Top 5 Programming Languages to Learn in 2019 in India

Top 5 Programming Languages to Learn in 2019 in India

Top 5 Programming Languages to Learn in 2019 in India | For Job in Google, Microsoft, Infosys, TCS

The problem with Indian Engineering colleges (except for a few prestigious ones) is that….all the programming classes are THEORETICAL. The professor will just write on the board what’s written in the book without even explaining us why. When we were students, we had so many doubts…..

  • ’What is the difference between Java and C#?’
  • ‘What are the others programming languages?’
  • ‘Where are they used?’
  • ‘What is the market demand?’
  • ‘What is the job market like?’

9 years back when I started my I.T journey, I had the same confusion. Which is why I am making this video, because I don’t want you to waste the initial years of your career doing what you don’t like.

So boys and girls….if programming is your true love, then today by the end of this video, you will know exactly which programming language will bring you respect, satisfaction and a lot of money!

So in today’s video, we are going to:

1)   List down the top 5 Programming languages of 2019.

2)   And analyse them based on 3 parameters – what is that language used for, how easy it is to learn it and what salary can you expect after learning that language.

3)   But most importantly, towards the end, I’ll give you a Bonus Tip, so that when you apply for a job in that programming language, your resume stands out from the crowd.

The programming languages that we are going to discuss today (including a few special mentions), in no particular order are these:

    1. Java

    2. C#

    3. JavaScript

    4. Python

    5. Flutter SDK and DASH

    6. C/C++

    7. Swift

    8. SQL


Thanks for reading

If you liked this post, share it with all of your programming buddies!

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Further reading

Complete Python Bootcamp: Go from zero to hero in Python 3

Machine Learning A-Z™: Hands-On Python & R In Data Science

Python and Django Full Stack Web Developer Bootcamp

JavaScript Programming Tutorial - Full JavaScript Course for Beginners

New ES2019 Features Every JavaScript Developer Should Know

Best JavaScript Frameworks, Libraries and Tools to Use in 2019

JavaScript Basics Before You Learn React

Microfrontends — Connecting JavaScript frameworks together (React, Angular, Vue etc)

Reactjs vs. Angularjs — Which Is Best For Web Development

Best 50 Nodejs interview questions from Beginners to Advanced in 2019

Node.js 12: The future of server-side JavaScript

An Introduction to Node.js Design Patterns

Best 50 Angular Interview Questions for Frontend Developers in 2019

How to build a CRUD Web App with Angular 8.0

React vs Angular: An In-depth Comparison

Angular 9 Tutorial: Learn to Build a CRUD Angular App Quickly

What's new in Bootstrap 5 and when Bootstrap 5 release date?

What’s new in HTML6

How to Build Progressive Web Apps (PWA) using Angular 9

What is new features in Javascript ES2020 ECMAScript 2020

Why I use Java? Why not C#, JavaScript, or Python?

Why I use Java? Why not C#, JavaScript, or Python?

In this article, you'll see some reasons to I learn and use Java, why not C#, JavaScript, or Python? and why Java is one of the best programming language

But why Java? Why not C#, JavaScript, or Python?

Well… there were a few well-thought reasons behind this decision.

The top 3 programming languages in the world right now are Python, Java, and JavaScript. Sorry my C# friends, C# is not in the top 3 list. I’ll talk about C# later in this post.

Why not JavaScript?

Yes, we can do object-oriented programming with JavaScript. But let’s be real. Object-oriented programming with JavaScript is a bit messy. JavaScript classes are not real classes. They are syntactic sugar over constructor functions. Also, in JavaScript, we don’t have access modifiers like public and private. Yes, we can achieve them using other ways and I’ve demonstrated that in my Object-oriented Programming with JavaScript course. But still, JavaScript is not the best language for object-oriented programming.

Why not Python?

Python is a great language. I love it! It’s free of clutter and is simple to use. It also has better support for OOP features. So, why didn’t I choose Python? Because based on my research, Python is often used among people in the data science community, rather than professional software engineers.

Yes, you we use Python to build desktop and mobile apps as well as backends. However, Python is not the language of choice for building mobile or desktop apps. These days, the majority of people are building mobile apps using cross-platform solutions such as React Native or Flutter. Others do native development in Java (for Android) or Swift (for iOS). The same applies to building desktop applications with Python. Python is not very well known for that reason.

