I found, that there is related question, about how to find if at least one item exists in a list:
How to check if one of the following items is in a list?

But what is the best and pythonic way to find whether all items exists in a list?

Searching through the docs I found this solution:

>>> l = ['a', 'b', 'c']
>>> set(['a', 'b']) <= set(l)
>>> set(['a', 'x']) <= set(l)

Other solution would be this:

>>> l = ['a', 'b', 'c']
>>> all(x in l for x in ['a', 'b'])
>>> all(x in l for x in ['a', 'x'])

But here you must do more typing.

Is there any other solutions?


8 Answers 8


Operators like <= in Python are generally not overriden to mean something significantly different than "less than or equal to". It's unusual for the standard library does this--it smells like legacy API to me.

Use the equivalent and more clearly-named method, set.issubset. Note that you don't need to convert the argument to a set; it'll do that for you if needed.

set(['a', 'b']).issubset(['a', 'b', 'c'])
  • 5
    didn't know you could pass the list directly as an argument to issubset ... nice !
    – tsimbalar
    Oct 14, 2010 at 9:10
  • 4
    While I agree with the sentiment, I'm pretty OK with the idea of <= and issubset meaning the same thing. Why do you dislike it? Oct 14, 2010 at 13:25
  • 8
    @Just: Primarily, because it's not obvious what <= means for a set without either looking it up in the docs or having a prior knowledge of what it means in set theory, whereas everyone knows what issubset means automatically. Oct 14, 2010 at 21:04
  • 6
    You know the mathematical operator for (non-proper) subset? it basically looks pretty much like a rounded <= ;)
    – dom0
    Aug 14, 2013 at 22:48
  • love this solution. is there a way to get an index location or a list value instead of a bool (True:False)?
    – Vlad Gulin
    Nov 16, 2018 at 23:05

I would probably use set in the following manner :


or the other way round :


I find it a bit more readable, but it may be over-kill. Sets are particularly useful to compute union/intersection/differences between collections, but it may not be the best option in this situation ...

  • Actually, MySet.issubset(MyOtherSet) and MySet <= MyOtherSet are the same.
    – Wok
    Oct 14, 2010 at 9:03
  • 1
    @wok : oh I didn't know that, but I think the <= syntax is a bit confusing as a similar syntax can be used with lists, but with a very different meaning.
    – tsimbalar
    Oct 14, 2010 at 9:07
  • 3
    it's not really that confusing if you recall the inclusion defines a partial order on any set of sets. It's actually slightly confusing that <= has the meaning it does for sequences: one might expect it to mean 'is a subsequence` of rather than lexicographical ordering. Oct 14, 2010 at 9:12
  • 2
    @aaronasterling : mmm, I personnally don't think too much about "partial order" when I type code :-), but I agree on the fact that using <= with sequences also feels strange, somehow ...
    – tsimbalar
    Oct 14, 2010 at 9:16
  • 7
    I ran into a little gotcha here I'd like to mention: If you use this method, you are converting your lists to sets, which means no duplicates. set(['a','a']).issubset(['a']) returns True.
    – Orangestar
    Dec 22, 2015 at 8:47

I like these two because they seem the most logical, the latter being shorter and probably fastest (shown here using set literal syntax which has been backported to Python 2.7):

all(x in {'a', 'b', 'c'} for x in ['a', 'b'])
#   or
{'a', 'b'}.issubset({'a', 'b', 'c'})
  • The "all" solution is the quickest when you measure it with timeit(). This should be the accepted answer.
    – Attersson
    Feb 6, 2019 at 12:05

What if your lists contain duplicates like this:

v1 = ['s', 'h', 'e', 'e', 'p']
v2 = ['s', 's', 'h']

Sets do not contain duplicates. So, the following line returns True.


To count for duplicates, you can use the code:

v1 = sorted(v1)
v2 = sorted(v2)

def is_subseq(v2, v1):
    """Check whether v2 is a subsequence of v1."""
    it = iter(v1)
    return all(c in it for c in v2) 

So, the following line returns False.

is_subseq(v2, v1)

Not OP's case, but - for anyone who wants to assert intersection in dicts and ended up here due to poor googling (e.g. me) - you need to work with dict.items:

>>> a = {'key': 'value'}
>>> b = {'key': 'value', 'extra_key': 'extra_value'}
>>> all(item in a.items() for item in b.items())
>>> all(item in b.items() for item in a.items())

That's because dict.items returns tuples of key/value pairs, and much like any object in Python, they're interchangeably comparable


Another solution would be:

l = ['a', 'b', 'c']
potential_subset1 = ['a', 'b']
potential_subset2 = ['a', 'x']
print(False not in [i in l for i in potential_subset1]) # True
print(False not in [i in l for i in potential_subset2]) # False

What makes my solution great is that you can write one-liners by putting the lists inline.


An example of how to do this using a lambda expression would be:

issublist = lambda x, y: 0 in [_ in x for _ in y]
  • 3
    Please add comments to explain/elaborate your answer
    – Sharad
    Jan 29, 2019 at 17:41
  • 2
    Note that using _ as a variable name is confusing in this case. This is because by convention, _ is used for a variable whose value you do not use ("throwaway variable"). see: stackoverflow.com/a/5893946/4948719
    – tbrugere
    Aug 15, 2022 at 10:27
  • @Nephanth 3 years later... thanks now I know.
    – Jundullah
    Aug 15, 2022 at 15:38

Short syntax

I discovered a very readable syntax while experimenting on the Python interpreter.

>>> my_list = [1, 2, 3, 4, 5]
>>> (6 or 7) in my_list
>>> (2 or 6) in my_list
>>> (2 and 6) in my_list
>>> (2 and 5) in my_list

List of items to search for

If you have a long list of objects to search for, held in a sub_list variable:

>>> my_list = [1, 2, 3, 4, 5]
>>> sub_list = ['x', 'y']

If any (at least one) item is contained in the superset (or statement):

>>> next((True for item in sub_list if next((True for x in my_list if x == item), False)), False)

>>> sub_list[0] = 3
>>> next((True for item in sub_list if next((True for x in my_list if x == item), False)), False)

If all items are contained in superset (and statement), then sub_list is a full subset. Also featuring a bit of De Morgan's Law:

>>> next((False for item in sub_list if item not in my_list), True)

>>> sub_list[1] = 2
>>> next((False for item in sub_list if item not in my_list), True)
>>> next((True for item in sub_list if next((True for x in my_list if x == item), False)), False)
  • 2
    The top syntax looks nice, but it's misleading. It's actually only using one number in the in statement. So (2 or 6) in my_list is True because (2 or 6) is 2, but (6 or 2) in my_list is False because (6 or 2) is 6. Feb 10, 2023 at 15:55

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