A class is a user-defined blueprint or prototype from which objects are created. 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. Class instances can also have methods (defined by its class) for modifying its state.
To understand the need for creating a class let’s consider an example, let’s say you wanted to track the number of dogs which may have different attributes like breed, age. If a list is used, the first element could be the dog’s breed while the second element could represent its age. Let’s suppose there are 100 different dogs, then how would you know which element is supposed to be which? What if you wanted to add other properties to these dogs? This lacks organization and it’s the exact need for classes.
Class creates a user-defined data structure, which holds its own data members and member functions, which can be accessed and used by creating an instance of that class. A class is like a blueprint for an object.
Some points on Python class:
- Classes are created by keyword
- Attributes are the variables that belong to class.
- Attributes are always public and can be accessed using dot (.) operator. Eg.: Myclass.Myattribute
Class Definition Syntax: class ClassName: # Statement-1 . . . # Statement-N
Defining a class –
In the above example,
class keyword indicates that you are creating a class followed by the name of the class (Dog in this case).
An Object is an instance of a Class. A class is like a blueprint while an instance is a copy of the class with actual values. It’s not an idea anymore, it’s an actual dog, like a dog of breed pug who’s seven years old. You can have many dogs to create many different instances, but without the class as a guide, you would be lost, not knowing what information is required.
An object consists of :
- State : It is represented by attributes of an object. It also reflects the properties of an object.
- Behavior : It is represented by methods of an object. It also reflects the response of an object with other objects.
- Identity : It gives a unique name to an object and enables one object to interact with other objects.
Declaring Objects (Also called instantiating a class)
When an object of a class is created, the class is said to be instantiated. All the instances share the attributes and the behavior of the class. But the values of those attributes, i.e. the state are unique for each object. A single class may have any number of instances.
Declaring an object –
mamal I'm a mamal I'm a dog
In the above example, an object is created which is basically a dog named Rodger. This class only has two class attributes that tell us that Rodger is a dog and a mammal.
- Class methods must have an extra first parameter in method definition. We do not give a value for this parameter when we call the method, Python provides it.
- If we have a method which takes no arguments, then we still have to have one argument.
- This is similar to this pointer in C++ and this reference in Java.
When we call a method of this object as
myobject.method(arg1, arg2), this is automatically converted by Python into
MyClass.method(myobject, arg1, arg2) – this is all the special self is about.
__init__ method is similar to constructors in C++ and Java. Constructors are used to initialize the object’s state. Like methods, a constructor also contains a collection of statements(i.e. instructions) that are executed at the time of Object creation. It is run as soon as an object of a class is instantiated. The method is useful to do any initialization you want to do with your object.
Hello, my name is Nikhil
Class and Instance Variables
Instance variables are for data unique to each instance and class variables are for attributes and methods shared by all instances of the class. Instance variables are variables whose value is assigned inside a constructor or method with
self whereas class variables are variables whose value is assigned in the class.
Defining instance varibale using constructor.
Rodger details: Rodger is a dog Breed: Pug Color: brown Buzo details: Buzo is a dog Breed: Bulldog Color: black Accessing class variable using class name dog
Defining instance variable using the normal method.
Attention geek! Strengthen your foundations with the Python Programming Foundation Course and learn the basics.
To begin with, your interview preparations Enhance your Data Structures concepts with the Python DS Course.
- Data Classes in Python | Set 6 (interconversion to and from other datatypes)
- Reading Python File-Like Objects from C | Python
- Python: Difference between Lock and Rlock objects
- Encoding and Decoding Custom Objects in Python-JSON
- Addition and Subtraction on TimeDelta objects using Pandas - Python
- Draw a rectangular shape and extract objects using Python's OpenCV
- Django Request and Response cycle - HttpRequest and HttpResponse Objects
- Abstract Classes in Python
- Data Classes in Python | An Introduction
- Data Classes in Python | Set 2 (Decorator Parameters)
- Data Classes in Python | Set 3 (dataclass fields)
- Data Classes in Python | Set 4 (Inheritance)
- Data Classes in Python | Set 5 (post-init)
- How to Dynamically Load Modules or Classes in Python
- Create Classes Dynamically in Python
- The Ultimate Guide to Data Classes in Python 3.7
- Byte Objects vs String in Python
- File Objects in Python
- Timer Objects in Python
- Barrier Objects in Python
If you like GeeksforGeeks and would like to contribute, you can also write an article using contribute.geeksforgeeks.org or mail your article to firstname.lastname@example.org. See your article appearing on the GeeksforGeeks main page and help other Geeks.
Please Improve this article if you find anything incorrect by clicking on the "Improve Article" button below.