I am generally confused about the difference between a "property" and an "attribute", and can't find a great resource to concisely detail the differences.

up vote 138 down vote accepted

Properties are a special kind of attribute. Basically, when Python encounters the following code:

spam = SomeObject()
print(spam.eggs)

it looks up eggs in spam, and then examines eggs to see if it has a __get__, __set__, or __delete__ method — if it does, it's a property. If it is a property, instead of just returning the eggs object (as it would for any other attribute) it will call the __get__ method (since we were doing lookup) and return whatever that method returns.

More information about Python's data model and descriptors.

  • 9
    Best answer of the whole set—not least because it gives good, concrete details about how Python itself handles this on the back-end. +1. :) – Chris Krycho Mar 21 '13 at 13:51
  • In layman's terms: Python interpreter : 1. Looks for object in class 2. See for any methods associated with its 3. Call methods of those objects only; instead of objects. Please correct if I am wrong. – Mayur Patil Apr 5 at 1:18
  • Please ask a new question. It will be much easier to phrase and format it such that it can be understood more easily. – Ethan Furman Apr 5 at 1:49
  • It sounds like properties involve additional processing to access the target value...do you know how significant / much slower it is? – martineau Jun 25 at 16:14
  • @martineau: Well, there's one extra function call, but most likely the extra work and time will depend on how much the property is doing (general advice: do /not/ use properties to hide I/O). – Ethan Furman Jun 25 at 23:37

With a property you have complete control on its getter, setter and deleter methods, which you don't have (if not using caveats) with an attribute.

class A(object):
    _x = 0
    '''A._x is an attribute'''

    @property
    def x(self):
        '''
        A.x is a property
        This is the getter method
        '''
        return self._x

    @x.setter
    def x(self, value):
        """
        This is the setter method
        where I can check it's not assigned a value < 0
        """
        if value < 0:
            raise ValueError("Must be >= 0")
        self._x = value

>>> a = A()
>>> a._x = -1
>>> a.x = -1
Traceback (most recent call last):
  File "ex.py", line 15, in <module>
    a.x = -1
  File "ex.py", line 9, in x
    raise ValueError("Must be >= 0")
ValueError: Must be >= 0
  • This ("complete control") can be done with "non-property" attributes as well though, just without such simple decorators. – user166390 Sep 10 '11 at 21:41
  • 1
    what I called a caveat... – neurino Sep 10 '11 at 22:36
  • 4
    I like that this answer provides a realistic and useful example. I feel that too many answers on this site needlessly explain how things work on the back-end without clarifying how the user should interact with them. If one doesn't understand why/when to use some functionality, there is no point knowing how it operates behind the scenes. – Tom Dec 3 '15 at 18:44
  • This answer violate the "Zen of Python - There should be one -- and preferably only one -- obvious way to do it". There are 2 ways to set x value. – Tin Luu Aug 22 '17 at 2:51
  • @TinLuu - There is only one way to set the value of x. There is also only one way to set the value of _x. The fact that they are the same thing is an implementation detail. The wise user of this class does not use _x. – lit Sep 20 '17 at 20:48

In general speaking terms a property and an attribute are the same thing. However, there is a property decorator in Python which provides getter/setter access to an attribute (or other data).

class MyObject(object):
    # This is a normal attribute
    foo = 1

    @property
    def bar(self):
        return self.foo

    @bar.setter
    def bar(self, value):
        self.foo = value


obj = MyObject()
assert obj.foo == 1
assert obj.bar == obj.foo
obj.bar = 2
assert obj.foo == 2
assert obj.bar == obj.foo
  • could you please also mention the expected outcome of this code? – Hasan Iqbal Jul 29 '17 at 18:30
  • 1
    What do you mean? Isn't that at the bottom of the code? – six8 Aug 1 '17 at 23:53

The property allows you to get and set values like you would normal attributes, but underneath there is a method being called translating it into a getter and setter for you. It's really just a convenience to cut down on the boilerplate of calling getters and setters.

Lets say for example, you had a class that held some x and y coordinates for something you needed. To set them you might want to do something like:

myObj.x = 5
myObj.y = 10

That is much easier to look at and think about than writing:

myObj.setX(5)
myObj.setY(10)

The problem is, what if one day your class changes such that you need to offset your x and y by some value? Now you would need to go in and change your class definition and all of the code that calls it, which could be really time consuming and error prone. The property allows you to use the former syntax while giving you the flexibility of change of the latter.

In Python, you can define getters, setters, and delete methods with the property function. If you just want the read property, there is also a @property decorator you can add above your method.

http://docs.python.org/library/functions.html#property

I learnt 2 differences from site of Bernd Klein, in summary:

1. Property is a more convenient way to do data encapsulation.

ex: If your have a public attribute lenght of Object, later on, your project requires you to encapsulate it, i.e: change it to private and provide getter and setter => you have to change many of the codes you wrote before:

#Old codes
obj1.length=obj1.length+obj2.length
#New codes(Using private attibutes and getter and setter)
obj1.set_lenght(obj1.get_length()+obj2.get_length()) #=> this is ugly

If you use @property and @lenght.setter => you don't need to change those old codes

2. A property can encapsulate multiple attributes

class Person:
  def __init__(self, name, physic_health, mental_health):
    self.name=name
    self.__physic_health=physic_health #physic_health is real value in range [0, 5.0]
    self.__mental_health=mental_health #mental_health is real value in range [0, 5.0]
  @property
  def condition(self):
    health=self.__physic_health+self.__mental_health
    if(health<5.0):
      return "I feel bad!"
    elif health<8.0:
      return "I am ok!"
    else:
      return "Great!"

In this example, __physic_health and __mental_health are private and can not be accessed directly from out side, the only way outside class interact with them is throught property condition

There is also one not obvious difference that i use to cache or refresh data , often we have a function connected to class attribute. For instance i need to read file once and keep content assigned to the attribute so the value is cached:

class Misc():
        def __init__(self):
            self.test = self.test_func()

        def test_func(self):
            print 'func running'
            return 'func value'

cl = Misc()
print cl.test
print cl.test

Output:

func running
func value
func value

We accessed the attribute twice but our function was fired only once. Changing the above example to use property will cause attribute's value refresh each time you access it:

class Misc():

    @property
    def test(self):
        print 'func running'
        return 'func value'

cl = Misc()
print cl.test
print cl.test

Output:

func running
func value
func running
func value

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