Testing if a list contains another list with Python

How can I test if a list contains another list (ie. it's a contiguous subsequence). Say there was a function called contains:

``````contains([1,2], [-1, 0, 1, 2]) # Returns [2, 3] (contains returns [start, end])
contains([1,3], [-1, 0, 1, 2]) # Returns False
contains([1, 2], [[1, 2], 3]) # Returns False
contains([[1, 2]], [[1, 2], 3]) # Returns [0, 0]
``````

Edit:

``````contains([2, 1], [-1, 0, 1, 2]) # Returns False
contains([-1, 1, 2], [-1, 0, 1, 2]) # Returns False
contains([0, 1, 2], [-1, 0, 1, 2]) # Returns [1, 3]
``````
• For what it's worth, returning `[start, end+1]` is more pythonic as it looks like a slice -- `(end+1)-start` gives the length of what is found. – Andrew Jaffe Oct 2 '10 at 21:01
• This looks like a bad design - sometimes the function returns a bool, sometimes it returns a list. That makes it very hard to use since you have to check the return type before you can do anything with the result. IMHO a function called "contains" should only return True or False. – Dave Kirby Oct 2 '10 at 21:01
• It's kinda sad that lists don't have the needed functionality built-in, but strings do (`str.find`). – Jochen Ritzel Oct 2 '10 at 21:12
• Why would this, for any reason, return a list and not a tuple!? – Grant Paul Oct 3 '10 at 0:11
• – jfs Mar 23 '17 at 23:20

Here is my version:

``````def contains(small, big):
for i in xrange(len(big)-len(small)+1):
for j in xrange(len(small)):
if big[i+j] != small[j]:
break
else:
return i, i+len(small)
return False
``````

It returns a tuple of (start, end+1) since I think that is more pythonic, as Andrew Jaffe points out in his comment. It does not slice any sublists so should be reasonably efficient.

One point of interest for newbies is that it uses the else clause on the for statement - this is not something I use very often but can be invaluable in situations like this.

This is identical to finding substrings in a string, so for large lists it may be more efficient to implement something like the Boyer-Moore algorithm.

• +1 for the note about efficient string searching algorithms. One disadvantage of yours is the addition of an interpreted inner loop (the slice comparison is, I imagine, faster, although the copy might offset that). I'm going to try a performance comparison. – Tim Yates Oct 2 '10 at 21:47
• After further tests, yours is the best so far for large subsequences. I would pick this, even despite the small disadvantage is has on smaller data sets. – Tim Yates Oct 2 '10 at 22:52
• +1: Didn't know about `for`'s `else` clause! Just today I created an awkward construct involving setting a boolean to do exactly this. – mk12 Feb 26 '12 at 5:16
• Why not `a > b`? – Daniel Springer Dec 8 '16 at 6:21

If all items are unique, you can use sets.

``````>>> items = set([-1, 0, 1, 2])
>>> set([1, 2]).issubset(items)
True
>>> set([1, 3]).issubset(items)
False
``````
• that's not what op is looking for – SilentGhost Oct 2 '10 at 20:24
• It still won't work, even if all items are unique, unless they are also in the same order, with no intermingled items. e.g. finding `[1, 3]` or `[2, 1]` in `[1, 2, 3]` will give a false positive. Assuming that we're looking for the sequence itself rather than just the values contained in the sequence. – intuited Oct 2 '10 at 20:34
• I think it's better to show how an idea can be wrong (so as to avoid it in future), rather than erasing it entirely. – Thomas O Oct 2 '10 at 22:03
• Yes, especially since this is the correct solution for some people (like me) who find this page, who do not care about sequence. – mk12 Feb 26 '12 at 5:18
• Note to viewer: the results provided in this example is not accurate. That being said, this example helped me out. – teng Oct 10 '14 at 17:04

There's an `all()` and `any()` function to do this. To check if list1 contains ALL elements in list2

``````result = all(elem in list1 for elem in list2)
``````

To check if list1 contains ANY elements in list2

``````result = any(elem in list1 for elem in list2)
``````

the variable result would be boolean (TRUE/FALSE).

May I humbly suggest the Rabin-Karp algorithm if the `big` list is really big. The link even contains almost-usable code in almost-Python.

After OP's edit:

``````def contains(small, big):
for i in xrange(1 + len(big) - len(small)):
if small == big[i:i+len(small)]:
return i, i + len(small) - 1
return False
``````
• But it fails with contains([1,2], [-1, 0, 1, 1, 2]) which returns [2,4] instead of what I assume is the expected [3,4] – Andrew Dalke Oct 2 '10 at 20:40
• Now it works with all OP's tests. – eumiro Oct 2 '10 at 20:49
• This is going to be horribly inefficient for big lists, since it is constantly creating and destroying temporary lists every time it does `big[i:i+len(small)]` – Dave Kirby Oct 2 '10 at 21:22
• According to my tests, this has slightly better performance than Dave Kirby's solution, even on large lists (1 million elements, with the matching subset at the end): 4.1s for 10 repetitions versus 5.6s for Dave's. I would love to post my test code, but there isn't an easy way to do that. – Tim Yates Oct 2 '10 at 22:20
• UPDATE: I spoke too soon--my small lists were too small. This algorithm exploded once I increased their size to 1000, while the others stayed constant. It looks like Dave Kirby's wins for large lists after all. pastebin.com/NZwU6PUx – Tim Yates Oct 2 '10 at 22:46

This works and is fairly fast since it does the linear searching using the builtin `list.index()` method and `==` operator:

``````def contains(sub, pri):
M, N = len(pri), len(sub)
i, LAST = 0, M-N+1
while True:
try:
found = pri.index(sub[0], i, LAST) # find first elem in sub
except ValueError:
return False
if pri[found:found+N] == sub:
return [found, found+N-1]
else:
i = found+1
``````