Why not C#?

C# and Java are very similar in terms of syntax and they both have great support for OOP features. So, why didn’t I choose C# given that I have several C# courses?

Well… I looked at different sources to see the popularity of Java vs C#. Google Trends is a great resource. As you saw earlier in the post, Java is way more popular than C#. Does it mean it’s a better language? Well, it depends on _how _we define “better”.

What is better? A Ferrari or a truck? It depends on what you want to do. Ferrari is a super-fast car but it’s useless if you want to use it to move house. Programming languages are the same. There is no such thing as the best programming language. Every language has pros and cons. C++ is well known for its speed. Python is popular for its simple and clean syntax as well as tons of resources for machine learning.

Just because Java is more popular, it doesn’t mean it’s a better language than C#. In my opinion, C# is a more feature-rich language but Java was marketed better.

C# and Java have been rivals since day one. Many of the features we’ve had in C# for a long time were introduced in Java years later. Some features don’t exist to this day! For example, in Java, we don’t have optional parameters which are very handy. We have to overload a method. Ugly! Jave interfaces are also bad.

I personally prefer C#. But as I said, Java has had better marketing and that’s why it’s always been more popular than C#.

Why Java?

So, I chose Java because it’s used more widely than C# amongst professional software engineers. There are more Java developers out there than C# developers. Most universities and colleges also tend to teach Java, rather than C#.

Now, all that aside, C# and Java are very similar in terms of the syntax. Recently I posted this tweet asking my students if this is Java or C# code?

The reality is I wrote this code in IntelliJ (a popular Java IDE). But the code is valid C# and Java code. Someone argued that this is an over-simplified example and shouldn’t be used as a basis for comparison. That is true. But my whole point is that if you understand this code, you can perfectly take my Data Structures or Design Patterns courses.

What You Should Take Away

In my opinion, Java in the programming world, is like the English language in the world we live in. If Italian or Hindi is the only language you speak, you’re probably not gonna get very far ahead.

If you understand English, you have access to tons of valuable resources. Whether you want to learn programming, or painting, or piano, if you “understand” English, you have tons of resources in front of you. You don’t need to be fluent in speaking English. All you need is to just understand it.

It’s the same story with Java. There are tons of great programming books written and these books use Java. If you simply understand the Java syntax, you can take advantage of these amazing resources. You don’t need to become a Java developer and let go of your favorite language, whether it is C# or JavaScript or Python or PHP.

Java to C# – C# to Java

Java to C# – C# to Java

In this post, we bring you a much needed Rosetta Stone — an explanatory bridge between these two technologies

Originally published by Andy Macdonald at https://medium.com
Java and C# are incredibly similar. Both languages are somewhat derived from C++ and from similar first principles.

Java was developed in 1995 to create a language with a simpler programming model than C++ while still preserving some of the same syntax of the language to facilitate developers transitioning to it.

C# was developed in 2000 by Microsoft as part of its .NET drive in order to develop a language and set of technologies that could address some of the perceived weaknesses of the C++ language. It was also developed with quite heavy “inspiration” from the Java language.

Despite the similarities between the languages and sharing some common ground, transitioning from one technology to the other for a developer well-practised in one technology can be quite tricky.

Innovation happens best when there is collaboration between people of different mindsets — yet users of C# and Java can be somewhat tribalistic.

To that end, I thought it would be useful to put together a sort of guide to help people thinking about or starting to transition between these two technologies. It would also be nice in some way to facilitate a bit more collaboration between these two worlds — hopefully to do my bit to reduce the needless gulf that exists between them.

Some of the similarities right off the bat:

Java is a language that runs in a virtual machine environment (JVM) and runs bytecode that the Java compiler generates.

For C#, the situation is similar. It is a language that runs on the .NET framework and the CLR runtime. It uses a similar intermediary language to Java bytecode called MSIL which gets run via CLR.

