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Python has an ordered dictionary, what about an ordered set?

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what about the converse, a bag of things? (unordered and non-unique) – wim Jul 22 '11 at 12:59
@wim collections.Counter is Python's bag. – flornquake Sep 15 '13 at 23:16

11 Answers 11

up vote 122 down vote accepted

There is an ordered set recipe for this which is referred to from the Python Documentation. This runs on Py2.6 or later and 3.0 or later without any modifications. The interface is almost exactly the same as a normal set, except that initialisation should be done with a list.

OrderedSet([1, 2, 3])

This is a MutableSet, so the signature for .union doesn't match that of set, but since it includes __or__ something similar can easily be added:

def union(*sets):
    union = OrderedSet()
    return union

def union(self, *sets):
    for set in sets:
        self |= set
share|improve this answer
I selected my own answer because the reference from the documentation makes this close to an official answer – Casebash Dec 10 '10 at 0:59
The interface is NOT exactly the same as the normal set object, many essential methods are missing such as update, union, intersection. – xApple Dec 14 '12 at 12:48
FYI, I noticed that a slightly modified version of the recipe cited in this answer has been added to PyPi as "ordered-set" – Geoffrey Hing Feb 24 '14 at 16:35
I'm pretty sure you're not allowed to have two methods both called union in the same class. The last one will "win" and the first one will fail to exist at runtime. This is because OrderedSet.union (no parens) has to refer to a single object. – Kevin Dec 5 '14 at 17:38

An ordered set is functionally a special case of an ordered dictionary.

The keys of a dictionary are unique. Thus, if one disregards the values in an ordered dictionary (e.g. by assigning them None), then one has essentially an ordered set.

As of Python 3.1 there is collections.OrderedDict. The following is an example implementation of an OrderedSet. (Note that only few methods need to be defined or overridden: collections.OrderedDict and collections.MutableSet do the heavy lifting.)

import collections

class OrderedSet(collections.OrderedDict, collections.MutableSet):

    def update(self, *args, **kwargs):
        if kwargs:
            raise TypeError("update() takes no keyword arguments")

        for s in args:
            for e in s:

    def add(self, elem):
        self[elem] = None

    def discard(self, elem):
        self.pop(elem, None)

    def __le__(self, other):
        return all(e in other for e in self)

    def __lt__(self, other):
        return self <= other and self != other

    def __ge__(self, other):
        return all(e in self for e in other)

    def __gt__(self, other):
        return self >= other and self != other

    def __repr__(self):
        return 'OrderedSet([%s])' % (', '.join(map(repr, self.keys())))

    def __str__(self):
        return '{%s}' % (', '.join(map(repr, self.keys())))

    difference = property(lambda self: self.__sub__)
    difference_update = property(lambda self: self.__isub__)
    intersection = property(lambda self: self.__and__)
    intersection_update = property(lambda self: self.__iand__)
    issubset = property(lambda self: self.__le__)
    issuperset = property(lambda self: self.__ge__)
    symmetric_difference = property(lambda self: self.__xor__)
    symmetric_difference_update = property(lambda self: self.__ixor__)
    union = property(lambda self: self.__or__)
share|improve this answer
A useful approximation for several purposes, but it doesn't have the nice set operations. – Casebash Oct 31 '09 at 11:01
@Casebash: yes, one may want to define a class OrderedSet which subclasses OrderedDict and abc.Set and then define __len__, __iter__ and __contains__. – Stephan202 Oct 31 '09 at 11:12
@Stephan202: Regrettably, the collection ABCs live in collections, but otherwise a good suggestion – u0b34a0f6ae Oct 31 '09 at 14:58
This is true, but you do have a lot of wasted space as a result, which leads to suboptimal performance. – BlackSheep Oct 3 '12 at 15:11
An addition; collections.OrderedDict is also available in python 2.7. – Nurbldoff Sep 18 '13 at 12:11

Implementations on PyPI

While others have pointed out that there is no built-in implementation of an insertion-order preserving set in Python (yet), I am feeling that this question is missing an answer which states what there is to be found on PyPI.

To the best of my knowledge there currently is:

Both implementations are based on the recipe posted by Raymond Hettinger to ActiveState which is also mentioned in other answers here. I have checked out both and identified the following

critical differences:

  • ordered-set (version 1.1)
    • advantage: O(1) for lookups by index (e.g. my_set[5])
    • disadvantage: remove(item) not implemented
  • oset (version 0.1.3)
    • advantage: O(1) for remove(item)
    • disadvantage: apparently O(n) for lookups by index

Both implementations have O(1) for add(item) and __contains__(item) (item in my_set).

Unfortunately neither implementation has method-based set operations like set1.union(set2) -> You have to use the operator-based form like set1 | set2 instead. See the Python documentation on Set Objects for a full list of set operation methods and their operator-based equivalents.

I first went with ordered-set until I used remove(item) for the first time which crashed my script with a NotImplementedError. As I have never used lookup by index so far, I meanwhile switched to oset.

If you know about other implementations on PyPI, let me know in the comments.

share|improve this answer
A new contender is collections_extended.setlist. Functions like set.union don't work on it though, even though it inherits – timdiels Mar 16 at 23:20
OrderedSet now supports remove – warvariuc Mar 19 at 7:22

If you're using the ordered set to maintain a sorted order, consider using a sorted set implementation from PyPI. The sortedcontainers module provides a SortedSet for just this purpose. Some benefits: pure-Python, fast-as-C implementations, 100% unit test coverage, hours of stress testing.

