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I found, that there is related question, about how to find if at least one item exists in a list:

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

Searching througth 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?

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What's wrong with set(smaller) <= set(larger) ? – eumiro Oct 14 '10 at 8:58

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 ...

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Actually, MySet.issubset(MyOtherSet) and MySet <= MyOtherSet are the same. – Wok Oct 14 '10 at 9:03
@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 '10 at 9:07
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. – aaronasterling Oct 14 '10 at 9:12
@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 '10 at 9:16
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 '15 at 8:47

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'])
share|improve this answer
didn't know you could pass the list directly as an argument to issubset ... nice ! – tsimbalar Oct 14 '10 at 9:10
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? – Kirk Strauser Oct 14 '10 at 13:25
@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. – Glenn Maynard Oct 14 '10 at 21:04
You know the mathematical operator for (non-proper) subset? it basically looks pretty much like a rounded <= ;) – dom0 Aug 14 '13 at 22:48

I like these two because they seem the most logical, the latter being shorter and probably fastest (shown here using new Set Literals which were backported to Python 2.7):

all(x in {'a', 'b', 'c'} for x in ['a', 'b'])
# or
{'a', 'b'}.issubset({'a', 'b', 'c'})
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