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Hi I am trying to understand the difference between function overloading and method overloading in c++. After googling I came across this. not sure if this is correct. If wrong pls help in correction.

Method overloading and function overloading are related concepts. The term method overloading is defined as a feature which is found in various programming languages such as C++ and Java. It permits the creation of various functions with the same name. However all these functions differ from each other in terms of the type of input and the type of output of the function.

On the other hand, the term function overloading is used in object-oriented programming. It is defined as a technique in which two or more functions which have the same name are distinguished from one another using different numbers and/or types of parameters.

Source : http://www.blurtit.com/q662319.html

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?! sounds like the same thing to me –  Jason S Mar 10 '12 at 18:27
    
The quote snippet there is actually backward: method overloading is object-oriented, because otherwise you don't have objects with methods to be overloaded. Function is more generic, since it applies to free functions. –  ssube Mar 10 '12 at 18:38
1  
In C++ we only have functions - free functions and member functions. Some people prefer to call the member functions "methods" because that makes them feel more comfortable comparing C++ to other languages. There is no other difference. –  Bo Persson Mar 10 '12 at 18:59
    
The first paragraph in the quote actually talks about member function(method) overriding (not overloading). free function overloading and member function(method) overloading is the same. –  Dani Mar 10 '12 at 19:05
    
@Dani: It is not same, there is a difference,check my answer. –  Alok Save Mar 10 '12 at 19:08
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3 Answers 3

In C++ Method is usually used to refer a member function for class or structure while,
Function is a freestanding non member function.


How does the standard declare a Function and Method?

As per the C++ standard, A function declaration is defined in: 8.3.5 Functions [dcl.fct]

In a declaration T D where D has the form

D1 ( parameter-declaration-clause ) cv-qualifier-seqopt exception-specificationopt

and the type of the contained declarator-id in the declaration T D1 is “derived-declarator-type-listT,” the type of the declarator-id in D is “derived-declarator-type-list function of (parameter-declaration-clause) cv-qualifier-seqopt returning T”; a type of this form is a function type86).

Note that the standard further states in #4:

A cv-qualifier-seq shall only be part of the function type for a nonstatic member function

To Summarize only methods(member functions) can be const or volatile.


Overloading Criteria for Function & Method Overloading:

Thus, overloading a function and overloading a method(member function) have different criteria

Function overloading is possible if and only if:

  • Different number of arguments.
  • Different sequence of arguments or
  • Different arguments

While method(member function) Overloading is possible if and only if:

  • Different number of arguments.
  • Different sequence of arguments or
  • Different arguments or
  • Different cv-qualifer-seq

Note that Return type is not a criteria for overloading. Because C++ allows implementations to ignore the return value from functions/methods.


Code Examples:

Function Overloading:

void doSomething(int i);
void doSomething(std::string,int x);

Method Overloading:

class Myclass
{
     public:
           void doSomething(int i);
           void doSomething(std::string,int x);
           void doSomething(int i) const;
           void doSomething(int i) volatile;
};

Above is an example of how doSomething() can be overloaded as a free standing function and as a method/member function.

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The "if and only if" is wrong here. You can also change the cv-qualifiers if the method is a class member. –  Luchian Grigore Mar 10 '12 at 18:36
    
@LuchianGrigore: Updated with more details.Hth. –  Alok Save Mar 10 '12 at 19:05
    
Also updated... –  Luchian Grigore Mar 10 '12 at 19:06
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They are the same thing.

However, some prefer calling methods functions that are part of a class, and functions, free functions.

//function overloading
void foo(int x);
void foo(int x, int y);

//method overloading
class A
{
   void foo(int x);
   void foo(int x, int y);
};

A method/function is overloaded by modifying the signature but keeping its name. The signature consists of:

  • name
  • parameter types
  • cv-qualifiers

So, to overload, you need only change the parameters or the cv-qualifiers. I.e. if the method is part of a class, you could also overload like so:

class A
{
   void foo(int x);
   void foo(int x) const;
   void foo(int x, int y);
};

The prototype foo(int x) const will be called when operating on an immutable object.

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On a general sense, functions return values. Methods simply do actions.

The textbook example you'll see a lot is door.open() and hood.open() (yes, we all hate the awful car -> OO analogies, but it's clear in this case). These are methods. You open the door, and there is no by-product. But, it does come down to how the door must be opened, versus how the hood is opened; they are similar enough to share the action, but differ in the detailed implementation (that'd you'd rightfully wish to hide from the user...doors open out, while hoods open up).

Functions, however, replace the original call to the function with the value returned by the function. If I understand correctly, you might show this by measuring a car.exhaust(30, 0), which returns the weight of the carbon, oxygen, and other gasses emitted in 30 seconds, travelling at 0 mph. However, a car.exhaust(30, 60) function would include details not used with a speed variable of 0, and would change the output accordingly.

There are lots of examples of function overloading, this one simply demonstrates how different parameters can affect the logic and output of the function used.

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