For copying a list: shallow_copy_of_list = old_list[:].

For copying a dict: shallow_copy_of_dict = dict(old_dict).

But for a set, I was worried that a similar thing wouldn't work, because saying new_set = set(old_set) would give a set of a set?

But it does work. So I'm posting the question and answer here for reference. In case anyone else has the same confusion.

2 Answers 2


Both of these will give a duplicate of a set:

shallow_copy_of_set = set(old_set)


shallow_copy_of_set = old_set.copy() #Which is more readable.

The reason that the first way above doesn't give a set of a set, is that the proper syntax for that would be set([old_set]). Which wouldn't work, because sets can't be elements in other sets, because they are unhashable by virtue of being mutable. However, this isn't true for frozensets, so e.g. frozenset(frozenset(frozenset([1,2,3]))) == frozenset([1, 2, 3]).

So a rule of thumb for replicating any of instance of the basic data structures in Python (lists, dict, set, frozenset, string):

a2 = list(a)      #a is a list
b2 = set(b)       #b is a set
c2 = dict(c)      #c is a dict
d2 = frozenset(d) #d is a frozenset
e2 = str(e)       #e is a string
#All of the above give a (shallow) copy.

So, if x is either of those types, then

shallow_copy_of_x = type(x)(x) #Highly unreadable! But economical.

Note that only dict, set and frozenset have the built-in copy() method. It would probably be a good idea that lists and strings had a copy() method too, for uniformity and readability. But they don't, at least in Python 2.7.3 which I'm testing with.

  • Note: In 3.3+, lists have a .copy() method. str does not, but it also doesn't need one; it's immutable, so copying is meaningless (for general sequence types, you can slice with [:], which works on str, it's just pointless). If you really need to handle shallow-copying arbitrary types (silently reusing the existing object for immutable types like str), you'd just use the copy module, and do shallow_copy_of_x = copy.copy(x) (which is significantly clearer than type(x)(x), and handles types where the constructor doesn't accept an instance of the class). Commented Oct 14, 2020 at 16:12

Besides the type(x)(x) hack, you can import copy module to make either shallow copy or deep copy:

In [29]: d={1: [2,3]}

In [30]: sd=copy.copy(d)
    ...: sd[1][0]=321
    ...: print d
{1: [321, 3]}

In [31]: dd=copy.deepcopy(d)
    ...: dd[1][0]=987
    ...: print dd, d
{1: [987, 3]} {1: [321, 3]}

From the docstring:

Definition: copy.copy(x)
Shallow copy operation on arbitrary Python objects.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.