Naming and Conventions

Some of the key and most immediately obvious differences in nomenclature, syntax, and conventions are:

  • “Projects” (Java) — “Solutions” (C#)
  • In Java, methods use lowerCamelCase (bar.doAThing()), whilst in C# public methods use PascalCase (bar.DoAThing())
  • In C#, interfaces are always prefixed with an I, as in IUserService<T>, instead of UserService<T>** **in Java
  • In Java, a string is a String** **— in C# a string is a string
  • “POJO” (Java) — “POCO” (C#)
  • Packages (Java) — Namespaces (C#)

Package (Java)

package dev.andymacdonald;

// Code goes here

Namespace (C#)

namespace Dev.AndyMacdonald 
{
  // Code goes here
}

Syntax

**Java has <strong>final</strong> variables — C# has **<strong>readonly</strong>

A key difference here is that Java final variables can be assigned once anywhere in the class, whereas C#’s readonly variables can only be assigned in the constructor.

C# has <strong>out</strong> and <strong>ref</strong> parameters to allow passing arguments by reference — Java doesn’t

It can manipulate objects and variables by reference, but in a method, these arguments are passed by a value. With C#, we can override this behaviour with the out and ref keywords.

Annotations (Java) — attributes (C#)

These are basically equivalent concepts and just differ in actual syntax. Both annotations and attributes can be accessed via each language’s respective Reflection API implementation.

Java annotation:

@PersonallyIdentifiable
private String fullName;

C# attribute:

[PersonallyIdentifiable]
private string fullName;

Getters and setters or Project Lombok (Java) — C# properties

C# really overtakes Java here with its built-in properties* *feature. In the standard JDK, there isn’t an equivalent to this, and instead, in Java, getters and setters must be written for each field requiring an accessor.

These are often just generated by the developer with their IDE as a cheat … still a bit tedious, though.

Java getters and setters:


public class Element 
{
   
  private String symbol;   
  private String name;   
  private int atomicNumber;
  public int getAtomicNumber() 
  {
    return this.atomicNumber;
  }
  public String getSymbol() 
  {
    return this.symbol;
  }
  public String getName() 
  {
    return this.name; 
  }
  public void setAtomicNumber(int atomicNumber) 
  {
    this.atomicNumber = atomicNumber;
  }
  public void setName(String name) 
  {
    this.name = name;
  }
  public void setSymbol(String symbol) 
  {
    this.symbol = symbol;
  }
}

Many Java projects incorporate Project Lombok, which adds getters, setters, equals, and hash code (plus other useful boilerplates) at compile time.

Project Lombok — not part of the standard library:

@Getter @Setter
public class Element 
{
   
  private String symbol;   
  private String name;   
  private int atomicNumber;
}

C# built-in properties feature:

public class Element 
{

  public string Symbol { get; set; }     
  public string Name { get; set; }     
  public int AtomicNumber { get; set; }
}

Loops

Java for each loop:

List<Integer> fibNumbers = Arrays.asList(0, 1, 1, 2, 3, 5, 8, 13);
int count = 0;
for (int element: fibNumbers)
{
    count++;
    System.out.println(String.format("Element #%s: %s", count, element));
}
System.out.println(String.format("Number of elements: %s", count));

C# for each loop:

var fibNumbers = new List<int> { 0, 1, 1, 2, 3, 5, 8, 13 };
int count = 0;
foreach (int element in fibNumbers)
{
    count++;
    Console.WriteLine($"Element #{count}: {element}");
}
Console.WriteLine($"Number of elements: {count}");

Implementing interfaces/inheritance

Inheritance and implementing interfaces isn’t drastically different between the two languages. Java uses the extends or implements keywords; C# uses C++ syntax (derivation declaration) B : A for defining inheritance.

Defining and implementing an interface with methods in Java:

package dev.andymacdonald;


import java.util.ArrayList;
import java.util.List;

interface Fish
{
   void swim();
}

class Salmon implements Fish
{

   public void swim()
   {
      System.out.println("Salmon.Fish");
   }
}

class Cod implements Fish
{
   public void swim()
   {
      System.out.println("Cod.Swim");
   }
}

public class Program
{
   public static void main()
   {
      List<Fish> fishes = new ArrayList<>();
      fishes.add(new Salmon());
      fishes.add(new Cod());

      for (Fish fish : fishes)
      {
         fish.swim();
      }
   }
}

Defining and implementing an interface with methods in C#:

