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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.

share|improve this question
How are the objects compared? – Marcelo Cantos Oct 19 '11 at 22:22
what's the expected size of the real lists? Will the lists being compared be of comparable sizes or very different? Do you expect most lists to match or not? – Dmitry B. Oct 19 '11 at 22:23
up vote 79 down vote accepted

O(n): The Counter() method is best (if your objects are hashable):

def compare(s, t):
    return Counter(s) == Counter(t)

O(n log n): The sorted() method is next best (if your objects are orderable):

def compare(s, t):
    return sorted(s) == sorted(t)

O(n * n): If the objects are neither hashable, nor orderable, you can use equality:

def compare(s, t):
    t = list(t)   # make a mutable copy
        for elem in s:
    except ValueError:
        return False
    return not t
share|improve this answer
Thank you. I converted each object to a string then used the Counter() method. – johndir Oct 21 '11 at 22:28
what about string – Abhishek Goswami Jul 23 '15 at 13:57

If you know the items are always hashable, you can use a Counter() which is O(n)
If you know the items are always sortable, you can use sorted() which is O(n log n)

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)

len(a)==len(b) and all(a.count(i)==b.count(i) for i in a)
share|improve this answer

You can sort both:

sorted(a) == sorted(b)

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

>>> from collections import Counter
>>> a = [1, 2, 3, 1, 2, 3]
>>> b = [3, 2, 1, 3, 2, 1]
>>> print (Counter(a) == Counter(b))
share|improve this answer
This does not work with objects in the intended way. – schlamar Oct 19 '11 at 22:21
The Counter does use hashing, but objects are not unhashable per se. You just have to implements a sensible __hash__, but that might be impossible for collections. – Jochen Ritzel Oct 19 '11 at 22:23
Yes, does not work with all objects might be better ;-) – schlamar Oct 19 '11 at 22:28
sorted won't work for everything either, eg complex numbers sorted([0, 1j]) – John La Rooy Oct 19 '11 at 22:56
sorted() also doesn't work with sets where the comparison operators have been overridden for subset/superset tests. – Raymond Hettinger Oct 19 '11 at 23:10

The best way to do this is by sorting the lists and comparing them. (Using Counter won't work with objects that aren't hashable.) This is straightforward for integers:

sorted(a) == sorted(b)

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 id() function as the sort key.

sorted(a, key=id) == sorted(b, key==id)

(In Python 2.x you don't actually need the key= parameter, because you can compare any object to any object. The ordering is arbitrary but stable, so it works fine for this purpose; it doesn't matter what order the objects are in, only that the ordering is the same for both lists. In Python 3, though, comparing objects of different types is disallowed in many circumstances -- for example, you can't compare strings to integers -- so if you will have objects of various types, best to explicitly use the object's ID.)

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 repr(). Of course, this could waste a lot of extra time and memory building repr() strings for large lists and so on.

sorted(a, key=repr) == sorted(b, key==repr)

If the objects are all your own types, you can define __lt__() on them so that the object knows how to compare itself to others. Then you can just sort them and not worry about the key= parameter. Of course you could also define __hash__() and use Counter, which will be faster.

share|improve this answer

Let a,b lists

def ass_equal(a,b):
    map(lambda x: a.pop(a.index(x)), b) # try to remove all the elements of b from a, on fail, throw exception
    if len(a) == 0: # if a is empty, means that b has removed them all
        return True 
    return False # b failed to remove some items from a

No need to make them hashable or sort them.

share|improve this answer
Yes but this is O(n**2) as several other posters stated, so should only be used if the other methods don't work. It also assumes a supports pop (is mutable) and index (is a sequence). Raymond's assumes neither while gnibbler's assumes only a sequence. – agf Oct 20 '11 at 0:05

I hope the below piece of code might work in your case :-

if ((len(a) == len(b)) and
   (all(i in a for i in b))):
    print 'True'
    print 'False'

This will ensure that all the elements in both the lists a & b are same, regardless of whether they are in same order or not.

For better understanding, refer to my answer in this question

share|improve this answer

If the comparison is to be performed in a testing context, use assertCountEqual(a, b) (py>=3.2) and assertItemsEqual(a, b) (2.7<=py<3.2).

Works on sequences of unhashable objects too.

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