# Finding neighbors in a list

I have a list:

``````l=['a','>>','b','>>','d','e','f','g','>>','i','>>','>>','j','k','l','>>','>>']
``````

I need to extract all the neighbors of `'>>'` and split them into groups where they have elements in between that are neither `'>>'` or neigbors of `'>>'`.

For the example list the expected outcome would be:

``````[['a', 'b', 'd'], ['g', 'i', 'j'], ['l']]
``````

I have tried quite a few things, but all the simple ones have failed one way or another. At the moment the only code that seems to work is this:

``````def func(L,N):
outer=[]
inner=[]
for i,e in enumerate(L):
if e!=N:
try:
if L[i-1]==N or L[i+1]==N:
inner.append(e)
elif len(inner)>0:
outer.append(inner)
inner=[]
except IndexError:
pass
if len(inner):
outer.append(inner)
return outer

func(l,'>>')

Out[196]:
[['a', 'b', 'd'], ['g', 'i', 'j'], ['l']]
``````

Although it seems to work, i am wondering if there is a better,cleaner way to do it?

-

I would argue that the most pythonic and easy to read solution would be something like this:

``````import itertools

def neighbours(items, fill=None):
"""Yeild the elements with their neighbours as (before, element, after).

neighbours([1, 2, 3]) --> (None, 1, 2), (1, 2, 3), (2, 3, None)

"""
before = itertools.chain([fill], items)
after = itertools.chain(items, [fill]) #You could use itertools.zip_longest() later instead.
next(after)
return zip(before, items, after)

def split_not_neighbour(seq, mark):
"""Split the sequence on each item where the item is not the mark, or next
to the mark.

split_not_neighbour([1, 0, 2, 3, 4, 5, 0], 0) --> (1, 2), (5)

"""
output = []
for items in neighbours(seq):
if mark in items:
_, item, _ = items
if item != mark:
output.append(item)
else:
if output:
yield output
output = []
if output:
yield output
``````

Which we can use like so:

``````>>> l = ['a', '>>', 'b', '>>', 'd', 'e', 'f', 'g', '>>', 'i', '>>', '>>',
...      'j', 'k', 'l', '>>', '>>']
>>> print(list(split_not_neighbour(l, ">>")))
[['a', 'b', 'd'], ['g', 'i', 'j'], ['l']]
``````

Note the neat avoidance of any direct indexing.

Edit: A more elegant version.

``````def split_not_neighbour(seq, mark):
"""Split the sequence on each item where the item is not the mark, or next
to the mark.

split_not_neighbour([1, 0, 2, 3, 4, 5, 0], 0) --> (1, 2), (5)

"""
neighboured = neighbours(seq)
for _, items in itertools.groupby(neighboured, key=lambda x: mark not in x):
yield [item for _, item, _ in items if item != mark]
``````
-
+1, esp. for the neat avoidance :), still it seems to be about 2x slower than the original. –  root Oct 29 '12 at 21:08
@root Is speed something that matters? Code readability should always be preferred to speed unless it's a proven bottleneck. –  Lattyware Oct 29 '12 at 21:09
I agree, actually I just tried the first answers out of curiosity. –  root Oct 29 '12 at 21:17
+1 for a beautiful solution. I did notice the neat avoidance :) –  Lukas Graf Oct 29 '12 at 21:18

Here is one alternative:

``````import itertools

def func(L, N):
def key(i_e):
i, e = i_e
return e == N or (i > 0 and L[i-1] == N) or (i < len(L) and L[i+1] == N)
outer = []
for k, g in itertools.groupby(enumerate(L), key):
if k:
outer.append([e for i, e in g if e != N])
return outer
``````

Or an equivalent version with a nested list comprehension:

``````def func(L, N):
def key(i_e):
i, e = i_e
return e == N or (i > 0 and L[i-1] == N) or (i < len(L) and L[i+1] == N)
return [[e for i, e in g if e != N]
for k, g in itertools.groupby(enumerate(L), key) if k]
``````
-
+1 for cleaner, although it seems to be about 2x slower than the original. –  root Oct 29 '12 at 21:00

You can simplify it like this

``````l = ['']+l+['']
stack = []
connected = last_connected = False
for i, item in enumerate(l):
if item in ['','>>']: continue
connected = l[i-1] == '>>' or  l[i+1] == '>>'
if connected:
if not last_connected:
stack.append([])
stack[-1].append(item)
last_connected = connected
``````
-
+1 for the ['']+l+[''] –  root Oct 29 '12 at 21:20

my naive attempt

``````things = (''.join(l)).split('>>')

output = []
inner = []

for i in things:
if not i:
continue
i_len = len(i)
if i_len == 1:
inner.append(i)
elif i_len > 1:
inner.append(i[0])
output.append(inner)
inner = [i[-1]]

output.append(inner)
print output # [['a', 'b', 'd'], ['g', 'i', 'j'], ['l']]
``````
-

Something like this:

``````l=['a','>>','b','>>','d','e','f','g','>>','i','>>','>>','j','k','l','>>','>>']
l= filter(None,"".join(l).split(">>"))
lis=[]
for i,x in enumerate(l):
if len(x)==1:
if len(lis)!=0:
lis[-1].append(x[0])
else:
lis.append([])
lis[-1].append(x[0])
else:
if len(lis)!=0:
lis[-1].append(x[0])
lis.append([])
lis[-1].append(x[-1])
else:
lis.append([])
lis[-1].append(x[0])
lis.append([])
lis[-1].append(x[-1])

print lis
``````

output:

``````[['a', 'b', 'd'], ['g', 'i', 'j'], ['l']]
``````

or:

``````l=['a','>>','b','>>','d','e','f','g','>>','i','>>','>>','j','k','l','>>','>>']
l= filter(None,"".join(l).split(">>"))
lis=[[] for _ in range(len([1 for x in l if len(x)>1])+1)]
for i,x in enumerate(l):
if len(x)==1:
for y in reversed(lis):
if len(y)!=0:
y.append(x)
break
else:
lis[0].append(x)
else:
if not all(len(x)==0 for x in lis):
for y in reversed(lis):
if len(y)!=0:
y.append(x[0])
break
for y in lis:
if len(y)==0:
y.append(x[-1])
break
else:
lis[0].append(x[0])
lis[1].append(x[-1])

print lis
``````

output:

``````[['a', 'b', 'd'], ['g', 'i', 'j'], ['l']]
``````
-

Another medthod using superimposition of original list

``````import copy

lis_dup = copy.deepcopy(lis)

lis_dup.insert(0,'')
prev_in = 0
tmp=[]
res = []

for (x,y) in zip(lis,lis_dup):
if '>>' in (x,y):
if y!='>>' :
if y not in tmp:
tmp.append(y)
elif x!='>>':
if x not in tmp:
print 'x is ' ,x
tmp.append(x)
else:
if prev_in ==1:
res.append(tmp)
prev_in =0
tmp = []
prev_in  = 1
else:
if prev_in == 1:
res.append(tmp)
prev_in =0
tmp = []
res.append(tmp)

print res
``````
-