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# union a list of lists in Python

I wrote this program to calculate the 3d distance for a group of points.

``````points = [(472765.09, 6191522.78, 13.0), (472764.82, 6191524.09, 9.0), (472763.8, 6191525.68, 8.0), (472764.07, 6191524.39, 16.0)]

def dist3d((x0, y0, z0), (x1, y1, z1)):
return math.sqrt((x0-x1)**2+(y0-y1)**2+(z0-z1)**2)

def dist_3d(obs):
dist_list = list()
while len(obs) != 1:
obs_g = [(obs[0], x) for x in obs[1:]]
dist_list.append([dist3d(obs_g[i][0], obs_g[i][1]) for i in xrange(len(obs_g))])
obs.pop(0)
return dist_list
``````

the result is a list of distance lists:

``````test = dist_3d(points)
print test
[[4.217700795331081, 5.922339064664832, 3.554222840244929], [2.1374049685457694, 7.046453008421205], [8.107835716151763]]
``````

the result I wish to have is the following:

``````[4.217700795331081, 5.922339064664832, 3.554222840244929, 2.1374049685457694, 7.046453008421205, 8.107835716151763]
``````

P.S.: the code is not optimized because the "`points`" list after the function returns with only one element

``````points = [(472765.09, 6191522.78, 13.0), (472764.82, 6191524.09, 9.0), (472763.8, 6191525.68, 8.0), (472764.07, 6191524.39, 16.0)]
test = dist_3d(points)
points
[(472764.07, 6191524.39, 16.0)]
``````
-

To fix your first problem, use `list.extend` on this line:

``````dist_list.append([dist3d(obs_g[i][0], obs_g[i][1]) for i in xrange(len(obs_g))])
``````

as in:

``````          ######
dist_list.extend([dist3d(obs_g[i][0], obs_g[i][1]) for i in xrange(len(obs_g))])
######
``````

Here is a demonstration of why that will help.

Your second problem comes from this line:

``````obs.pop(0)
``````

Because `obs` and `points` both reference the same list object, calling `obs.pop` is the same as calling `points.pop` directly. In other words, each time that line is executed, an item is popped from `points`. In the end, this will cause `points` to contain only one item.

To fix this problem, make a shallow copy of `points` inside `dist_3d`:

``````copy = obs[:]
``````

Then, call `pop` on the copy. Doing so will leave `points` unaffected.

Below is how the modified code will look:

``````import math

points = [(472765.09, 6191522.78, 13.0), (472764.82, 6191524.09, 9.0), (472763.8, 6191525.68, 8.0), (472764.07, 6191524.39, 16.0)]

def dist3d((x0, y0, z0), (x1, y1, z1)):
return math.sqrt((x0-x1)**2+(y0-y1)**2+(z0-z1)**2)

def dist_3d(obs):
dist_list = list()
copy = obs[:]
while len(copy) != 1:
obs_g = [(copy[0], x) for x in copy[1:]]
dist_list.extend([dist3d(obs_g[i][0], obs_g[i][1]) for i in xrange(len(obs_g))])
copy.pop(0)
return dist_list
``````

And here is a sample run:

``````>>> import math
>>> points = [(472765.09, 6191522.78, 13.0), (472764.82, 6191524.09, 9.0), (472763.8, 6191525.68, 8.0), (472764.07, 6191524.39, 16.0)]
>>> def dist3d((x0, y0, z0), (x1, y1, z1)):
...     return math.sqrt((x0-x1)**2+(y0-y1)**2+(z0-z1)**2)
...
>>> def dist_3d(obs):
...     dist_list = list()
...     copy = obs[:]
...     while len(copy) != 1:
...         obs_g = [(copy[0], x) for x in copy[1:]]
...         dist_list.extend([dist3d(obs_g[i][0], obs_g[i][1]) for i in xrange(len(obs_g))])
...         copy.pop(0)
...     return dist_list
...
>>> test = dist_3d(points)
>>> print test
[4.217700795331081, 5.922339064664832, 3.554222840244929, 2.1374049685457694, 7.046453008421205, 8.107835716151763]
>>> print points
[(472765.09, 6191522.78, 13.0), (472764.82, 6191524.09, 9.0), (472763.8, 6191525.68, 8.0), (472764.07, 6191524.39, 16.0)]
>>>
``````
-
Thanks ICodez. The problem of one element in test persist. See the update in the post – Gianni Spear Feb 27 '14 at 23:17
``````import itertools

def dist_3d(obs):
dist_list = list()
while len(obs) != 1:
obs_g = [(obs[0], x) for x in obs[1:]]
dist_list.append([dist3d(obs_g[i][0], obs_g[i][1]) for i in xrange(len(obs_g))])
obs.pop(0)
return list(itertools.chain(*dist_list))
``````
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