Skip to main content

C++ Function Overloading

C++ Function Overloading

If a C++ class have multiple member functions, having same name but different parameters (with change in type, sequence or number), and programmers can use them to perform similar form of operations, then it is known as function overloading. In this case, two functions can have same identifier (name) and if either number of arguments or type of arguments passed to functions are different; then overloading is possible within a C++ program. In other words, it is the ability of creating multiple functions with same name and slightly different implementation and depending on the context (type, sequence and number of value passed), the appropriate function gets invoked.
In case of C++ programs, if the functions are like this:
Example:
int overloaded() { }
int overloaded (int g){ }
int overloaded (float g){ }
int overloaded (int g, double s){ }
int overloaded (float s, int g, double k){ }
Here the function name overloaded is used as overloading functions with the change in argument type and number.

Function Overloading

Example:
#include <iostream>
using namespace std;

long add(long, long);
float add(float, float);
int main()
{
 long a, b, c;
 float e, f, g;
 cout << "Enter two integers\n";
 cin >> a >> b;
 c = add(a, b);
 cout << "Sum of integers: " << c << endl;
 cout << "Enter two floating point numbers\n";
 cin >> e >> f;
 g = add(e, f);
 cout << "Sum of floats: " << g << endl;
}

long add(long c, long g)
{
 long sum;
 sum = c + g;
 return sum;
}

float add(float c, float g)
{
 float sum;
 sum = c + g;
 return sum;
}
Rules for Overloading Operators:
  • Only existing operators can be overloaded
  • Programmers cannot change the basic meaning of an operator
  • Overloaded operators will always follow the syntax rules of the original operators
  • Programmers cannot use friendfunction to overload certain operators
Labels:

Comments

Post a Comment

For Programs Click Here

Programs

Popular posts from this blog

Syllabus

Syllabus  C Programming Tutorials C Tutorial C Introduction History of C Programming Language C Installation C Program Structure C Input and Output (I/O) C Format Specifiers Declaration & Assignments C Tokens C Identifiers C Keywords C Constants C Operators C Data Types C Variables C Preprocessors C Type Casting C Custom Header File Flow Control C Decision Making C if Statements C if-else Statements C Nested if-else Statements C else-if Statements C goto Statement C switch Statements C Loops C while loops C do while loops C for loops Functions C Functions C Function Arguments C Library Functions C Variable Scope Arrays & Strings C Arrays C Strings Pointers C Pointers C Dynamic Memory Allocation Structure & Union C Structures C Unions File I/O C File Handling C fopen C fclose C getc C putc C getw C putw C fprintf C fscanf C fgets C fputs C feof                                     ...
3 comments
Read more

Syllabus

Python Tutorials Python Tutorial Python Overview Python Installation Basics of Python Programming Python Operators Python Keywords Python Numbers Python Strings Python Data Types Python Variables Python Lists Python Tuples Python Date and Time Python Decision Making Python Loops Python File Handling Python Dictionaries Python Functions Python Modules Python Exceptions Handling Python Object Oriented Inheritance in Python Python Regular Expressions Python Networking Programming Python Multithreaded Programming Python CGI Programming Python Database Connection Python Metaprogramming Python Data Processing And Encoding Python GUI Programming
Post a Comment
Read more

C++ Data Abstraction

C++ Data Abstraction Object oriented programming offers various features to write programs with various concepts that help to minimize problems and increase flexibility in program. One of the features of object oriented programming is Data abstraction. In this chapter you will learn about how the concept data abstraction is carried out within the C++ program. What is Data abstraction? Data abstraction allows a program to ignore the details of how a data type is represented. Abstraction (derived from a Latin word  abs , meaning away from and  trahere , meaning to draw) refers to the act of representing essential features without including the background details or explanations. C++ classes use the technique of abstraction and are defined as a list of abstract attributes such as width, cost, size etc and functions to operate on these attributes. They put in a nutshell all the essential properties of an object that are required to be created. The attributes are therefore called...
Post a Comment
Read more