Here's how I would do this:
class ClassPropertyDescriptor(object):
def __init__(self, fget, fset=None):
self.fget = fget
self.fset = fset
def __get__(self, obj, klass=None):
if klass is None:
klass = type(obj)
return self.fget.__get__(obj, klass)()
def __set__(self, obj, value):
if not self.fset:
raise AttributeError("can't set attribute")
type_ = type(obj)
return self.fset.__get__(obj, type_)(value)
def setter(self, func):
if not isinstance(func, (classmethod, staticmethod)):
func = classmethod(func)
self.fset = func
return self
def classproperty(func):
if not isinstance(func, (classmethod, staticmethod)):
func = classmethod(func)
return ClassPropertyDescriptor(func)
class Bar(object):
_bar = 1
@classproperty
def bar(cls):
return cls._bar
@bar.setter
def bar(cls, value):
cls._bar = value
# test instance instantiation
foo = Bar()
assert foo.bar == 1
baz = Bar()
assert baz.bar == 1
# test static variable
baz.bar = 5
assert foo.bar == 5
# test setting variable on the class
Bar.bar = 50
assert baz.bar == 50
assert foo.bar == 50
The setter didn't work at the time we call Bar.bar, because we are calling
TypeOfBar.bar.__set__, which is not Bar.bar.__set__.
Adding a metaclass definition solves this:
class ClassPropertyMetaClass(type):
def __setattr__(self, key, value):
if key in self.__dict__:
obj = self.__dict__.get(key)
if obj and type(obj) is ClassPropertyDescriptor:
return obj.__set__(self, value)
return super(ClassPropertyMetaClass, self).__setattr__(key, value)
# and update class define:
# class Bar(object):
# __metaclass__ = ClassPropertyMetaClass
# _bar = 1
# and update ClassPropertyDescriptor.__set__
# def __set__(self, obj, value):
# if not self.fset:
# raise AttributeError("can't set attribute")
# if inspect.isclass(obj):
# type_ = obj
# obj = None
# else:
# type_ = type(obj)
# return self.fset.__get__(obj, type_)(value)
Now all will be fine.
Answer from Mahmoud Abdelkader on Stack OverflowReal Python
realpython.com › python-property
Python's property(): Add Managed Attributes to Your Classes – Real Python
December 15, 2024 - This built-in function allows you to turn class attributes into properties or managed attributes. Because property() is a built-in function, you can use it without importing anything.
Top answer 1 of 9
137
Here's how I would do this:
class ClassPropertyDescriptor(object):
def __init__(self, fget, fset=None):
self.fget = fget
self.fset = fset
def __get__(self, obj, klass=None):
if klass is None:
klass = type(obj)
return self.fget.__get__(obj, klass)()
def __set__(self, obj, value):
if not self.fset:
raise AttributeError("can't set attribute")
type_ = type(obj)
return self.fset.__get__(obj, type_)(value)
def setter(self, func):
if not isinstance(func, (classmethod, staticmethod)):
func = classmethod(func)
self.fset = func
return self
def classproperty(func):
if not isinstance(func, (classmethod, staticmethod)):
func = classmethod(func)
return ClassPropertyDescriptor(func)
class Bar(object):
_bar = 1
@classproperty
def bar(cls):
return cls._bar
@bar.setter
def bar(cls, value):
cls._bar = value
# test instance instantiation
foo = Bar()
assert foo.bar == 1
baz = Bar()
assert baz.bar == 1
# test static variable
baz.bar = 5
assert foo.bar == 5
# test setting variable on the class
Bar.bar = 50
assert baz.bar == 50
assert foo.bar == 50
The setter didn't work at the time we call Bar.bar, because we are calling
TypeOfBar.bar.__set__, which is not Bar.bar.__set__.
Adding a metaclass definition solves this:
class ClassPropertyMetaClass(type):
def __setattr__(self, key, value):
if key in self.__dict__:
obj = self.__dict__.get(key)
if obj and type(obj) is ClassPropertyDescriptor:
return obj.__set__(self, value)
return super(ClassPropertyMetaClass, self).__setattr__(key, value)
# and update class define:
# class Bar(object):
# __metaclass__ = ClassPropertyMetaClass
# _bar = 1
# and update ClassPropertyDescriptor.__set__
# def __set__(self, obj, value):
# if not self.fset:
# raise AttributeError("can't set attribute")
# if inspect.isclass(obj):
# type_ = obj
# obj = None
# else:
# type_ = type(obj)
# return self.fset.__get__(obj, type_)(value)
Now all will be fine.
