Features of Java

Following are the notable features of Java:

1.   Object Oriented

In Java, everything is an object. Java can be easily extended since it is based on the Object model. Java is an object-oriented programming language. Object-oriented means we organize our software as a combination of different types of objects that incorporates both data and behavior.

Object-oriented programming (OOPs) is a methodology that simplifies software development and maintenance by providing some rules.

Basic concepts of OOPs are:

1.     Object

2.     Class

3.     Inheritance

4.     Polymorphism

5.     Abstraction

6.     Encapsulation

 

2.   Simple

Java is designed to be easy to learn. If you understand the basic concept of OOP Java, it would be easy to master. According to Sun, Java language is a simple programming language because:

•  Java syntax is based on C++ (so easier for programmers to learn it after C++).
•  Java has removed many complicated and rarely-used features, for example, explicit pointers, operator overloading, etc.
•  There is no need to remove unreferenced objects because there is an Automatic Garbage Collection in Java.

3.   Secured

With Java’s secure feature it enables to develop virus-free, tamper-free systems. Authentication techniques are based on public-key encryption. Java is secured because:

• No explicit pointer
• Java Programs run inside a virtual machine sandbox
• Classloader: Classloader in Java is a part of the Java Runtime Environment (JRE) which is used to load Java classes into the Java Virtual Machine dynamically. It adds security by separating the package for the classes of the local file system from those that are imported from network sources.
•  Bytecode Verifier: It checks the code fragments for illegal code that can violate access right to objects.

   Security Manager: It determines what resources a class can access such as reading and writing to the local disk.

Java language provides these securities by default. Some security can also be provided by an application developer explicitly through SSL, JAAS, Cryptography, etc.

4.   Platform Independent

Unlike many other programming languages including C and C++, when Java is compiled, it is not compiled into platform specific machine, rather into platform-independent byte code. This byte code is distributed over the web and interpreted by the Java Virtual Machine(JVM) on whichever platform it is being run on.

There are two types of platforms software-based and hardware-based. Java provides a software-based platform.

The Java platform differs from most other platforms in the sense that it is a software-based platform that runs on the top of other hardware-based platforms. It has two components:

1.     Runtime Environment

2.     API(Application Programming Interface)

Java code can be run on multiple platforms, for example, Windows, Linux, Sun Solaris, Mac/OS, etc. Java code is compiled by the compiler and converted into bytecode. This bytecode is a platform-independent code because it can be run on multiple platforms, i.e., Write Once and Run Anywhere (WORA).

5.   Robust

Java makes an effort to eliminate error-prone situations by emphasizing mainly on compile time error checking and runtime checking.

Robust simply means strong. Java is robust because:

• It uses strong memory management.
• There is a lack of pointers that avoids security problems.
•  There is automatic garbage collection in java which runs on the Java Virtual Machine to get rid of objects which are not being used by a Java application anymore.
•  There are exception handling and the type checking mechanism in Java. All these points make Java robust.

6.   Portable

Being architecture-neutral and having no implementation dependent aspects of the specification makes Java portable. The compliler in Java is written in ANSI C with a clean portability boundary, which is a POSIX subset.

7.   Architecture-neutral

Java compiler generates an architecture-neutral object file format, which makes the compiled code executable on many processors, with the presence of Java runtime system. Java is architecture neutral because there are no implementation dependent features, for example, the size of primitive types is fixed.

In C programming, int data type occupies 2 bytes of memory for 32-bit architecture and 4 bytes of memory for 64-bit architecture. However, it occupies 4 bytes of memory for both 32 and 64-bit architectures in Java.

8.  Dynamic

Java is considered to be more dynamic than C or C++ since it is designed to adapt to an evolving environment. Java programs can carry an extensive amount of run-time information that can be used to verify and resolve accesses to objects at run-time.

Java supports dynamic compilation and automatic memory management (garbage collection).

9.   Interpreted

Java byte code is translated on the fly to native machine instructions and is not stored anywhere. The development process is more rapid and analytical since the linking is an incremental and light-weight process.

10.   High performance

With the use of Just-In-Time compilers, Java enables high performance. Java is faster than other traditional interpreted programming languages because Java bytecode is "close" to native code.

11.   Multithreaded

A thread is like a separate program, executing concurrently. We can write Java programs that deal with many tasks at once by defining multiple threads. The main advantage of multi-threading is that it doesn't occupy memory for each thread. It shares a common memory area. Threads are important for multi-media, Web applications, etc.

12.  Distributed

Java is distributed because it facilitates users to create distributed applications in Java. RMI and EJB are used for creating distributed applications. This feature of Java makes us able to access files by calling the methods from any machine on the internet.