# Test if lists share any items in python

I want to check if any of the items in one list are present in another list. I can do it simply with the code below, but I suspect there might be a library function to do this. If not, is there a more pythonic method of achieving the same result.

``````In [78]: a = [1, 2, 3, 4, 5]

In [79]: b = [8, 7, 6]

In [80]: c = [8, 7, 6, 5]

In [81]: def lists_overlap(a, b):
....:     for i in a:
....:         if i in b:
....:             return True
....:     return False
....:

In [82]: lists_overlap(a, b)
Out[82]: False

In [83]: lists_overlap(a, c)
Out[83]: True

In [84]: def lists_overlap2(a, b):
....:     return len(set(a).intersection(set(b))) > 0
....:
``````
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The only optimizations I can think of is dropping `len(...) > 0` because `bool(set([]))` yields False. And of course if you kept your lists as sets to begin with you'd save set creation overhead. –  msw Jul 3 '10 at 2:26

Theoretical analysis apart, using generator expressions on lists, as Anthony Conyers stated, will always be faster than creating sets out of the list and getting their intersection. This is due to set creation being way slower (because of memory allocation and collision handling) than reading elements directly in memory and the fact that any() will bail out on the first match.

Example of worst-case for the generator function (best case for sets intersection):

``````from timeit import timeit
>>> timeit('bool(set(a) & set(b))', setup="a=list(range(1000));b=[x+999 for x in range(1000)]", number=100000)
16.26389146898873
>>> timeit('any(i in a for i in b)', setup="a=list(range(1000));b=[x+999 for x in range(1000)]", number=100000)
6.370674031000817
``````

Example of best-case for the generator expression (worst-case for the sets intersection because it have to allocate even more memory for its large result):

``````>>> timeit('bool(set(a) & set(b))', setup="a=list(range(1000));b=list(range(1000))", number=100000)
26.077727576019242
>>> timeit('any(i in a for i in b)', setup="a=list(range(1000));b=list(range(1000))", number=100000)
0.16220548999262974
``````

Results are similar between Python 2.7 and 3.3 .

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That's some useful data there, shows that big-O analysis isn't the be all and end all of reasoning about running time. –  Steve Allison Jul 18 '13 at 23:21
``````def lists_overlap3(a, b):
return bool(set(a) & set(b))
``````

Note: the above assumes that you want a boolean as the answer. If all you need is an expression to use in an `if` statement, just use `if set(a) & set(b):`

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This is worst-case O(n + m). However, the down side is that it creates a new set, and doesn't bail out when a common element is found early. –  Matthew Flaschen Jul 3 '10 at 2:45
I curious as to why this is `O(n + m)`. My guess would be that sets are implemented using hash-tables, and thus the `in` operator can work in `O(1)` time (except in degenerate cases). Is this correct? If so, given that hash tables have worst case lookup performance of `O(n)`, does this mean that in the unlike worse case it will have `O(n * m)` performance? –  fmark Jul 3 '10 at 3:24
@fmark: Theoretically, you are right. Practically, nobody cares; read the comments in Objects/dictobject.c in the CPython source (sets are just dicts with only keys, no values) and see if you can generate a list of keys that will cause O(n) lookup performance. –  John Machin Jul 3 '10 at 3:49
Okay, thanks for clarifying, I was wondering if there was some magic going on :) . While I agree that practically I don't need to care, it is trivial to generate a list of keys that will cause `O(n)` lookup performance ;), see pastebin.com/Kn3kAW7u Just for lafs. –  fmark Jul 3 '10 at 8:06
@fmark: No magic, just engineering. Yeah it's trivial to define a hash function that returns a constant. Ha ha chuckle chuckle. Now try again, without sodding about with a non-standard hash function. –  John Machin Jul 3 '10 at 8:19
show 1 more comment
``````def lists_overlap(a, b):
sb = set(b)
return any(el in sb for el in a)
``````

This is asymptotically optimal (worst case O(n + m)), and might be better than the intersection approach due to `any`'s short-circuiting.

E.g.:

``````lists_overlap([3,4,5], [1,2,3])
``````

will return True as soon as it gets to `3 in sb`

EDIT: Another variation (with thanks to Dave Kirby):

``````def lists_overlap(a, b):
sb = set(b)
return any(itertools.imap(sb.__contains__, a))
``````

This relies on `imap`'s iterator, which is implemented in C, rather than a generator comprehension. It also uses `sb.__contains__` as the mapping function. I don't know how much performance difference this makes. It will still short-circuit.

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Loops in intersection approach are all in C code; there's one loop in your approach that includes Python code. The big unknown is whether an empty intersection is likely or unlikely. –  John Machin Jul 3 '10 at 2:55
You could also use `any(itertools.imap(sb.__contains__, a))` which should be faster still since it avoids using a lambda function. –  Dave Kirby Jul 3 '10 at 10:53
Thanks, @Dave. :) I agree removing the lambda is a win. –  Matthew Flaschen Jul 3 '10 at 23:31

You could also use `any` with list comprehension:

``````any([item in a for item in b])
``````
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You could, but the time is O(n * m) whereas the time for the set intersection approach is O(n + m). You could also do it WITHOUT list comprehension (lose the `[]`) and it would run faster and use less memory, but the time would still be O(n * m). –  John Machin Jul 3 '10 at 2:29
While your big O analysis is true, I suspect that for small values of n and m the time it takes to build the underlying hashtables will come into play. Big O ignores the time it takes to compute the hashes. –  Anthony Conyers Jul 3 '10 at 2:49
Building a "hashtable" is amortised O(n). –  John Machin Jul 3 '10 at 2:59
I get that but the constant you're throwing away is pretty big. It doesn't matter for large values of n, but it does for small ones. –  Anthony Conyers Jul 3 '10 at 13:36

You can use the any built in function /w a generator expression:

``````def list_overlap(a,b):
return any(i for i in a if i in b)
``````

As John and Lie have pointed out this gives incorrect results when for every i shared by the two lists bool(i) == False. It should be:

``````return any(i in b for i in a)
``````
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Time is O(n * m). –  John Machin Jul 3 '10 at 2:39
give the wrong result when a = {0, 1, 2} and b = {0, 3, 4} –  Lie Ryan Jul 3 '10 at 3:41
Amplifying Lie Ryan's comment: will give wrong result for any item x that's in the intersection where `bool(x)` is False. In Lie Ryan's example, x is 0. Only fix is `any(True for i in a if i in b)` which is better written as the already seen `any(i in b for i in a)`. –  John Machin Jul 3 '10 at 4:00
Correction: will give wrong result when all items `x` in the intersection are such that `bool(x)` is `False`. –  John Machin Jul 3 '10 at 4:07
``````return not frozenset(a).isdisjoint(frozenset(b))