Check if two unordered lists are equal
sorted(x) == sorted(y)
Copying from here: Check if two unordered lists are equal
I think this is the best answer for this question because
- It is better than using counter as pointed in this answer
- x.sort() sorts x, which is a side effect. sorted(x) returns a new list.
If elements are always nearly sorted as in your example then builtin .sort() (timsort) should be fast:
>>> a = [1,1,2]
>>> b = [1,2,2]
>>> a.sort()
>>> b.sort()
>>> a == b
False
If you don't want to sort inplace you could use sorted().
In practice it might always be faster then collections.Counter() (despite asymptotically O(n) time being better then O(n*log(n)) for .sort()). Measure it; If it is important.
Python has a built-in datatype for an unordered collection of (hashable) things, called a set. If you convert both lists to sets, the comparison will be unordered.
set(x) == set(y)
Documentation on set
EDIT: @mdwhatcott points out that you want to check for duplicates. set ignores these, so you need a similar data structure that also keeps track of the number of items in each list. This is called a multiset; the best approximation in the standard library is a collections.Counter:
>>> import collections
>>> compare = lambda x, y: collections.Counter(x) == collections.Counter(y)
>>>
>>> compare([1,2,3], [1,2,3,3])
False
>>> compare([1,2,3], [1,2,3])
True
>>> compare([1,2,3,3], [1,2,2,3])
False
>>>
You want to see if they contain the same elements, but don't care about the order.
You can use a set:
>>> set(['one', 'two', 'three']) == set(['two', 'one', 'three'])
True
But the set object itself will only contain one instance of each unique value, and will not preserve order.
>>> set(['one', 'one', 'one']) == set(['one'])
True
So, if tracking duplicates/length is important, you probably want to also check the length:
def are_eq(a, b):
return set(a) == set(b) and len(a) == len(b)