using System;
using System.Collections.Generic;

namespace Dev.AndyMacdonald 
{
    interface Fish
    {
        void Swim();
    }
    class Salmon : Fish
    {
        public void Swim()
        {
            Console.WriteLine("Salmon.Fish");
        }
    }
    class Cod : Fish
    {
        public void Swim()
        {
            Console.WriteLine("Cod.Swim");
        }
    }
    class Program
    {
        static void Main()
        {
            List<Fish> fishes = new List<Fish>();
            fishes.Add(new Salmon());
            fishes.Add(new Cod());
            foreach (Fish fish in fishes)
            {
                fish.Swim();
            }
        }
    }
}

Pointers

Quite simply, Java just doesn’t do pointers, whereas in C# it is possible to do pointer arithmetic and manipulation.

 unsafe {
  int a = 25;
  int * ptr = &a;
  Console.WriteLine($"Value of pointer is {*ptr}");
}

IDE

Visual Studio

C# developers traditionally and typically use the Visual Studio IDE. This is a situation borne out of the origins of .NET being a closed-source technology. Microsoft developed Visual Studio** **to be a one-stop shop for all things .NET.

Java went down a different route, offering much more developer choice in tooling from the outset. That’s why there’s a much greater range of IDEs for Java development (e.g., IntelliJ, Eclipse, NetBeans). Gradually the landscape for .NET developers has shifted, and more IDEs and developer choice has been offered over the years.

IntelliJ (Java) — Rider (C#)

Users of JetBrains IDEs will find the transition from one IDE to another very smooth if they choose to make a switch to the respective JetBrains IDE in the technology they are targeting. Keyboard shortcuts, IDE layout, and even some plugins are equivalent or comparable — virtually the same IDE.

Dependency Management

Maven (Java) — NuGet and dotnet CLI (C#)

Maven is a tool responsible for dependency management and the life cycle of the building of typically Java and JVM applications. That said, it is pretty flexible, has 1000s of plugins, and can be used to build applications of other languages, such as PHP and JavaScript.

The configurable unit of maven is a pom.xml file that every maven project has. For a project’s submodules, it is possible to have a pom file per submodule which inherits from a parent. Maven uses a remote server or repository of some kind to host and retrieve packages.

Maven pom.xml file (Java):

<?xml version="1.0" encoding="UTF-8"?>
<project xmlns="http://maven.apache.org/POM/4.0.0"
         xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
         xsi:schemaLocation="http://maven.apache.org/POM/4.0.0 http://maven.apache.org/xsd/maven-4.0.0.xsd">
    <modelVersion>4.0.0</modelVersion>
    <groupId>dev.andymacdonald</groupId>
    <artifactId>fish-app</artifactId>
    <version>0.0.1-SNAPSHOT</version>
    <packaging>jar</packaging>

    <dependencies>
        <dependency>
            <groupId>org.projectlombok</groupId>
            <artifactId>lombok</artifactId>
        </dependency>
    </dependencies>

    <build>
        <plugins>
            <plugin>
                <groupId>org.springframework.boot</groupId>
                <artifactId>spring-boot-maven-plugin</artifactId>
            </plugin>
        </plugins>
    </build>

</project>

At the simplest level, you can test and build a Maven project with the following command:

mvn clean install

And create a package with this:

mvn clean package

And finally, deploy a package like this:

mvn clean deploy

NuGet fulfills a similar, though not identical role in .NET to Maven. NuGet can use a few different configuration files but commonly uses .csproj*. *As with Maven, NuGet uses a server/repository that can host packages.

NuGet .csproj file:

<Project xmlns="http://schemas.microsoft.com/developer/msbuild/2003">
  <PropertyGroup>
    <AssemblyName>MSBuildSample</AssemblyName>
    <OutputPath>Bin\</OutputPath>
  </PropertyGroup>
  <ItemGroup>
    <Compile Include="helloworld.cs" />
  </ItemGroup>
  <ItemGroup>
    <PackageReference Include="MyDependency" version="1.0.0" />
  </ItemGroup>  
  <Target Name="Build">
    <MakeDir Directories="$(OutputPath)" Condition="!Exists('$(OutputPath)')" />
    <Csc Sources="@(Compile)" OutputAssembly="$(OutputPath)$(AssemblyName).exe" />
  </Target>
</Project>

NuGet’s primary role is package management, construction, and deployment. Java developers will notice that it doesn’t really have the same concept of build phases as Maven does. Additionally, .NET developers don’t tend to edit their build files manually as Java developers do with pom.xml files, preferring to manipulate them in their IDE instead.

