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Basic Concepts Of OOPS with C++


Introduction

In this tutorial you will learn about Objects, Classes, Inheritance, Data Abstraction, Data Encapsulation, Polymorphism, Overloading, Reusability.

Before starting to learn C++ it is essential that one must have a basic knowledge of the concepts of Object oriented programming. Some of the important object oriented features are namely:

Objects
Classes
Inheritance
Data Abstraction
Data Encapsulation
Polymorphism
Overloading
Re-usability

In order to understand the basic concepts in C++, the programmer must have a command of the basic terminology in object-oriented programming. Below is a brief outline of the concepts of Object-oriented programming languages:

Objects:

Object is the basic unit of object-oriented programming. Objects are identified by its unique name. An object represents a particular instance of a class. There can be more than one instance of an object. Each instance of an object can hold its own relevant data.


An Object is a collection of data members and associated member functions also known as methods.

Classes:

Classes are data types based on which objects are created. Objects with similar properties and methods are grouped together to form a Class. Thus a Class represent a set of individual objects. Characteristics of an object are represented in a class asProperties. The actions that can be performed by objects becomes functions of the class and is referred to as Methods.

For example consider we have a Class of Cars under which Santro Xing, Alto andWaganR represents individual Objects. In this context each Car Object will have its own, Model, Year of Manufacture, Colour, Top Speed, Engine Power etc., which formProperties of the Car class and the associated actions i.e., object functions like Start, Move, Stop form the Methods of Car Class.

No memory is allocated when a class is created. Memory is allocated only when an object is created, i.e., when an instance of a class is created.

Inheritance:

Inheritance is the process of forming a new class from an existing class or base class. The base class is also known as parent class or super class, The new class that is formed is called derived class. Derived class is also known as a child class or sub class.Inheritance helps in reducing the overall code size of the program, which is an important concept in object-oriented programming.

Data Abstraction:

Data Abstraction increases the power of programming language by creating user defined data types. Data Abstraction also represents the needed information in the program without presenting the details.

Data Encapsulation:

Data Encapsulation combines data and functions into a single unit called Class. When using Data Encapsulation, data is not accessed directly; it is only accessible through the functions present inside the class. Data Encapsulation enables the important concept of data hiding possible.

Polymorphism:

Polymorphism allows routines to use variables of different types at different times. An operator or function can be given different meanings or functions. Polymorphism refers to a single function or multi-functioning operator performing in different ways.

Overloading:

Overloading is one type of Polymorphism. It allows an object to have different meanings, depending on its context. When an exiting operator or function begins to operate on new data type, or class, it is understood to be overloaded.

Re-usability:

This term refers to the ability for multiple programmers to use the same written and debugged existing class of data. This is a time saving device and adds code efficiency to the language. Additionally, the programmer can incorporate new features to the existing class, further developing the application and allowing users to achieve increased performance. This time saving feature optimizes code, helps in gaining secured applications and facilitates easier maintenance on the application.

The implementation of each of the above object-oriented programming features for C++ will be highlighted in later sections.

A sample program to understand the basic structure of C++

//program to read employee details and to output the data
#include <iostream.h>                      → Preprocessor directive
class employee                             → Class Declaration    
{
   private:
     char empname[50];
     int empno;

   public:
     void getvalue()
     {
        cout<<”INPUT EMP NAME:”;
        cint>>empname;
        cout<<”INPUT EMP NO:”;
        cint>>empno;
     }

     void displayvalue()
     {
        cout<<”EMP NAME:”<<empname;
        coout<<EMP NO:”<<empno;
     }
};

main()
{
     employee e1;                             → Creation of Object
     e1.getvalue();
     e1.displayvalu();
}

Overview of the Basic Structure of C++ Programming

The // in first line is used for representing comment in the program.
The second line of the program has a # symbol which represents the preprocessor directive followed by header file to be included placed between < >.
The next structure present in the program is the class definition. This starts with the keyword class followed by class name employee. Within the class are data and functions. The data defined in the class are generally private and functions are public. These explanations we will be detailed in later sections. The class declaration ends with a semicolon.
main() function is present in all C++ programs.
An object e1 is created in employee class. Using this e1 the functions present in the employee class are accessed and there by data are accessed.
.The input namely ename and eno is got using the input statement namely cin and the values are outputted using the output statement namely c