Here's a straightforward algorithm that uses list methods:

``````#!/usr/bin/env python

def list_find(what, where):
"""Find `what` list in the `where` list.

Return index in `where` where `what` starts
or -1 if no such index.

>>> f = list_find
>>> f([2, 1], [-1, 0, 1, 2])
-1
>>> f([-1, 1, 2], [-1, 0, 1, 2])
-1
>>> f([0, 1, 2], [-1, 0, 1, 2])
1
>>> f([1,2], [-1, 0, 1, 2])
2
>>> f([1,3], [-1, 0, 1, 2])
-1
>>> f([1, 2], [[1, 2], 3])
-1
>>> f([[1, 2]], [[1, 2], 3])
0
"""
if not what: # empty list is always found
return 0
try:
index = 0
while True:
index = where.index(what[0], index)
if where[index:index+len(what)] == what:
return index # found
index += 1 # try next position
except ValueError:

def contains(what, where):
"""Return [start, end+1] if found else empty list."""
i = list_find(what, where)
return [i, i + len(what)] if i >= 0 else [] #NOTE: bool([]) == False

if __name__=="__main__":
import doctest; doctest.testmod()
``````

If we refine the problem talking about testing if a list contains another list with as a sequence, the answer could be the next one-liner:

``````def contains(subseq, inseq):
return any(inseq[pos:pos + len(subseq)] == subseq for pos in range(0, len(inseq) - len(subseq) + 1))
``````

Here unit tests I used to tune up this one-liner:

https://gist.github.com/anonymous/6910a85b4978daee137f

• I think this is the answer for me! nice one-liner, looks right. – hwjp Dec 27 '16 at 12:06
• incidentally though, I think `return True` might pass all those unit tests. – hwjp Dec 28 '16 at 17:37

Smallest code:

``````def contains(a,b):
str(a)[1:-1].find(str(b)[1:-1])>=0
``````

Here is my answer. This function will help you to find out whether B is a sub-list of A. Time complexity is O(n).

```````def does_A_contain_B(A, B): #remember now A is the larger list
b_size = len(B)
for a_index in range(0, len(A)):
if A[a_index : a_index+b_size]==B:
return True
else:
return False`
``````

I tried to make this as efficient as possible.

It uses a generator; those unfamiliar with these beasts are advised to check out their documentation and that of yield expressions.

Basically it creates a generator of values from the subsequence that can be reset by sending it a true value. If the generator is reset, it starts yielding again from the beginning of `sub`.

Then it just compares successive values of `sequence` with the generator yields, resetting the generator if they don't match.

When the generator runs out of values, i.e. reaches the end of `sub` without being reset, that means that we've found our match.

Since it works for any sequence, you can even use it on strings, in which case it behaves similarly to `str.find`, except that it returns `False` instead of `-1`.

As a further note: I think that the second value of the returned tuple should, in keeping with Python standards, normally be one higher. i.e. `"string"[0:2] == "st"`. But the spec says otherwise, so that's how this works.

It depends on if this is meant to be a general-purpose routine or if it's implementing some specific goal; in the latter case it might be better to implement a general-purpose routine and then wrap it in a function which twiddles the return value to suit the spec.

``````def reiterator(sub):
"""Yield elements of a sequence, resetting if sent ``True``."""
it = iter(sub)
while True:
if (yield it.next()):
it = iter(sub)

def find_in_sequence(sub, sequence):
"""Find a subsequence in a sequence.

>>> find_in_sequence([2, 1], [-1, 0, 1, 2])
False
>>> find_in_sequence([-1, 1, 2], [-1, 0, 1, 2])
False
>>> find_in_sequence([0, 1, 2], [-1, 0, 1, 2])
(1, 3)
>>> find_in_sequence("subsequence",
...                  "This sequence contains a subsequence.")
(25, 35)
>>> find_in_sequence("subsequence", "This one doesn't.")
False

"""
start = None
sub_items = reiterator(sub)
sub_item = sub_items.next()
for index, item in enumerate(sequence):
if item == sub_item:
if start is None: start = index
else:
start = None
try:
sub_item = sub_items.send(start is None)
except StopIteration:
# If the subsequence is depleted, we win!
return (start, index)
return False
``````
• A valiant effort, but this has worse performance than either eumiro or Dave Kirby's solutions. 8.2s on the benchmark I described in the other comments. – Tim Yates Oct 2 '10 at 22:21
• Interesting to see the speed difference for native code. It seems like this algorithm would be relatively faster for longer subsequences.. how long was/were the subsequence(s) you used in the test? – intuited Oct 2 '10 at 22:37
• You're right. This performed much better than eumiro's solution with larger subsequences, but it still didn't perform as well as Dave's. – Tim Yates Oct 2 '10 at 22:50

I think this one is fast...

``````def issublist(subList, myList, start=0):
if not subList: return 0
lenList, lensubList = len(myList), len(subList)
try:
while lenList - start >= lensubList:
start = myList.index(subList[0], start)
for i in xrange(lensubList):
if myList[start+i] != subList[i]:
break
else:
return start, start + lensubList - 1
start += 1
return False
except:
return False
``````

The problem of most of the answers, that they are good for unique items in list. If items are not unique and you still want to know whether there is an intersection, you should count items:

``````from collections import Counter as count

def listContains(l1, l2):
list1 = count(l1)
list2 = count(l2)

return list1&list2 == list1

print( listContains([1,1,2,5], [1,2,3,5,1,2,1]) ) # Returns True
print( listContains([1,1,2,8], [1,2,3,5,1,2,1]) ) # Returns False
``````

You can also return the intersection by using `''.join(list1&list2)`