Packages can be built, packaged, and deployed to NuGet with the following nuget commands:

nuget spec
nuget pack {nuspec file}
nuget push {package file} {apikey} -Source {host url}

If you want to run the tests for your .NET application, you can run the following dotnet CLI command:

dotnet test

The dotnet CLI can also be used as a wrapper around nuget commands.

Application Servers

Apache Tomcat (Java) — IIS (ASP.NET)

Tomcat is an open-source web server and servlet container from the Apache Foundation. Though there are many other application servers used widely in Java, it is a pretty common choice for most enterprise-software companies. It works across pretty much every operating system (e.g., Windows, Unix, Linux, and Mac OS).

.NET projects are typically deployed on IIS, a web server that only runs on Windows. While its portability is limited, it’s a pretty popular choice for Windows developers because of its ease of use and simplicity while still offering some advanced configuration options.

… But Wait!

For .NET Core web applications, you can package them to run as standalone web applications — allowing you to run them like this:

dotnet <app_assembly>.dll

In the same way you can run a Java Spring Boot web*** ***application (which has a self-contained Tomcat server):

java -jar <my-application>.jar

And visit your shiny new web app like this:

http://<serveraddress>:<port>

Libraries and Frameworks

Spring Framework (Java) — ASP.NET (C#)

The Spring Framework is a framework and IoC container for Java. In short, the Spring framework is responsible for instantiating objects (beans) and managing the life cycle of these beans in memory.

Create an ApplicationContext* *(similar to the concept of a Startup in ASP.NET). This example uses Spring Boot:

@SpringBootApplication
public class HumanApplication
{
   public static void main(String[] args) 
   {
      SpringApplication.run(HumanApplication.class, args);
   }
}

Create an interface:

public interface Organ<T>
{  
   void function();
}

Implement the Organ<T> interface:

@Component
public class Heart implements Organ<Heart>
{
    public Heart() {}
    public void function() 
    {
        System.out.println("Buh-dump");
    }
}

Constructor injection of Organ dependencies list into a Human service:

@Service
public class Human 
{
    private static final int MAX_SECONDS_OF_LIFE = 3000;
    private List<Organ> organs;
    public Human(List<Organ> organs) 
    {
        this.organs = organs;
    }
    @PostConstruct
    public void live() 
    {
        for (int i = 0; i < MAX_SECONDS_OF_LIFE; i++) 
        {
            organs.forEach(organ -> organ.function());
        }
    }
}

Run the application …

It’s aliiiiiiive:

Buh-dump
Buh-dump
Buh-dump
Buh-dump
...

Spring also ships with a handy suite of modules and packages.

In the core Spring packages, and in the convention-over-configuration extension to the framework, Spring Boot, useful combinations of existing and bespoke technologies are provided for developers wanting access to common libraries to kickstart a project with all that they may need, rather than having to write or track down these utilities themselves:

  • RestTemplate (spring-web — for constructing REST and HTTP requests)
  • JdbcTemplate (spring-data — for constructing JDBC queries and statements)
  • Spring Security (for creating and managing application security models)
  • ObjectMapper (spring-core — useful utility for mapping POJOs from Jackson)
  • etc.

ASP.NET fulfills a similar role in the world of C#, providing IoC functionality, commonly used technologies, and utilities in a single framework. However, ASP.NET generally only provides IoC functionality for web applications, whereas the Spring Framework provides this for any application type.

In terms of dependency inversion, it is possible to do very similar things in ASP.NET as in Spring.

