Are sets in Python mutable?

In other words, if I do this:

x = set([1, 2, 3])
y = x

y |= set([4, 5, 6])

Are x and y still pointing to the same object, or was a new set created and assigned to y?

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    It is easier to detect than to ask about... print x is y would be applicable as well here. – glglgl Jan 7 '13 at 9:54
  • Yes, They would point to the same object instance – Amyth Jan 7 '13 at 10:02
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    Erm... Are all these down votes because the question is about something that is easy to check? Because I don't currently have access to a Python interpreter, and I couldn't find the answer online, so that's a stupid reason to down vote a question. – Hubro Jan 7 '13 at 10:07
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    If you have access to the internet, how do you not have access to an interpreter? There are numerous in-browser interpreters, as a quick Google search will show you. – agf Jan 7 '13 at 10:19
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    My +1 to the question. The wording may not be the same what is the author thinking about. (Would the question "Are sets in Python really mutable?" be more acceptable?). And also, almost everything can be found in the doc. This way, any question that can be explained via studying the doc would not be legitimate. I do not think there are "stupid questions". Everyone is at a different level. Some beginners may be 70 years old, some experts can be 12. There are different ways of getting knowledge. – pepr Jan 7 '13 at 11:35
>>>> x = set([1, 2, 3])
>>>> y = x
>>>> y |= set([4, 5, 6])

>>>> print x
set([1, 2, 3, 4, 5, 6])
>>>> print y
set([1, 2, 3, 4, 5, 6])

Conclusion: sets are mutable.


Your two questions are different.

Are Python sets mutable?

Yes: "mutable" means that you can change the object. For example, integers are not mutable: you cannot change the number 1 to mean anything else. You can, however, add elements to a set, which mutates it.

Does y = x; y |= {1,2,3} change x?

Yes. The code y = x means "bind the name y to mean the same object that the name x currently represents". The code y |= {1,2,3} calls the magic method y.__ior__({1,2,3}) under the hood, which mutates the object represented by the name y. Since this is the same object as is represented by x, you should expect the set to change.

You can check whether two names point to precisely the same object using the is operator: x is y just if the objects represented by the names x and y are the same object.

If you want to copy an object, the usual syntax is y = x.copy() or y = set(x). This is only a shallow copy, however: although it copies the set object, the members of said object are not copied. If you want a deepcopy, use copy.deepcopy(x).

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    I don't see how the two questions are different. If sets were not mutable, y would be pointing to a different object than x, just like with string concatenation. – Hubro Jan 7 '13 at 10:09
  • @Codemonkey False: x = "hello"; y = x; y is x is True. The syntax y = x always makes y and x point to the same object. Can you explain what you mean by "like with string concatenation"? – Katriel Jan 7 '13 at 10:15
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    @katrielalex But if you then do concatenation, "y += " world", y points to a different object than x, whereas with a mutable object it doesn't, which is what he's doing in the question. – agf Jan 7 '13 at 10:23
  • @agf right, that's a side-effect of mutable objects in the stdlib having __i<foo>__ methods. There's no guarantee that a mutable object will have these, nor that an immutable won't. It's an implementation detail. – Katriel Jan 7 '13 at 10:45
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    You can't assign to s[2] because sets aren't ordered. You can do s.add(4) to add 4 to the set, though. – Katriel Dec 3 '13 at 16:54

After changing the set, even their object references match. I don't know why that textbook says sets are immutable.

    >>> s1 ={1,2,3}
    >>> id(s1)
    >>> s1|={5,6,7}
    >>> s1
    {1, 2, 3, 5, 6, 7}
    >>> id(s1)
  • which textbook was this ? – penta Mar 8 at 9:36
  • Learning python by Mark Lutz (5th Edition). Maybe the textbook was referring to some python version which was released at that point of time. – Ashfaq Ur Rahman N Mar 12 at 12:27
  • If you really want immutable sets, there is something called "frozenset" in python where sets have immutability. – Ashfaq Ur Rahman N Mar 12 at 12:29
print x,y

and you see they both point to the same set:

set([1, 2, 3, 4, 5, 6]) set([1, 2, 3, 4, 5, 6])

Python sets are classified into two types. Mutable and immutable. A set created with 'set' is mutable while the one created with 'frozenset' is immutable.

>>> s = set(list('hello'))
>>> type(s)
<class 'set'>

The following methods are for mutable sets.

s.add(item) -- Adds item to s. Has no effect if listis already in s.

s.clear() -- Removes all items from s.

s.difference_update(t) -- Removes all the items from s that are also in t.

s.discard(item) -- Removes item from s. If item is not a member of s, nothing happens.

All these operations modify the set s in place. The parameter t can be any object that supports iteration.


I don't think Python sets are mutable as mentioned clearly in book "Learning Python 5th Edition by Mark Lutz - Oreilly Publications"

enter image description here

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    The elements of the set are immutable, the set itself is mutable. – Matthäus Brandl Jan 30 '18 at 16:11

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