class Square(Rectangle): def __init__(self, side_length): super().__init__(side_length, side_length)
An , on the other hand, is an instance of a class. It has its own set of attributes (data) and methods (functions). Defining a Class class Car: def __init__(self, color, model, year): self.color = color self.model = model self.year = year python 3 deep dive part 4 oop
def get_balance(self): return self.__balance OOP is a programming paradigm that revolves around
Introduction In this write-up, we will explore the world of Object-Oriented Programming (OOP) in Python 3. OOP is a programming paradigm that revolves around the concept of objects and classes. We will dive into the fundamental principles of OOP, including classes, objects, inheritance, polymorphism, and encapsulation. Classes and Objects In Python, a class is a blueprint or a template that defines the properties and behavior of an object. A class is essentially a design pattern or a template that defines the characteristics of an object. A class is essentially a design pattern or
def honk(self): print("Honk!") In the above example, we define a Car class with an initializer method ( __init__ ) that takes in color , model , and year parameters. We also define a honk method that prints "Honk!". my_car = Car("Red", "Toyota", 2015) print(my_car.color) # Output: Red my_car.honk() # Output: Honk! Here, we create an object my_car from the Car class and access its attributes and methods. Inheritance Inheritance is a mechanism in OOP that allows one class to inherit the properties and behavior of another class. The child class (or subclass) inherits all the attributes and methods of the parent class (or superclass). Example of Inheritance class ElectricCar(Car): def __init__(self, color, model, year, battery_capacity): super().__init__(color, model, year) self.battery_capacity = battery_capacity