As before, define the needed interface and concrete implementation:

public interface Organ<T>
{  
   void Function();
}
public class Heart : Organ<Heart>
{
    public Heart() {}
    public void Function() 
    {
        Console.WriteLine("Buh-dump");
    }
}

Invoke functions of injected dependencies:

public class Human
{

   private List<IOrgan> _organs;
 
   public Human(List<IOrgan> organs)
   {
      _organs = organs;
      this.Live();
   }
   public void Live()
   {
      organs.ForEach(organ =>
      {
         organ.Function();
      });
   }
}

Define a Startup and register services:

public class Startup  
{    
  public void ConfigureServices(IServiceCollection services)
  {    
    services.AddTransient<IList<IOrgan>>(p => p.GetServices<IOrgan>().ToList());
  }
}

ASP.NET also fulfills the role of providing many useful libraries and utilities to accelerate development of your project.

Streams (Java) — LINQ (C#)

Both Java and C# have mechanisms to simplify the reduction of data sets — Streams and LINQ.

There are some differences and gaps between the two technologies but if you have familiarity with one, you’ll be able to get up and running fairly quickly with the other.

Java Streams:

List<Student> studentList = Arrays.asList( 
    new Student(1, "John", 18, 1),
    new Student(2, "Steve", 21, 1),
);
List<String> studentNames = studentList.stream()
    .filter(s -> s.getAge() > 18)
    .filter(s -> s.getStandardID() > 0)
    .map(s -> s.getName()).collect(Collectors.toList());
studentNames.forEach(name -> System.out.println(name));

LINQ Query (C#):

IList<Student> studentList = new List<Student>() { 
    new Student() { StudentID = 1, StudentName = "John", Age = 18, StandardID = 1 } ,
    new Student() { StudentID = 2, StudentName = "Steve",  Age = 21, StandardID = 1 }
};
var studentNames = studentList.Where(s => s.Age > 18)
                        .Where(st => st.StandardID > 0)
                        .Select(s => s.StudentName);
foreach(var name in studentNames) {   
    Console.WriteLine(name);
}

Apache Commons (Java) — CommonLibrary.NET (C#)

Apache Commons*** ***provides Java developers with a collection of several independently released, useful components and utilities for the purposes of accelerating development.

If you’re in need of a utility to work with ZIP files or a set of utilities for working with mathematical expressions and formulae, then Apache Commons has you covered.

In a similar way, CommonLibrary.NET covers these bases too — there are some key differences in naming of some components and modules, but for the most part, they are pretty much equivalent in their purpose.

That said, unlike Apache Commons, CommonLibrary.NET is quite old and isn’t very commonly used in projects anymore. If you’re after a continuously updated, curated list of libraries for each respective technology, I highly recommend these two lists:

akullpp/awesome-java

quozd/awesome-dotnet

Testing Libraries

JUnit (Java) — NUnit (C#)

Java’s ever-dependable JUnit library has a direct equivalent in C#.

NUnit has almost equivalent functionality to JUnit and is a popular choice for C# developers.

JUnit:

@Test
public void complexNumberTest()
{
    ComplexNumber result = someCalculation();
    Assert.assertEquals("Real", 5.2, result.getRealPart());
    Assert.assertEquals("Imaginary" 3.9, result.getImaginaryPart());
}

NUnit:

[Test]
public void ComplexNumberTest()
{
    ComplexNumber result = SomeCalculation();
    Assert.Multiple(() =>
    {
        Assert.AreEqual(5.2, result.RealPart, "Real");
        Assert.AreEqual(3.9, result.ImaginaryPart, "Imaginary");
    });
}

(Rumour has it NUnit started life as the JUnit source code modified to run in C#.)

Mockito (Java) — Moq (C#)

As with JUnit and NUnit, comparable functionality exists between Java’s Mockito and C#’s Moq library.

Mockito:

Foo mockFoo = mock(Foo.class);
when(mockFoo.doSomething("ping")).thenReturn(true);

Moq:

var mock = new Mock<IFoo>();
mock.Setup(foo => foo.DoSomething("ping")).Returns(true);

That’s It

Thanks for Reading!

I obviously couldn’t fit every difference, similarity, and detail in this article —* *it’s already far too long.

I hope at least I’ve covered enough ground to make you feel confident to make a switch and see how the other half lives.

If you liked this post, share it with all of your programming buddies!

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Further reading

Java Tutorial for Absolute Beginners

100+ Java Interview Questions and Answers In 2019

Python vs Java: Understand Object Oriented Programming

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