deepcopy from copy does not copy a class:

>>> class A(object):
>>>     ARG = 1

>>> B = deepcopy(A)

>>> A().ARG
>>> 1

>>> B().ARG
>>> 1

>>> A.ARG = 2

>>> B().ARG
>>> 2

Is it only way?

  • 5
    Note: the correct question would be "How to copy python class instance, or python object", not the python class itself. Mar 2, 2012 at 22:09
  • 40
    Actually, Pavel, it looks like I159 is actually looking to copy the class itself Mar 2, 2012 at 22:14
  • 1
    Not to mention that in Python, a class is just another object, but with a weird __dict__ attribute. Mar 6, 2018 at 21:53

9 Answers 9


In general, inheritance is the right way to go, as the other posters have already pointed out.

However, if you really want to recreate the same type with a different name and without inheritance then you can do it like this:

class B(object):
    x = 3

CopyOfB = type('CopyOfB', B.__bases__, dict(B.__dict__))

b = B()
cob = CopyOfB()

print b.x   # Prints '3'
print cob.x # Prints '3'

b.x = 2
cob.x = 4

print b.x   # Prints '2'
print cob.x # Prints '4'

You have to be careful with mutable attribute values:

class C(object):
    x = []

CopyOfC = type('CopyOfC', C.__bases__, dict(C.__dict__))

c = C()
coc = CopyOfC()


print c.x   # Prints '[1, 2]' (!)
print coc.x # Prints '[1, 2]' (!)
  • Do the dict of copied class linked to the dict of class which was created first?
    – I159
    Nov 14, 2012 at 13:50
  • @I159: That depends on the values in __dict__. Non-mutable attributes are fine, but mutable attribute values (like lists) or background mechanisms of new style classes (e.g. descriptors) will probably bite you. Nov 14, 2012 at 14:15
  • 1
    This works good only if to the attribute x is assigned an immutable type and not a mutable type, because dict(C.__dict__) does only a shallow copy, not a deepcopy.
    – hynekcer
    Nov 22, 2012 at 21:21
  • 1
    @hynekcer: Correct. You can use deepcopy to copy C.__dict__, but you'll eventually run into troubles regarding data and method descriptors for new style classes, IIRC. Nov 23, 2012 at 6:26
  • Beware of globals, this is not enough in case if class functions calls to globals(). Inner globals() calls would be pointed to the module from which the function has been copied. To workaround this you have additionally copy all functions: type(foo)(foo.__code__, globals()), where globals() can point different globals on a moment of copy.
    – Andry
    Sep 18, 2019 at 23:13

The right way to "copy" a class, is, as you surmise, inheritance:

class B(A):
  • 16
    You can also do it using type(), e.g. B = type("B", (A,), {})
    – kindall
    Mar 3, 2012 at 0:04
  • 10
    Inheritance does not do what is required (indempendence of ARG values) unless a value is assigned also to B.ARG.
    – hynekcer
    Nov 22, 2012 at 21:17
  • @hynecker: could you explain what you mean by that? I think this does answer the OP's question Nov 22, 2012 at 21:28
  • 6
    @DavidRobinson With this answer, setting A.ARG will also change B.ARG. This is because ARG doesn't actually appear in B.__dict__, so it gets resolved to A's value at time of access rather than when the copy happens.
    – Quantum7
    Mar 8, 2017 at 8:24

You could use a factory function:

def get_A():
    class A(object):
        ARG = 1
    return A

A = get_A()
B = get_A()
  • 1
    I think this is the most elegant solution and in particular I think this is the only way to do it while preserving type information for mypy.
    – royce3
    Oct 4, 2019 at 14:47
  • B.mro() == [__main__.get.<locals>.A, object], which not everybody wants
    – rindeal
    Nov 5, 2021 at 12:11

As Florian Brucker pointed out, there is a problem with mutable class attributes. You also can't just deepcopy(cls.__dict__) on new style objects. I've done the following to solve this problem for what I'm doing. I'm certain someone determined enough could break this. But, it will work in more cases.

from copy import deepcopy
from typing import TypeVar

Cls = TypeVar('Cls')

# This type hint is a dirty lie to make autocomplete and static
# analyzers give more useful results. Crazy the stuff you can do
# with python...
def copy_class(cls: Cls) -> Cls:
    copy_cls = type(f'{cls.__name__}Copy', cls.__bases__, dict(cls.__dict__))
    for name, attr in cls.__dict__.items():
        except TypeError:
            # Assume lack of __hash__ implies mutability. This is NOT
            # a bullet proof assumption but good in many cases.
            setattr(copy_cls, name, deepcopy(attr))
    return copy_cls

def test_copy_class():
    class A(object):
        mutable_class_var = []

    ACopy = copy_class(A)

    a = A()
    acopy = ACopy()

    assert a.mutable_class_var == []
    assert A.mutable_class_var == []
    assert ACopy.mutable_class_var == [1]
    assert acopy.mutable_class_var == [1]
  • Not that a custom __setattr__ on a metaclass will break this. Probably better to populate the new class's dict directly
    – DylanYoung
    Jun 23, 2020 at 17:01

I think you misunderstand the meaning of static variable here. Every where you declare a variable outside a method and not in the shape of self.some_thing, the variable will be considered as class's static variable ( like your ARG variable here). Thus, every object ( instance ) of the Class that changes a static variable will cause change of all other objects in the same Class. The deepcopy really does the job here.


To copy a class with __slots__ attribute, this function will help :-)

def copy_class(c,name=None):
    if not name: name = 'CopyOf'+c.__name__
    if hasattr(c,'__slots__'):
        slots = c.__slots__ if type(c.__slots__) != str else (c.__slots__,)
        dict_ = dict()
        sloted_members = dict()
        for k,v in c.__dict__.items():
            if k not in slots:
                dict_[k] = v
            elif type(v) != types.MemberDescriptorType:
                sloted_members[k] = v
        CopyOfc = type(name, c.__bases__, dict_)
        for k,v in sloted_members.items():
        return CopyOfc
        dict_ = dict(c.__dict__)
        return type(name, c.__bases__, dict_)

A simple approach is to put the class in a module and reload it every time you want a new copy. I think this deals with the mutables, because the reload recreates everything.


This is a solution for copying at all levels:

#for windows use dill teh same way

import pickle
copy = lambda obj: pickle.loads(pickle.dumps(obj))

Problem was:

class A: a = 1
x = A()
y = x
x.a = 5
print(y.a) #return's 5

With copy:

class A:a = 1
x = A()
y = copy(x)
x.a = 5
print(y.a) #return 1

You wan copy anything you want, not only class instances or Classes

  • This does not do class deepcopy, pickle just re-creates the class (type) object based on its __module__ and __name__.
    – eudoxos
    Aug 8, 2021 at 5:14

If you want to create just another instance of class then just make it:

 >>> class A(object):
...    ARG=1
 >>> a = A()
 >>> A().ARG
 >>> b = A()
 >>> b.ARG
 >>> a.ARG=2
 >>> b.ARG
  • 1
    The question is about creating a copy of class, not it's instance.
    – Milso
    Jul 9, 2019 at 13:26

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