/5235/235416 – thefourtheye Nov 21 '13 at 17:05
done and accepted! :) – 章 哲 Nov 21 '13 at 17:07