2 of 9
73
If you define classproperty as follows, then your example works exactly as you requested.
class classproperty(object):
def __init__(self, f):
self.f = f
def __get__(self, obj, owner):
return self.f(owner)
The caveat is that you can't use this for writable properties. While e.I = 20 will raise an AttributeError, Example.I = 20 will overwrite the property object itself.
Videos
07:43
Learn Python @property in 7 minutes! ⚙️ - YouTube
Properties & Data Classes | Python Classes
17:05
Python Properties vs Methods: The Contract You Didn’t Know You ...
08:48
@classmethod explained in Python - YouTube
03:42
What Is A Class Attribute In Python - YouTube
Python Classes Explained: Attributes Properties and Methods - YouTube
GeeksforGeeks
geeksforgeeks.org › python › python-property-function
Python property() function - GeeksforGeeks
July 11, 2025 - property() function in Python is a built-in function that returns an object of the property class. It allows developers to create properties within a class, providing a way to control access to an attribute by defining getter, setter and deleter ...
Programiz
programiz.com › python-programming › property
Python @property Decorator (With Examples)
We added the print() function inside get_temperature() and set_temperature() to clearly observe that they are being executed. The last line of the code makes a property object temperature. Simply put, property attaches some code (get_temperature and set_temperature) to the member attribute accesses (temperature). ... # using property class class Celsius: def __init__(self, temperature=0): self.temperature = temperature def to_fahrenheit(self): return (self.temperature * 1.8) + 32 # getter def get_temperature(self): print("Getting value...") return self._temperature # setter def set_temperature
Tutorial Teacher
tutorialsteacher.com › python › property-function
Python - property() function
The property() method takes the get, set and delete methods as arguments and returns an object of the property class. It is recommended to use the property decorator instead of the property() method.
Python documentation
docs.python.org › 3 › tutorial › classes.html
9. Classes — Python 3.14.3 documentation
Classes provide a means of bundling data and functionality together. Creating a new class creates a new type of object, allowing new instances of that type to be made. Each class instance can have attributes attached to it for maintaining its state.
The Python Coding Stack
thepythoncodingstack.com › p › the-properties-of-python-property
The Properties of Python's `property`
April 1, 2025 - To do this, we can change .athlete_id from a data attribute into a property: ... We renamed the data attribute defined in the .__init__() method to ._athlete_id, with a leading underscore. The leading underscore identifies this attribute as non-public. It's not really a private attribute that cannot be accessed from outside the class – Python doesn't have private attributes – but it clearly shows the programmer's intent to any user of this class: this attribute is not meant to be accessed from outside the class.
Top answer 1 of 16
201
3.8 < Python < 3.11
Can use both decorators together. See this answer.
Python 2 and python 3 (works in 3.9-3.10 too)
A property is created on a class but affects an instance. So if you want a classmethod property, create the property on the metaclass.
>>> class foo(object):
... _var = 5
... class __metaclass__(type): # Python 2 syntax for metaclasses
... pass
... @classmethod
... def getvar(cls):
... return cls._var
... @classmethod
... def setvar(cls, value):
... cls._var = value
...
>>> foo.__metaclass__.var = property(foo.getvar.im_func, foo.setvar.im_func)
>>> foo.var
5
>>> foo.var = 3
>>> foo.var
3
But since you're using a metaclass anyway, it will read better if you just move the classmethods in there.
>>> class foo(object):
... _var = 5
... class __metaclass__(type): # Python 2 syntax for metaclasses
... @property
... def var(cls):
... return cls._var
... @var.setter
... def var(cls, value):
... cls._var = value
...
>>> foo.var
5
>>> foo.var = 3
>>> foo.var
3
or, using Python 3's metaclass=... syntax, and the metaclass defined outside of the foo class body, and the metaclass responsible for setting the initial value of _var:
>>> class foo_meta(type):
... def __init__(cls, *args, **kwargs):
... cls._var = 5
... @property
... def var(cls):
... return cls._var
... @var.setter
... def var(cls, value):
... cls._var = value
...
