# efficiently knowing if intersection of two list is empty or not, in python

Suppose I have two lists, L and M. Now I want to know if they share an element. Which would be the fastest way of asking (in python) if they share an element? I don't care which elements they share, or how many, just if they share or not.

For example, in this case

``````L = [1,2,3,4,5,6]
M = [8,9,10]
``````

I should get False, and here:

``````L = [1,2,3,4,5,6]
M = [5,6,7]
``````

I should get True.

I hope the question's clear. Thanks!

Manuel

-

Or more concisely

``````if set(L) & set(M):
# there is an intersection
else:
# no intersection
``````

If you really need `True` or `False`

``````bool(set(L) & set(M))
``````

After running some timings, this seems to be a good option to try too

``````m_set=set(M)
any(x in m_set  for x in L)
``````

If the items in M or L are not hashable you have to use a less efficient approach like this

``````any(x in M for x in L)
``````

Here are some timings for 100 item lists. Using sets is considerably faster when there is no intersection, and a bit slower when there is a considerable intersection.

``````M=range(100)
L=range(100,200)

timeit set(L) & set(M)
10000 loops, best of 3: 32.3 µs per loop

timeit any(x in M for x in L)
1000 loops, best of 3: 374 µs per loop

timeit m_set=frozenset(M);any(x in m_set  for x in L)
10000 loops, best of 3: 31 µs per loop

L=range(50,150)

timeit set(L) & set(M)
10000 loops, best of 3: 18 µs per loop

timeit any(x in M for x in L)
100000 loops, best of 3: 4.88 µs per loop

timeit m_set=frozenset(M);any(x in m_set  for x in L)
100000 loops, best of 3: 9.39 µs per loop

# Now for some random lists
import random
L=[random.randrange(200000) for x in xrange(1000)]
M=[random.randrange(200000) for x in xrange(1000)]

timeit set(L) & set(M)
1000 loops, best of 3: 420 µs per loop

timeit any(x in M for x in L)
10 loops, best of 3: 21.2 ms per loop

timeit m_set=set(M);any(x in m_set  for x in L)
1000 loops, best of 3: 168 µs per loop

timeit m_set=frozenset(M);any(x in m_set  for x in L)
1000 loops, best of 3: 371 µs per loop
``````
-
@gnibbler - Is it provable that the `any()` version is less efficient? It seems like it would go through `M` only until it found an element in `L`, at which point `any` would return `True` and be done. This sounds more efficient than converting both `L` and `M` to sets beforehand. At least, on paper. –  Chris Lutz Feb 4 '10 at 5:40
This here, this is the answer. –  jathanism Feb 4 '10 at 5:42
@Chris, worst case is when when there is no intersection - O(l*m). With sets i believe it is O(l+m) –  gnibbler Feb 4 '10 at 5:43
WOW! so bool(set(L) & set(M)) is faster than any(x in M for x in L)... Who would think? :) Thank you. –  Manuel Aráoz Feb 4 '10 at 5:54
@Manuel - The best, it seems, is to convert one list to a `set` to allow for faster membership testing (`in`), then to filter based on this membership test (`x in m_set for x in L`). @gnibbler, can we get some tests that utilize two randomly constructed lists just for completeness? (and also +1 for a fine job) –  Chris Lutz Feb 4 '10 at 6:07

To avoid the work of constructing the intersection, and produce an answer as soon as we know that they intersect:

``````m_set = frozenset(M)
return any(x in m_set for x in L)
``````

Update: gnibbler tried this out and found it to run faster with set() in place of frozenset(). Whaddayaknow.

-

First of all, if you do not need them ordered, then switch to the `set` type.

If you still need the list type, then do it this way: 0 == False

``````len(set.intersection(set(L), set(M)))
``````
-
This doesn't seem very efficient. I mean, the whole intersection is been calculated, isn't it!? Or is it lazily evaluated? Thanks! –  Manuel Aráoz Feb 4 '10 at 5:41
@Manuel, when i tested it, the intersection took less time to calculate than the time converting the lists to sets, so less than 1/3 of the total time –  gnibbler Feb 4 '10 at 6:06

That's the most generic and efficient in a balanced way I could come up with (comments should make the code easy to understand):

``````import itertools, operator

def _compare_product(list1, list2):
"Return if any item in list1 equals any item in list2 exhaustively"
return any(
itertools.starmap(
operator.eq,
itertools.product(list1, list2)))

def do_they_intersect(list1, list2):
"Return if any item is common between list1 and list2"

# do not try to optimize for small list sizes
if len(list1) * len(list2) <= 100: # pick a small number
return _compare_product(list1, list2)

# first try to make a set from one of the lists
try: a_set= set(list1)
except TypeError:
try: a_set= set(list2)
except TypeError:
a_set= None
else:
a_list= list1
else:
a_list= list2

# here either a_set is None, or we have a_set and a_list

if a_set:
return any(itertools.imap(a_set.__contains__, a_list))

# try to sort the lists
try:
a_list1= sorted(list1)
a_list2= sorted(list2)
except TypeError: # sorry, not sortable
return _compare_product(list1, list2)

# they could be sorted, so let's take the N+M road,
# not the N*M

iter1= iter(a_list1)
iter2= iter(a_list2)
try:
item1= next(iter1)
item2= next(iter2)
except StopIteration: # one of the lists is empty
return False # ie no common items

while 1:
if item1 == item2:
return True
while item1 < item2:
try: item1= next(iter1)
except StopIteration: return False
while item2 < item1:
try: item2= next(iter2)
except StopIteration: return False
``````

HTH.

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Ah, yes. For python≥2.6 . –  tzot Feb 7 '10 at 2:22