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?
  • 144
    @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
    On CPython 3.6+ unique = list(dict.fromkeys([1, 2, 1]).keys()). This works because dicts preserve insertion order now. – Boris May 6 '20 at 22:27

12 Answers 12

  1. A set is an unordered data structure, so it does not preserve the insertion order.

  2. This depends on your requirements. If you have an normal list, and want to remove some set of elements while preserving the order of the list, you can do this with a list comprehension:

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

    If you need a data structure that supports both fast membership tests and preservation of insertion order, you can use the keys of a Python dictionary, which starting from Python 3.7 is guaranteed to preserve the insertion order:

    >>> a = dict.fromkeys([1, 2, 20, 6, 210])
    >>> b = dict.fromkeys([6, 20, 1])
    >>> dict.fromkeys(x for x in a if x not in b)
    {2: None, 210: None}

    b doesn't really need to be ordered here – you could use a set as well. Note that a.keys() - b.keys() returns the set difference as a set, so it won't preserve the insertion order.

    In older versions of Python, you can use collections.OrderedDict instead:

    >>> 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)])
  • 4
    None object costs 16 bytes. If only there is an default OrderedSet(). :( – Sean Nov 6 '17 at 8:43
  • 2
    @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 Aug 14 '19 at 20:41
  • 2
    On CPython 3.6+ you can just do dict.fromkeys([1, 2, 1]).keys() because regular dicts preserve order too. – Boris May 6 '20 at 22:27
  • @Boris This has only been part of the language specification starting from Python 3.7. While the CPython implementation already preserves insertion order in version 3.6, this is considered an implementation detail which may not be followed by other Python implementations. – Sven Marnach May 7 '20 at 9:16
  • @Sven I said CPython. I post this everywhere, I'm just getting tired of writing "CPython 3.6 or any other implementation starting with Python 3.7". It doesn't even matter, everyone is using CPython – Boris May 7 '20 at 12:06

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
  • 31
    @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
  • 8
    @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
  • 3
    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
  • 5
    I cannot understand why this answer has so many upvotes, it does not keep insertion order, neither returns a set. – Igor Rodriguez Oct 25 '19 at 12:46

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.


Remove duplicates and preserve order by below function

def unique(sequence):
    seen = set()
    return [x for x in sequence if not (x in seen or seen.add(x))]

How to remove duplicates from a list while preserving order in Python


In mathematics, there are sets and ordered sets (osets).

  • set: an unordered container of unique elements (Implemented)
  • oset: an ordered container of unique elements (NotImplemented)

In Python, only sets are directly implemented. We can emulate osets with regular dict keys (3.7+).


a = [1, 2, 20, 6, 210, 2, 1]
b = {2, 6}


oset = dict.fromkeys(a).keys()
# dict_keys([1, 2, 20, 6, 210])


Replicates are removed, insertion-order is preserved.

# [1, 2, 20, 6, 210]

Set-like operations on dict keys.

oset - b
# {1, 20, 210}

oset | b
# {1, 2, 5, 6, 20, 210}

oset & b
# {2, 6}

oset ^ b
# {1, 5, 20, 210}


Note: an unordered structure does not preclude ordered elements. Rather, maintained order is not guaranteed. Example:

assert {1, 2, 3} == {2, 3, 1}                    # sets (order is ignored)

assert [1, 2, 3] != [2, 3, 1]                    # lists (order is guaranteed)

One may be pleased to discover that a list and multiset (mset) are two more fascinating, mathematical data structures:

  • list: an ordered container of elements that permits replicates (Implemented)
  • mset: an unordered container of elements that permits replicates (NotImplemented)*


Container | Ordered | Unique | Implemented
set       |    n    |    y   |     y
oset      |    y    |    y   |     n
list      |    y    |    n   |     y
mset      |    n    |    n   |     n*  

*A multiset can be indirectly emulated with collections.Counter(), a dict-like mapping of multiplicities (counts).

  • also, there are partial ordered sets (posets) – Luis Felipe Sep 7 '20 at 19:21
  • And cosets, but I did not think they were germane to topic of common data structures found in the Python standard library :) – pylang Sep 7 '20 at 21:26

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

You can remove the duplicated values and keep the list order of insertion with one line of code, Python 3.8.2

mylist = ['b', 'b', 'a', 'd', 'd', 'c']

results = list({value:"" for value in mylist})


>>> ['b', 'a', 'd', 'c']

results = list(dict.fromkeys(mylist))


>>> ['b', 'a', 'd', 'c']

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.


It's interesting that people always use 'real world problem' to make joke on the definition in theoretical science.

If set has order, you first need to figure out the following problems. If your list has duplicate elements, what should the order be when you turn it into a set? What is the order if we union two sets? What is the order if we intersect two sets with different order on the same elements?

Plus, set is much faster in searching for a particular key which is very good in sets operation (and that's why you need a set, but not list).

If you really care about the index, just keep it as a list. If you still want to do set operation on the elements in many lists, the simplest way is creating a dictionary for each list with the same keys in the set along with a value of list containing all the index of the key in the original list.

def indx_dic(l):
    dic = {}
    for i in range(len(l)):
        if l[i] in dic:
            dic[l[i]] = [i]

a = [1,2,3,4,5,1,3,2]
set_a  = set(a)
dic_a = indx_dic(a)

# {1: [0, 5], 2: [1, 7], 3: [2, 6], 4: [3], 5: [4]}
# {1, 2, 3, 4, 5}

Here's an easy way to do it:

print sorted(set(x))
  • 3
    This doesn't preserve the ordering necessarily. – David Boshton Nov 15 '16 at 16:47

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