Python’s versatility extends beyond its syntax and rich libraries—it’s also a language that welcomes user interaction. Taking inputs from users is a fundamental aspect of many programs, from simple scripts to complex applications. In this article, we’ll explore the various ways to take inputs from users in Python.
Tag: python basic concepts
Python | id() function
In the jungle of Python’s functionalities, the id() function stands out as a unique and interesting tool. Behind its simplicity lies a powerful mechanism for understanding the identity of objects in the Python runtime. In this article, we’ll start a journey to reveal the mystery of the id() function, exploring its purpose, behavior, and providing informative examples
Python | Type Casting
In the dynamic world of Python, the ability to seamlessly convert one data type into another is a powerful feature. This process, known as type casting, allows developers to flexibly manipulate data and ensure compatibility between different types. In this article, we’ll dig into the world of type casting in Python, exploring the various techniques and providing examples to clear this essential programming concept.
Python | Short-Circuit Operators
In the world of Python, where efficiency and readability dance hand in hand, short-circuit operators emerge as silent heroes. These operators, ‘and’ and ‘or’, offer a powerful tool for concise and effective decision-making within your code. In this article, we’ll start a journey to decode the magic of short-circuit operators, exploring their behavior and showcasing practical examples.
Python | Difference between Python 2.x and Python 3.x
Python, the versatile and powerful programming language, has undergone a significant evolution with the transition from Python 2.x to Python 3.x. This shift, though essential for the language’s growth and future, has left many developers pondering the distinctions between the two versions. In this article, we’ll start on a journey to explore the key differences that define Python 2.x and Python 3.x.
Python | Decorators
Python, a versatile and powerful programming language, is known for its simplicity and readability. One of the features that contribute to its simplicity is decorators. Decorators are a form of metaprogramming that allow you to modify the behavior of functions or methods in Python. They are a powerful tool for adding functionality, enhancing code readability, and maintaining clean and modular code. In this article, we will dive into the world of decorators in Python, exploring what they are, how they work, and practical use cases.
Python | Generators
Python, a versatile and simple programming language, offers a rich set of tools for developers to well organized their code and make it more efficient. Among these tools, generators stand out as a powerful mechanism for working with sequences of data. In this article, we’ll begin a journey to explore the concept of generators in Python, understanding how they work and how they can elevate your code to new levels of efficiency and elegance.
Python | Iterators
In the domain of programming, data manipulation is a fundamental skill, and Python provides an elegant toolkit to overcome the complexities of working with datasets. Among its collection of features, iterators stand out as powerful tools that streamline the process of traversing through data collections. In this article, we’ll begin on a journey to uncover the beauty and functionality of iterators in Python along with examples.
Python | Is Python Object-oriented programming language or Functional programming language or Both?
Programming languages come in various flavors, each designed to address specific paradigms and solve distinct problems. Python, a versatile and widely-used language, blurs the lines between object-oriented and functional programming paradigms, offering developers the best of both worlds. The question often arises: Is Python primarily an object-oriented programming language, a functional programming language, or a hybrid of both? In this article, we dig into the characteristics of Python that make it a unique combination of these two programming paradigms.
Python | Mutable and Immutable objects
In the world of programming, especially in languages like Python, Scala, and others, the concepts of mutable and immutable objects play a crucial role. These terms refer to the ability of an object to be modified after it’s created. Whether an object is mutable or immutable has far-reaching implications on how data is managed, shared, and manipulated within a program. Let’s dive into the depths of mutable and immutable objects, exploring their definitions, characteristics, and implications with examples.