Python Language OOP Attributes and Properties

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Internal

Overview

Attributes are variables associated with a class that carry state either for the class itself, or for the instances of that class. Properties are class constructs that behave like attributes, but are not variables. Technically, bona-fide attributes, properties and also the methods are all attributes on a class. Methods are just callable attributes.

Attributes

Attributes are variables associated with a class that hold state either for the class itself (class attributes) or for the instances of that class (instance attributes). An object instance carries its state as attributes. To differentiate attributes from properties, they are sometimes referred to as standard data attributes.

Instance Attributes

Declaring Instance Attributes

All instance attributes must be declared inside the __init__() method.

class A:
  def __init__(self):
    self.color = 'blue'

If an attribute is first used in a method other than __init__(), static analysis identifies this as a warning "instance attribute defined outside __init__()".

Accessing Instance Attributes

The instance attributes can be accessed inside the class definition using self.<attribute-name>. Outside the class definition, they can be accessed via the variable holding the reference to the class instance: my_instance.<attribute-name>. If an attribute was not explicitly declared inside the instance with self.some_attribute, even just to be assigned to None, an attempt to access the attribute will end up in:

AttributeError: 'MyClass' object has no attribute 'some_attribute'

Deleting Instance Attributes

Attribute Visibility

Unlike in other languages, all attributes are public in Python. There are naming conventions to designate attributes as protected, or even private, but these conventions depend on others' willingness to abide by them - the interpreter won't prevent access to an attribute conventionally declared "protected" or "private", they're still public.

"Protected" Attributes

Prepending a single underscore (_) to the attribute name provides some support for protecting module variables and functions, as well as class attributes and methods. Linters and IDE static analysis will flag protected member access. PyCharm explicitly shows them as "Protected Attributes":

PyCharm Protected Attributes.png

Also see:

Python Language | Leading Underscore Variable Names

"Private" Attributes

Prepending a double underscore (__) (also known as “dunder”) to an instance variable or method effectively makes the variable or method private to its class, using name mangling. Google Python Style Guide discourages this use as it impacts readability and testability, and isn’t really private. It advises to use a single underscore.

Class Attributes

Properties

Properties are customizable attributes.

Defining Properties with Decorators

Defining Properties with the property() Built-in Function

The property() built-in function.



Properties

The state associated with a computed value can be prevented from being written by omitting the corresponding setter.

Another advantage of using properties over direct attribute access is that if the definition of the attribute changes, only the code within the class definition needs to be changed, not in all the callers.

  • TO PROCESS: PyOOP "Adding behavior to class data with properties", "Properties in detail"
  • TO PROCESS: PyOOP "Deciding when to use properties"

Properties are class construct that associate getter and setter methods to an attribute. The attribute name can the be used to access and write state inside the class by invoking the associated "property" methods. In other words, the getter and setter methods are "properties" of the attribute with the given name.

class A:
  def __init__(self, c):
    self.internal_color = c

  def get_color(self):
    return self.internal_color

  def set_color(self, c):
    self.internal_color = c

  # 'color' is an attribute, though not explicitly declared on self, and get_color() and set_color() are properties of the attribute
  color = property(get_color, set_color)

The first argument to property() is the getter method, and the second argument is the setter method.

Internal class instance state can be accesses and written through the attribute, though there is no actual attribute with that name initialized on self:

a = A('red')
assert 'red' == a.color
a.color = 'blue'
assert 'blue' == a.color

Defining Properties with Decorators

TO PROCESS: PyOOP "Decorators - another way to create properties"

Another way to define properties is with decorators. The same attribute color, which is not declared on self, can defined by two different property methods, one getter and one setter, preceded by corresponding decorators (annotations):

  • @property: it annotates the getter method. ⚠️ The name of the method must match the name of the attribute.
  • @<attribute-name>.setter: it annotates the setter method. ⚠️ The <attribute-name> that is part of the annotation must match the name of the attribute and the name of the setter method.
class A:
    def __init__(self, c):
        self.internal_color = c

    @property
    def color(self):
        return self.internal_color

    # not exposing a setter prevents the attribute from being written
    @color.setter
    def color(self, c):
        self.internal_color = c

The interaction with the internal state is done identically as in the case of the property() declaration:

a = A('red')
assert 'red' == a.color
a.color = 'blue'
assert 'blue' == a.color

For more details on decorators see:

Python Decorators

Mangling Attribute Names for Privacy

TODO

Getters and Setters

In Python, all attributes are public, they can be accessed from outside the class using the variable name that holds a reference to a class' instance.

However, Python has syntax that allows declaring getter and setter methods to access instance state that is not available in form of an actual instance attribute. The instance state in question is known as a property, which is exposed via getter and setter methods.