# how to intersect lists in python with respect to index

i know this question might look like a duplicate. but i had a hard time trying to solve this and i couldn't find a helpful solution for my case

i'am implementing a genetic algorithm using python for the traveling salesman problem

assume we have those lists ( tours)

``````a = [1,0,2,5,4,3,1]
b = [1,2,5,4,3,0,1]
c = [1,3,5,4,2,0,1]
``````

as you can see, the [5,4] is repeated in the whole 3 lists and a regular intersection would return all the elements in the list.

i want some function like intersect_list(a,b)

that returns [5,4]

is there a python built-in way to find this? or do you have any suggestion?.

Note : i know i can loop it to solve this , but please put in mind that in my case i have around 400 lists. and at the length of 401 each.

in other words : i want to see the common path between those lists.

-
So, to clarify, you want any runs of two or more items that are in the same order in both lists? – Latty Jun 8 '12 at 0:07
Are all lists in the input permutations of one another? – Heatsink Jun 8 '12 at 0:10
Why shouldn't `intersect_list(a,b)` return `[2,5,4,3]` ? – Amr Jun 8 '12 at 0:11
Feels like a longest-common-contiguous-subsequence problem to me. – DSM Jun 8 '12 at 0:18

After taking a look at the links posted by @pyfunc, I came up with the following:

``````def shortest_of(lists):
return min(lists, key=len)

def contains_sublist(lst, sublst):
n = len(sublst)
return any((sublst == lst[i:i+n]) for i in xrange(len(lst)-n+1))

def longest_common(lists):
if not lists:
return ()
res = set()
base = shortest_of(lists)
length = len(base)

for i in xrange(length, 0, -1):
for j in xrange(length - i + 1):
candidate = ', ' + str(base[j:i+j]).strip('[]') + ','
#candidate = base[j:i+j]

for alist in lists:
if not candidate in ', ' + str(alist).strip('[]') + ',':
#if not contains_sublist(alist, candidate):
break
else:

if res:
return tuple(res)

return ()

if __name__ == '__main__':
a = [1,0,2,5,4,3,1]
b = [1,2,5,4,3,0,1]
c = [1,3,5,4,2,0,1]

print longest_common([a,b,c])
print longest_common([b,c])
``````

output:

``````((5, 4),)
((0, 1), (5, 4))
``````

### EDIT:

Updated solution to use string conversions and matching as it happened to be way faster. Previous solution parts are commented out. Also, it now gives all possibilities.

-
nice, checking from large to small and not doing all the work up front (as i did), makes it way quicker :) – fraxel Jun 8 '12 at 2:41
Yes, but I think mine would be slower if the largest common sublist contains very few elements. I'm not good at benchmarking, so I haven't tried. – Amr Jun 8 '12 at 2:49
@Amr: good to see that you worked it out and posted your answer back – pyfunc Jun 12 '12 at 20:17

One idea is that you can convert your list into a string with

``````",".join(list)
``````

and then the problem is transformed to longest matching substring in two strings.

Solution and discussion for that is there on SO at :

-
Why convert to strings? The algorithm for longest substring would work for lists the same way – JBernardo Jun 8 '12 at 0:18
@JBernardo: Yes, I was thinking along largest substring and hence the answer. I will correct it. – pyfunc Jun 8 '12 at 0:20

400 lists of length 400 isn't too much of a problem. First break each sequence into all its possible subsequences, (a list of length `N` has around `0.5 * N ** 2` possible subsequences). Then intersect them all and take the longest one.

``````a = [1,0,2,5,4,3,1]
b = [1,2,5,4,3,0,1]
c = [1,3,5,4,2,0,1]

def longest_match_finder(lists):
matches = []
for a in lists:
lengths = set()
for leng in xrange(1,len(a)+1):
lengths = lengths | set(tuple(a[i:i+leng])
for i in xrange(len(a)-leng+1))
matches.append(lengths)
return max(set.intersection(*matches), key=len)

print longest_match_finder([a,b,c])
#Output:
(5, 4)
``````

With `400` lists each with `400` elements, this takes around `280 seconds` (on my very old machine). However if we use the same approach on just one list, but convert its sub-sequences and also all the others lists to strings (as first posted by @pyfunc), using `str(list).strip('[]')`, we can search much quicker. The same test runs in `21 seconds`:

``````import ast

def longest_match_finder_2(lists):
a = lists[0]
lengths = set()
for leng in xrange(1,len(a)+1):
lengths = lengths | set(str(a[i:i+leng]).strip('[]')
for i in xrange(len(a)-leng+1))
for seq in lengths.copy():
if not all([seq in str(i).strip('[]') for i in lists[1:]]):
lengths.remove(seq)
return ast.literal_eval(max(lengths, key=len))
``````

We can use `ast.literal_eval()` to get a list back (safely) at the end.

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There's a problem, try `longest_match_finder([a,b])`, the output is `(5,4,3)` while it should be `(2,5,4,3)` – Amr Jun 8 '12 at 2:10
@Amr - Thanks, fixed it. Stupidly taking max on magnitude not length! – fraxel Jun 8 '12 at 2:26
I updated my code my code to use strings too. there's a little problem though, eg: `[1,2,3]` would be `'1 , 2, 3'` which would match `[11,2,3]` `'11, 2, 3'`. I fell for it too :) – Amr Jun 8 '12 at 3:41
@Amr - yeah, i noticed that, just as i realised i was far too tired, and should go to bed :) – fraxel Jun 8 '12 at 8:16

You can use the list zip function to zip them into tuples and return the tuples where all the elements are the same.

``````a = [1,0,2,5,4,3,1]
b = [1,2,5,4,3,0,1]
c = [1,3,5,4,2,0,1]
zipped_tuples = zip(a, b, c)
``````

You can try to leverage this to get the positional intersections.

-
This won't work, as the indices for the subsequences are not necessarily the same. – Joel Cornett Jun 8 '12 at 0:24