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I just wanted to know What are the factors decisive in making a function call during overloading. As I know its the signature of parameters, number of parameters passed Which plays an important role. But is there the const part also Which plays an important part in overloading or not. Overloading of 1st and 2nd function works fine but if a add a third function with const as a characteristic in passed parameters, I get compilation error. int A::sum(int, int) and int A::sum(int, int) cannot be overloaded. Just giving the code snippet for class:

class A
    int x;
    int y;

    int sum ( int a, int b )
        cout << " Inside 1st ";
        return (a+b) ;

    int sum (int a ,int b) const
        cout << " Inside 2nd ";
        return (a+b) ;

    int sum (const int a ,const int b)
        cout << " Inside 3rd ";
        return (a+b) ;


When I declare the normal object and make a call to sum the first function gets called and in case of a const object second sum is being called. That's perfectly fine. But if I write 1st and 3rd function both it becomes an issue. Why so?

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Just as a note, when you declare a function as void f(T);, you can define it as void f(T const x) { /* ... */ }. In other words, the constness of a value parameter is an implementation detail, as it only affects the constness of the local variable inside the function scope and has nothing to do with how the function is called. –  Kerrek SB Feb 18 '12 at 18:56

2 Answers 2

up vote 5 down vote accepted

You can overload on const-ness, but only where it actually makes a difference. What do I mean "actually makes a difference"? Well, if you declare

void foo(char *ptr);
void foo(const char *ptr);

the const matters: you are saying that one overload of foo guarantees not to modify the memory that ptr points to, and the other doesn't. But if you declare

void foo(int x);
void foo(const int x);

the const doesn't matter: scalar arguments are always passed by value, so neither hypothetical variation of foo can modify the value of x in its caller, even if it wanted to. Therefore, the C++ standard says that the const is discarded, and these are two different declarations of the same function, one of which is erroneous.

The position of the const relative to the * matters. A pointer is itself a scalar, so these are also two declarations of the same function:

void foo(char *ptr);
void foo(char *const ptr);

because here the const qualifies the pointer itself rather than the object it points to.

That brings us to methods: a const qualifier after the argument list on a method declaration applies to the object pointed to by this, and that can be overloaded on:

struct A
  int foo (char *ptr);
  int foo (char *ptr) const;
  int foo (const char *ptr);
  int foo (const char *ptr) const;

You should think of these declarations as being rewritten internally to:

struct A {};
int A_foo (A *this, char *ptr);
int A_foo (const A *this, char *ptr);
int A_foo (A *this, const char *ptr);
int A_foo (const A *this, const char *ptr);

and then everything works according to the normal rules for overloaded functions.

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Wonderful Explanation Zack , Will just check things practically . Hope it will clear all my doubts. –  Invictus Feb 18 '12 at 18:39

const and non const functions can be overloaded.(const follows after the function)
i.e. it is a valid criteria for function overloading.

However, functions in your example cannot be overloaded on the basis of constness of function arguments, because the constness of the arguments does not matter at all.The function argument is passed by value and the function receives a copy of it.
Function overloading needs that there should be some distinguishing criteria between same named functions, Unless the const on argument actually makes the functions being overloaded distinct from the perspective of the compiler the overloading using const-ness of function argument is not allowed.

The former is possible because,
If you have a const object then you You can only call a const function on it. Because a non-const function is bound to modify class members and hence calling it on const object is a semantic error and would results in compilation error.

If you have a normal on-const object then both the const and the non-const versions of the functions are valid to be called on the instance. The compiler chooses the most appropriate one which is the non-const version.

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is there any specific reason Why compiler does not allow us to do overloading on basis of constness of parameter ? –  Invictus Feb 18 '12 at 18:23
Something I've wondered about, and which you might be in a position to answer, is overloading/inheritance and access control. My experience indicates that if foo is protected in a base class, making foo public in a derived class will not overload it. But what is the general rule? –  Matt Phillips Feb 18 '12 at 18:30
@Als Thanks Als, i got your point but my question is Why compiler doesnot allow me to use the third function with const parameter passed in it ? –  Invictus Feb 18 '12 at 18:31
This answer is rather misleading -- you can overload on constness of arguments, but only when the const actually matters, e.g. when it's "pointer to T" versus "pointer to const T". Overloading on const after the argument list is overloading on the constness of a parameter: the implicit this parameter. –  zwol Feb 18 '12 at 18:36
@Ritesh: Because it does not make any difference as the parameters in your case are passed by value.Your function receives a copy of the original argument being passed, so the const does not matter here. –  Alok Save Feb 18 '12 at 18:36

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