Tuesday, September 18, 2018

Will Python Replace Java?






According to the most recent study, Java is currently more popular than other programming languages ​​including Python. Likewise, according to the latest usage statistics posted on a popular Technology Survey site, Java is being used by 3.0% websites as a server-side programming language, whereas only 0.2% of websites use Python. However, many reports have heightened that the usage and popularity of Python is growing consistently. So it becomes essential for programmers to understand some of the major differences between these two popular programming languages.

Understanding Important Differences between Java and Python

Both Java and Python are general purpose programming languages. While the former is a static typed language wherein the programmers have to declare all variable names explicitly, the latter is looked up as a dynamically typed language where developers are not required to declare variable names explicitly.

Java requires developers to write longer lines of code to accomplish common programming tasks. They also have to put in additional time and effort to organize, maintain and update the Java code base. On the other hand, syntax of Python enables developers to express concepts without writing longer lines of code. It further emphasizes on reusable and readable code generation. Thus, it becomes easier for programmers to maintain and update the code base.

Both the languages ​​have been updated on a regular basis. The programmers can use Java 8 to avail a number of new features including lambda expressions, a new date / time API and a new functional interface. They can further switch from version 7 to version 8 of the programming language without any hassle. But developers often find it daunting to choose between Python 2.x and Python 3.x. Both the versions are being maintained in parallel and since switching from Python 2.x to Python 3.x is found to be challenging.

Java makes it easier for programmers to create portable cross-platform applications. These applications can run on any device on which Java virtual machine (JVM) is running. On the other hand, the developers have to use a Python compiler to convert the code written in Python into code understood by the specific operating system. As JVM is installed on many devices, the developers can run Java applications on various devices without requiring any specialized tools and compilers.

The performance and speed of the two programming languages ​​differ. Many programmers have proved that Java is faster than Python. While it can not be used to accomplish CPU-intensive tasks, developers often have at their disposal, a number of options to enhance the execution speed of Python. They have to replace Python's default runtime with CPython, PyPy or Cython to increase the execution speed significantly. On the other hand, the performance of the Java application can be easily optimized without using any additional tools.

Along with being a popular web technology, Java is also used widely for developing apps for world's most popular mobile operating system, ie, Android. The Android SDK includes a number of standard Java libraries. The developers can easily create Android apps by taking advantage of networking, data structure, graphics, and math libraries. They can even avail a number of tools and frameworks to speed up Android app development. But those into Python development know that it can not be used for mobile app development directly and exclusively. The developers have to use additional frameworks and tools to use it for mobile app development. Many programmers prefer developing mobile apps with Java to save both time and effort.

A number of reports have highlighted a steady increase in the popularity of JVM based languages ​​like Scala. The modern age JVM languages ​​are designed with features to help programmers to write concise, reusable and maintainable code within a shorter amount of time. Many programmers prefer these JVM languages ​​to Java to reduce the amount of time and efforts required for building and maintaining a variety of modern applications.