a = [1, 2, 3, 1, 2, 3]
b = [3, 2, 1, 3, 2, 1]
a & b should be considered equal, because they have exactly the same elements, only in different order.
The thing is, my actual lists will consist of objects (my class instances), not integers.
a & b should be considered equal, because they have exactly the same elements, only in different order. The thing is, my actual lists will consist of objects (my class instances), not integers. 


O(n): The Counter() method is best (if your objects are hashable):
O(n log n): The sorted() method is next best (if your objects are orderable):
O(n * n): If the objects are neither hashable, nor orderable, you can use equality:



If you know the items are always hashable, you can use a In the general case you can't rely on being able to sort, or has the elements, so you need a fallback like this, which is unfortunately O(n^2)



You can sort both:
A counting sort could also be more efficient (but it requires the object to be hashable).



The best way to do this is by sorting the lists and comparing them. (Using
It gets a little trickier with arbitrary objects. If you care about object identity, i.e., whether the same objects are in both lists, you can use the
(In Python 2.x you don't actually need the If you want to compare the objects in the list by value, on the other hand, first you need to define what "value" means for the objects. Then you will need some way to provide that as a key (and for Python 3, as a consistent type). One potential way that would work for a lot of arbitrary objects is to sort by their
If the objects are all your own types, you can define 


Let a,b lists
No need to make them hashable or sort them. 


I hope the below piece of code might work in your case :
This will ensure that all the elements in both the lists For better understanding, refer to my answer in this question 


If the comparison is to be performed in a testing context, use Works on sequences of unhashable objects too. 