>>> class foo(metaclass=foo_meta):
... pass
...
>>> foo.var
5
>>> foo.var = 3
>>> foo.var
3
2 of 16
171
Update: The ability to chain @classmethod and @property was removed in Python 3.13 .
In Python 3.9 You could use them together, but (as noted in @xgt's comment) it was deprecated in Python 3.11, so it is not longer supported (but it may work for a while or reintroduced at some point).
Check the version remarks here:
https://docs.python.org/3.11/library/functions.html#classmethod
However, it used to work like so:
class G:
@classmethod
@property
def __doc__(cls):
return f'A doc for {cls.__name__!r}'
Order matters - due to how the descriptors interact, @classmethod has to be on top.
W3Schools
w3schools.com › python › python_class_properties.asp
Python Class Properties
Python Examples Python Compiler ... Q&A Python Bootcamp Python Certificate Python Training ... Properties are variables that belong to a class....
Reddit
reddit.com › r/learnpython › when to use a property (rather than a method) in a class?
r/learnpython on Reddit: When to use a property (rather than a method) in a class?
December 15, 2023 -
Suppose I had the class `vehicle` which represents a motor vehicle. Suppose the horsepower of the vehicle was not passed as an inputs but, with some detailed calculation, could be calculated from the other properties of the vehicle class. Would it be better to add `horsepower` as a property of the `vehicle` class, or as a method?
As a property, this might look something like this:
class Vehicle:
def __init__(self, args):
# Set args
self._horsepower = None
@property
def horsepower(self):
if self._horsepower is None:
self._horsepower = calculate_horsepower()
return self._horsepowerAs a method, it may look like this:
class Vehicle:
def __init__(self, args):
# Set args
def calculate_horsepower(self):
# Calculate horsepower of instance vehicleWhich of the above is preferable?
In reality, horsepower is a property of a vehicle. However, if significant processing is required to calculate it then I'm not sure if it feels right to have it as a property of the `vehicle` class.
Top answer 1 of 11
50
The simplest advice, kind of a rule of thumb, is that you should use a property (or a simple attribute) when the name of the thing is a noun ("height") and a method when the name of the thing is a verb ("make_taller"). Basically everybody finds it intuitive to remember that they need to call things whose names are doing words in order to do them.
2 of 11
18
The property is to tell you something about the object. The method is to do something with the object.
Toppr
toppr.com › guides › python-guide › references › methods-and-functions › python-property
Python property() function: Property python, python @property
October 18, 2021 - Python property() function is used to create a property of the class. Property python function is used in Python classes to define its properties by accepting getter, setter, and deleter methods.
Python documentation
docs.python.org › 3 › howto › descriptor.html
Descriptor Guide — Python 3.14.3 documentation
Properties, bound methods, static methods, class methods, and __slots__ are all based on the descriptor protocol. Calling property() is a succinct way of building a data descriptor that triggers a function call upon access to an attribute.
Mimo
mimo.org › glossary › python › property
Python property(): Syntax, Usage, and Examples
Combine with @classmethod or @staticmethod only when it makes sense. The Python property function lets you create smart attributes that look like variables but act like functions.
Medium
elfi-y.medium.com › python-properties-and-class-methods-a6c7ad69b0f1
Python Properties and Class Methods | by E.Y. | Medium
January 10, 2021 - Simply put, the property() method provides an interface to instance attributes, aka, getter , setter and deleter . ... Well, it is common to allow dynamically setting and getting an instance attribute when you build a class...
Python Tutorial
pythontutorial.net › home › python oop › python property
Python Property
March 31, 2025 - Similarly, when you read from the age property object, Python will execute the function assigned to the fget argument, which is the get_age() method. By using the property() class, we can add a property to a class while maintaining backward compatibility. In practice, you will define the attributes ...
Toptal
toptal.com › python › python-class-attributes-an-overly-thorough-guide
Python Class Attributes: An Overly Thorough Guide | Toptal®
March 5, 2014 - This Python guide outlines specific use cases for attributes, properties, variables, objects, and more.
freeCodeCamp
freecodecamp.org › news › python-property-decorator
The @property Decorator in Python: Its Use Cases, Advantages, and Syntax
December 19, 2019 - The @property is a built-in decorator for the property() function in Python. It is used to give "special" functionality to certain methods to make them act as getters, setters, or deleters when we define properties in a class.
