Python Class Attributes
Summary: in this tutorial, you’ll learn about the Python class attributes and when to use them appropriately.
Introduction to class attributes
Let’s start with a simple Circle
class:
class Circle:
def __init__(self, radius):
self.pi = 3.14159
self.radius = radius def area(self):
return self.pi * self.radius**2
def circumference(self):
return 2*self.pi * self.radius
Code language: Python (python)
The Circle
class has two attributes pi
and radius
. It also has two methods that calculate the area and circumference of a circle.
Both pi
and radius
are called instance attributes. In other words, they belong to a specific instance of the Circle
class. If you change the attributes of an instance, it won’t affect other instances.
Besides instance attributes, Python also supports class attributes. The class attributes don’t associate with any specific instance of the class. But they’re shared by all instances of the class.
If you’ve been programming in Java or C#, you’ll see that class attributes are similar to the static members, but not the same.
To define a class attribute, you place it outside of the __init__()
method. For example, the following defines pi
as a class attribute:
class Circle:
pi = 3.14159 def __init__(self, radius):
self.radius = radius
def area(self):
return self.pi * self.radius**2
def circumference(self):
return 2 * self.pi * self.radius
Code language: Python (python)
After that, you can access the class attribute via instances of the class or via the class name:
object_name.class_attribute
class_name.class_attribute
Code language: Oracle Rules Language (ruleslanguage)
In the area()
and circumference()
methods, we access the pi
class attribute via the self
variable.
Outside the Circle
class, you can access the pi
class attribute via an instance of the Circle
class or directly via the Circle
class. For example:
c = Circle(10)
print(c.pi)
print(Circle.pi)
Code language: Python (python)
Output:
3.14159
3.14159
Code language: Python (python)
How Python class attributes work
When you access an attribute via an instance of the class, Python searches for the attribute in the instance attribute list. If the instance attribute list doesn’t have that attribute, Python continues looking up the attribute in the class attribute list. Python returns the value of the attribute as long as it finds the attribute in the instance attribute list or class attribute list.
However, if you access an attribute, Python directly searches for the attribute in the class attribute list.
The following example defines a Test
class to demonstrate how Python handles instance and class attributes.
class Test:
x = 10 def __init__(self):
self.x = 20
test = Test()
print(test.x) # 20
print(Test.x) # 10
Code language: Python (python)
How it works.
The Test
class has two attributes with the same name (x
) one is the instance attribute and the other is a class attribute.
When we access the x
attribute via the instance of the Test
class, it returns 20 which is the variable of the instance attribute.
However, when we access the x
attribute via the Test
class, it returns 10 which is the value of the x
class attribute.
When to use Python class attributes
Class attributes are useful in some cases such as storing class constants, tracking data across all instances, and defining default values.
1) Storing class constants
Since a constant doesn’t change from instance to instance of a class, it’s handy to store it as a class attribute.
For example, the Circle
class has the pi
constant that is the same for all instances of the class. Therefore, it’s a good candidate for the class attributes.
2) Tracking data across of all instances
The following adds the circle_list
class attribute to the Circle
class. When you create a new instance of the Circle
class, the constructor adds the instance to the list:
class Circle:
circle_list = []
pi = 3.14159 def __init__(self, radius):
self.radius = radius
# add the instance to the circle list
self.circle_list.append(self)
def area(self):
return self.pi * self.radius**2
def circumference(self):
return 2 * self.pi * self.radius
c1 = Circle(10)
c2 = Circle(20)
print(len(Circle.circle_list)) # 2
Code language: Python (python)
3) Defining default values
Sometimes, you want to set a default value for all instances of a class. In this case, you can use a class attribute.
The following example defines a Product
class. All the instances of the Product
class will have a default discount specified by the default_discount
class attribute:
class Product:
default_discount = 0 def __init__(self, price):
self.price = price
self.discount = Product.default_discount
def set_discount(self, discount):
self.discount = discount
def net_price(self):
return self.price * (1 - self.discount)
p1 = Product(100)
print(p1.net_price())
# 100
p2 = Product(200)
p2.set_discount(0.05)
print(p2.net_price())
# 190
Code language: Python (python)
Summary
- A class attribute is shared by all instances of the class. To define a class attribute, you place it outside of the
__init__()
method. - Use
class_name.class_attribute
orobject_name.class_attribute
to access the value of theclass_attribute
. - Use class attributes for storing class contants, track data across all instances, and setting default values for all instances of the class.