Installing from PyPI is easy with pip:

pip install sortedcontainers

Note that if you can't pip install, simply pull down the and files from the open-source repository.

Once installed you can simply:

from sortedcontainers import SortedSet

The sortedcontainers module also maintains a performance comparison with several alternative implementations.

For the comment that asked about Python's bag data type, there's alternatively a SortedList data type which can be used to efficiently implement a bag.

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Note that the SortedSet class there requires members to be comparable and hashable. – gsnedders Nov 24 '14 at 19:28
@gsnedders The builtins set and frozenset also require elements to be hashable. The comparable constraint is the addition for SortedSet, but it's also an obvious constraint. – gotgenes Jan 29 '15 at 19:23

I can do you one better than an OrderedSet: boltons has a pure-Python, 2/3-compatible IndexedSet type that is not only an ordered set, but also supports indexing (as with lists).

Simply pip install boltons (or copy into your codebase), import the IndexedSet and:

>>> x = IndexedSet(list(range(4)) + list(range(8)))
>>> x
IndexedSet([0, 1, 2, 3, 4, 5, 6, 7])
>>> x - set(range(2))
IndexedSet([2, 3, 4, 5, 6, 7])
>>> x[-1]
>>> fcr = IndexedSet('')
>>> ''.join(fcr[:fcr.index('.')])

Everything is unique and retained in order. Full disclosure: I wrote the IndexedSet, but that also means you can bug me if there are any issues. :)

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A little late to the game, but I've written a class setlist as part of collections-extended that fully implements both Sequence and Set

>>> from collections_extended import setlist
>>> sl = setlist('abracadabra')
>>> sl
setlist(('a', 'b', 'r', 'c', 'd'))
>>> sl[3]
>>> sl[-1]
>>> 'r' in sl  # testing for inclusion is fast
>>> sl.index('d')  # so is finding the index of an element
>>> sl.insert(1, 'd')  # inserting an element already in raises a ValueError
>>> sl.index('d')




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In case you're already using pandas in your code, its Index object behaves pretty like an ordered set, as shown in this article.

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For many purposes simply calling sorted will suffice. For example

>>> s = set([0, 1, 2, 99, 4, 40, 3, 20, 24, 100, 60])
>>> sorted(s)
[0, 1, 2, 3, 4, 20, 24, 40, 60, 99, 100]

If you are going to use this repeatedly, there will be overhead incurred by calling the sorted function so you might want to save the resulting list, as long as you're done changing the set. If you need to maintain unique elements and sorted, I agree with the suggestion of using OrderedDict from collections with an arbitrary value such as None.

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The purpose for OrderedSet is to be able to get the items in the order which they where added to the set. You example could maybe called SortedSet... – Periodic Maintenance Feb 21 '13 at 14:01
Didn't know about sorted(), thanks! – Daniel Reis Oct 27 '13 at 18:43

There are four kinds of ordering one might want, I believe:

  1. Ordered by key
  2. Ordered by value (I've not heard of anyone ask for this one though)
  3. Ordered by modification time
  4. Ordered by addition time

I believe collections.OrderedDict gets you #4. Or you could remove a key and re-add it, for #3.

For #1, you probably should check into a red-black tree or treap:

Red-Black trees have low variability in operation times (so might be better for interactive applications), but aren't as fast as treaps on average (which might be better for batch processing - treaps don't reorganize themselves often making them fast on average, but when they do reorganize it might take a relatively long while).

Both of these are established data structures with implementations in many languages.

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Sorry, while this might be true, it doesn't answer the question at all, which is specifically not about ordered dictionaries, but about ordered sets (in Python). – Paŭlo Ebermann Jun 3 '12 at 12:58
>>> a = {3, 4, 2, 6, 1, 7}
>>> type(a)
<class 'set'>
>>> sorted(a, reverse=True)
[7, 6, 4, 3, 2, 1]
>>> sorted(a)
[1, 2, 3, 4, 6, 7]
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The OP asks for the set equivalent of an OrderedDict which preserves insertion-order of keys. An OrderedSet is therefore regarded as a set which preserves insertion-order of added elements. – Daniel Apr 26 '14 at 12:14

You can use reduce() to get a list of unique values in one line:

>>> mylist = [4, 1, 2, 1, 3, 2, 4, 1, 3, 2, 3, 1, 3, 2, 4]
>>> reduce(lambda a, b: b[0] in a and a or a + b, [[i] for i in mylist])
[4, 1, 2, 3]
share|improve this answer
The OP is asking for a set implementation that maintains the insert order, not how to find the unique values in a list. – cpburnz Nov 19 '14 at 18:51
and this code is better written as list(set(mylist)) – Antti Haapala Feb 21 '15 at 9:03
@AnttiHaapala Not true. That wouldn't work if mylist is a string. – mbomb007 Oct 5 '15 at 15:56
@mbomb007 Of ourse it works. – Nuno André Nov 14 '15 at 1:35
If one is using set only for get unique values, it works. And it is not equal list(set(mylist)), becouse this code mantains the order of elements, set(mylist) does not. – Danilo Apr 7 at 0:57

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