Python documentation
docs.python.org › 3 › library › functions.html
Built-in Functions — Python 3.14.3 documentation
A property object has getter, setter, and deleter methods usable as decorators that create a copy of the property with the corresponding accessor function set to the decorated function. This is best explained with an example: class C: def __init__(self): self._x = None @property def x(self): """I'm the 'x' property.""" return self._x @x.setter def x(self, value): self._x = value @x.deleter def x(self): del self._x
Delft Stack
delftstack.com › home › howto › python › class property in python
Class Property in Python | Delft Stack
March 11, 2025 - Class properties in Python provide a way to manage access to an object’s attributes. By using the property() built-in function, you can define methods that get and set the value of an attribute.
Top answer 1 of 15
1343
The property() function returns a special descriptor object:
>>> property()
<property object at 0x10ff07940>
It is this object that has extra methods:
>>> property().getter
<built-in method getter of property object at 0x10ff07998>
>>> property().setter
<built-in method setter of property object at 0x10ff07940>
>>> property().deleter
<built-in method deleter of property object at 0x10ff07998>
These act as decorators too. They return a new property object:
>>> property().getter(None)
<property object at 0x10ff079f0>
that is a copy of the old object, but with one of the functions replaced.
Remember, that the @decorator syntax is just syntactic sugar; the syntax:
@property
def foo(self): return self._foo
really means the same thing as
def foo(self): return self._foo
foo = property(foo)
so foo the function is replaced by property(foo), which we saw above is a special object. Then when you use @foo.setter(), what you are doing is call that property().setter method I showed you above, which returns a new copy of the property, but this time with the setter function replaced with the decorated method.
The following sequence also creates a full-on property, by using those decorator methods.
First we create some functions:
>>> def getter(self): print('Get!')
...
>>> def setter(self, value): print('Set to {!r}!'.format(value))
...
>>> def deleter(self): print('Delete!')
...
Then, we create a property object with only a getter:
>>> prop = property(getter)
>>> prop.fget is getter
True
>>> prop.fset is None
True
>>> prop.fdel is None
True
Next we use the .setter() method to add a setter:
>>> prop = prop.setter(setter)
>>> prop.fget is getter
True
>>> prop.fset is setter
True
>>> prop.fdel is None
True
Last we add a deleter with the .deleter() method:
>>> prop = prop.deleter(deleter)
>>> prop.fget is getter
True
>>> prop.fset is setter
True
>>> prop.fdel is deleter
True
Last but not least, the property object acts as a descriptor object, so it has .__get__(), .__set__() and .__delete__() methods to hook into instance attribute getting, setting and deleting:
>>> class Foo: pass
...
>>> prop.__get__(Foo(), Foo)
Get!
>>> prop.__set__(Foo(), 'bar')
Set to 'bar'!
>>> prop.__delete__(Foo())
Delete!
The Descriptor Howto includes a pure Python sample implementation of the property() type:
class Property: "Emulate PyProperty_Type() in Objects/descrobject.c" def __init__(self, fget=None, fset=None, fdel=None, doc=None): self.fget = fget self.fset = fset self.fdel = fdel if doc is None and fget is not None: doc = fget.__doc__ self.__doc__ = doc def __get__(self, obj, objtype=None): if obj is None: return self if self.fget is None: raise AttributeError("unreadable attribute") return self.fget(obj) def __set__(self, obj, value): if self.fset is None: raise AttributeError("can't set attribute") self.fset(obj, value) def __delete__(self, obj): if self.fdel is None: raise AttributeError("can't delete attribute") self.fdel(obj) def getter(self, fget): return type(self)(fget, self.fset, self.fdel, self.__doc__) def setter(self, fset): return type(self)(self.fget, fset, self.fdel, self.__doc__) def deleter(self, fdel): return type(self)(self.fget, self.fset, fdel, self.__doc__)
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403
The documentation says it's just a shortcut for creating read-only properties. So
@property
def x(self):
return self._x
is equivalent to
def getx(self):
return self._x
x = property(getx)