Recently I noticed that when I am converting a list to set the order of elements is changed and is sorted by character.

Consider this example:

print x 
# [1, 2, 20, 6, 210] # the order is same as initial order

# set([1, 2, 20, 210, 6]) # in the set(x) output order is sorted

My questions are -

  1. Why is this happening?
  2. How can I do set operations (especially Set Difference) without losing the initial order?
  • 8
    Why don't you want to lose the initial order, especially if you're doing set operations? "order" is a meaningless concept for sets, not just in Python but in mathematics. – Karl Knechtel Mar 20 '12 at 18:48
  • 84
    @KarlKnechtel - Yes "order is a meaningless concept for sets...in mathematics" but I have real world problems :) – d.putto Mar 21 '12 at 11:32
  1. A set is an unordered data structure.

  2. Don't use a set, but rather collections.OrderedDict:

    >>> a = collections.OrderedDict.fromkeys([1, 2, 20, 6, 210])
    >>> b = collections.OrderedDict.fromkeys([6, 20, 1])
    >>> collections.OrderedDict.fromkeys(x for x in a if x not in b)
    OrderedDict([(2, None), (210, None)])

    Note that the order of b does not matter, so it could be any iterable, but it should be an iterable which supports O(1) membership tests.

Edit: The answer above assumes that you want to be able to perform (ordered) set operations on all occurring collections, in particular also on the result of a former set operation. If this is not necessary, you can simply use lists for some of the collections, and sets for others, e.g.

>>> a = [1, 2, 20, 6, 210]
>>> b = set([6, 20, 1])
>>> [x for x in a if x not in b]
[2, 210]

This loses the order of b, does not allow fast membership tests on a and the result. Sets allow fast membership tests, and lists keep order. If you need both these features on the same collection, then use collections.OrderedDict.

  • 2
    None object costs 16 bytes. If only there is an default OrderedSet(). :( – Sean Nov 6 '17 at 8:43
  • @Sean no, they do not. None is a language guaranteed singleton. In CPython, a the actual cost is just the pointer (although that cost is always there, but for a dict, you can almost consider None and other singletons or shared references "free"), so a machine word, likely 8 bytes on modern computers. But yeah, it is not as space efficient as a set could be. – juanpa.arrivillaga 2 days ago

In Python 3.6, set() now should keep the order, but there is another solution for Python 2 and 3:

>>> x = [1, 2, 20, 6, 210]
>>> sorted(set(x), key=x.index)
[1, 2, 20, 6, 210]
  • 8
    Two notes regarding order preservation: only as of Python 3.6, and even there, it's considered an implementation detail, so don't rely on it. Apart from that, your code is very inefficient because every time x.index is called, a linear search is performed. If you're fine with quadratic complexity, there is no reason to use a set in the first place. – Thijs van Dien Dec 29 '16 at 11:56
  • 19
    @ThijsvanDien This is wrong, set() is not ordered in Python 3.6, not even as an implementation detail, you're thinking of dicts – Chris_Rands Aug 9 '17 at 12:06
  • @Chris_Rands I stand corrected; they seem to be sorted, rather than keeping the insertion order. Either way: implementation detail. – Thijs van Dien Aug 9 '17 at 17:47
  • 5
    @ThijsvanDien No they're not sorted, although sometimes appear so because ints often hash to themselves stackoverflow.com/questions/45581901/… – Chris_Rands Aug 9 '17 at 18:26
  • 2
    Try x=[1,2,-1,20,6,210] and make it a set. You'll see it's not ordered at all, tested in Python 3.6. – GabrielChu Jul 8 '18 at 1:50

Answering your first question, a set is a data structure optimized for set operations. Like a mathematical set, it does not enforce or maintain any particular order of the elements. The abstract concept of a set does not enforce order, so the implementation is not required to. When you create a set from a list, Python has the liberty to change the order of the elements for the needs of the internal implementation it uses for a set, which is able to perform set operations efficiently.


As denoted in other answers, sets are data structures (and mathematical concepts) that do not preserve the element order -

However, by using a combination of sets and dictionaries, it is possible that you can achieve wathever you want - try using these snippets:

# save the element order in a dict:
x_dict = dict(x,y for y, x in enumerate(my_list) )
x_set = set(my_list)
#perform desired set operations
#retrieve ordered list from the set:
new_list = [None] * len(new_set)
for element in new_set:
   new_list[x_dict[element]] = element

Building on Sven's answer, I found using collections.OrderedDict like so helped me accomplish what you want plus allow me to add more items to the dict:

import collections

OrderedDict([(1, None), (2, None), (20, None), (6, None), (210, None)])

If you want to add items but still treat it like a set you can just do:


And you can perform an operation like z.keys() on the dict and get the set:

[1, 2, 20, 6, 210]
  • you need to do list(z.keys()) to get the list output. – jxn Dec 15 '17 at 23:09
  • in Python 3, yes. not in Python 2, though I should have specified. – jimh Dec 16 '17 at 0:00

An implementation of the highest score concept above that brings it back to a list:

def SetOfListInOrder(incominglist):
    from collections import OrderedDict
    outtemp = OrderedDict()
    for item in incominglist:
        outtemp[item] = None

Tested (briefly) on Python 3.6 and Python 2.7.


In case you have a small number of elements in your two initial lists on which you want to do set difference operation, instead of using collections.OrderedDict which complicates the implementation and makes it less readable, you can use:

# initial lists on which you want to do set difference
>>> nums = [1,2,2,3,3,4,4,5]
>>> evens = [2,4,4,6]
>>> evens_set = set(evens)
>>> result = []
>>> for n in nums:
...   if not n in evens_set and not n in result:
...     result.append(n)
>>> result
[1, 3, 5]

Its time complexity is not that good but it is neat and easy to read.


Here's an easy way to do it:

print sorted(set(x))
  • 2
    This doesn't preserve the ordering necessarily. – David Boshton Nov 15 '16 at 16:47
  • 2
    this answer is correct only if input is sorted – msudder Dec 20 '16 at 17:27

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