# Python - Greatest Common Intersection of lists

I would like to create a new nested list out of two given nested lists (with unique items in each list), so that the new nested list is the greatest common intersection of both lists.

An example hopefully helps to make my question clear:

``````    old1 = [[1,2],[3,4,5],[6,7,8],[9]]
old2 = [[1,2,3],[4,5,7],[6,8,10]]]
new  = [[1,2],[3],[4,5],[6,8],[7],[9],[10]]
``````

Order is not important, so using sets may be useful.

Does anybody have an idea? Any help will be appreciated!

__

OK, so obviously, the easiest to get the greatest common intersection is

``````    new1 = filter(None,[list(set(o1) & set(o2)) for o1 in old1 for o2 in old2])
print new1
[[1, 2], [3], [4, 5], [7], [8, 6]]
``````

If you want to include integers which appear only in one of the old lists, you can add them afterwards:

``````    a,b = set(sum(old1, [])), set(sum(old2, []))
c = (a | b) - (a & b)
for d in c:
new1.append([d])
``````

Thanks guys for the help!

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Could you explain how to get the 'greatest common intersection' of two lists? –  Volatility Jan 7 at 13:04
try this : `[list(set(o1) & set(o2)) for o1 in old1 for o2 in old2 ]` –  Grijesh Chauhan Jan 7 at 13:09
It might just be me, but I can't see how the new list comes from the previous ones? Could you explain some logic behind it? –  Jon Clements Jan 7 at 13:28
@JonClements -- It's not just you ... –  mgilson Jan 7 at 13:29
@mgilson thank goodness for that - I know I'm having a "blonde day", (pulling 18 hour days for launch for a new system), so living off coffee at the moment - but phew :) –  Jon Clements Jan 7 at 13:30
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personally, i would first use the set intersection to compute each intersection, then add any item which is left over (that is, items appearing on only one of the 2 list):

``````>>> import itertools
>>> import functools
>>>
>>> old1 = [[1,2],[3,4,5],[6,7,8],[9]]
>>> old2 = [[1,2,3],[4,5,7],[6,8,10]]
>>>
>>> unique1 = functools.reduce(lambda a,b: set(a).union(set(b)),old1)
>>> unique2 = functools.reduce(lambda a,b: set(a).union(set(b)),old2)
>>> new = [list(set(a).intersection(set(b))) for a,b in itertools.product(old1,old2) if len(set(a).intersection(set(b))) != 0]
>>> new.extend([x] for x in unique1.symmetric_difference(unique2))
>>>
>>> new
[[1, 2], [3], [4, 5], [7], [8, 6], [9], [10]]
``````

the symetric difference of a and b is equivalent to `(a|b)-(a&b)`, it yields the items which are appear in only one of the 2 sets.

(of course, you can get some inspiration from Grijesh Chauhan's answer, to simplify the intersection: `new = filter(None, [list(set(a) & set(b)) for a in old1 for b in old2)])`)

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You have done! :) ..nice I am trying, please read Luigi comment to my answer to be sure. –  Grijesh Chauhan Jan 7 at 13:53
i am not sure it is okay: let `old1 = [[1,2],[3,4]]` and `old2 = [[1,2],[5,6]]`, i have the impression that the result should be `[[1,2],[3,4],[5,6]]`... with this code, it will yield `[[1,2],[3],[4],[5],[6]]`. –  Adrien Plisson Jan 7 at 14:00
IMHO, this works perfectly! As neither `[3,4]` nor `[5,6]` appear in both old lists, the code returns only single items `[3],[4],[5],[6]`. –  Luigi Jan 7 at 14:22

Intersection of two lists:

``````>>> filter(None,[list(set(o1) & set(o2)) for o1 in old1 for o2 in old2 ])
[[1, 2], [3], [4, 5], [7], [8, 6]]
``````

What is the greatest common? Why are `[9],[10]` included?

EDIT

`Greatest Common Intersection` as described by you.

First convert list of list into list (both `old1` & `ld2`), 2-D list to 1-D list:

``````>>> e_o1 = reduce(list.__add__, old1)
>>> e_o1
[1, 2, 3, 4, 5, 6, 7, 8, 9]
>>> e_o2 = reduce(list.__add__, old2)
>>> e_o2
[1, 2, 3, 4, 5, 7, 6, 8, 10]
``````

Take Intersection using `filter()`:

``````>>> new = filter(None,[list(set(o1) & set(o2)) for o1 in old1 for o2 in old2])
``````

`new` still incomplete: last step:

Now list elements either not in `old1` or in `old2`, create temporary list `tl`:

``````>>> tl=filter(lambda x : x not in e_o1 or x not in e_o2 , set(e_o1) | set(e_o2))
>>> tl
[9, 10]
``````

now append element of `tl` in `new` list as list:

``````>>> filter(lambda x:  new.append([x]) ,tl)
[]
>>> new
[[1, 2], [3], [4, 5], [7], [8, 6], [9], [10]]
``````

but still result is similar like Adrien Plisson code works:

`old1 = [[1,2],[3,4]]` and `old2 = [[1,2],[5,6]]`,
it will yield `[[1,2],[3],[4],[5],[6]]`

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Why indeed? - If only the OP would tell us... –  Volatility Jan 7 at 13:19
You're right, 'greatest common' is misleading. What I had in mind was a new list with all elements from the old lists while retaining the maximal amount of old lists' fragments (like [4,5] from [3,4,5] and [4,5,7]. As 9 and 10 appear only in one of the old lists each, they should show up in the new list as seperate items: [9], [10]. –  Luigi Jan 7 at 13:34
@Luigi `old` means from `old1` ? –  Grijesh Chauhan Jan 7 at 13:38
`old` means from both `old1` and `old2` –  Luigi Jan 7 at 13:43
you need some ting like `set([1,2,3,4]) - set([2,5])` too! –  Grijesh Chauhan Jan 7 at 13:44
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