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I have two questions :

Q1) Are the function names themselves pointers ??

If they are pointers , then what values are stored in them?

Else if they are not pointers ,then, what are they and what values are stored in them?

If we consider that function names are pointers. Then :

void display(){...}

int main ()
{ 
    void (*p)();

    **p=display; //Works (justified**, because we are assigning one pointer into another)

    **p=&display; //Works (Not justified** If function name is a pointer (let say type*) , then &display is of datatype : type**. Then how can we assign type** (i.e. &display) into type * (i.e. p)??)

    **p=*display; //Works (Not justified** If function name is a pointer ( type *) ,then, how can we assign type (i.e. *display) into type * (i.e. p) ?? )
}

Again ,

cout<<display<<";"<<&display<<";"<<*display;

Prints something like :

0x1234;0x1234;0x1234

[1234 is just for example]

[OMG! How is this possible ??How can address of a pointer, address it is pointing to and the value at pointed address all be same?]

Q2) What value is stored in a user defined pointer to a function ?

Consider the example :

void display(){...}

int main()
{
    void (*f)();

    f=display;

    f=*f; // Why does it work?? How can we assign type (i.e. *f ) into type * (i.e.  f). 

    cout<<f<<";"<<&f<<";"<<*f;

    //Prints something like :

    0x1234;0x6789;0x1234
}

[First two outputs are justified... But how can the value in a pointer (address it is pointing to) be equal to the value stored in the pointed address? ]

Again :

f=*********f; // How can this work?

I searched it online but all info that is available is regarding usage and example code to create function pointers. None of them say about what they are or how they are different from normal pointers.

So I must be missing something very basic thing. Please point me out what I am missing. (Sorry for my ignorance being a beginner.)

0
10

Are the function names themselves pointers?

No. However, in some contexts, a function can be automatically converted to a pointer-to-function. The standard says in paragraph 4.3:

An lvalue of function type T can be converted to a prvalue of type “pointer to T.” The result is a pointer to the function.

(A function name designates an lvalue, but there can be other lvalues of function type).

In your examples

p = display;
p = *p;

there's exactly this kind of automatic conversion. display and *p are lvalues of a function type, and when needed, they are silently and automatically converted to a pointer-to-function type.

p = *display; 

Here the conversion occurs twice: first display is converted to a pointer for the * operator, then it is dereferenced, then converted to a pointer again for the = operator.

cout << display << ";" << &display << ";" << *display;

Here, display is converted to a pointer for operator <<; &display is already a pointer because & is a normal address-taking operator; and *display is converted to a pointer for operator << while inside it display is converted to a pointer for operator *.

f = *********f;

There are many conversions of this kind in this expression. Count them yourself!

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  • Can you please explain what is happening while using &display?? I mean &display signifies address of lvalue. So ?? Even if we assume that display is automatically converted to pointer to lvalue (as in *display) , then also &display signifies address in which the pointer is stored. So how can be : &display=*display or &display=display?? [I now understand why *display=display] – Madhuchhanda Mandal Jan 11 '17 at 4:26
  • There is no automatic conversion in &display. It does not always happen. It only happens when a function is used as an argument to an operator that requires a pointer. & does not. It takes a lvalue and returns its address. So it explicitly converts a function to its addreds while in other examples the conversion is implicit. – n. 1.8e9-where's-my-share m. Jan 11 '17 at 5:02
  • Ok.. It's a bit confusing.. Then why : &f != *f but &display==*display ? – Madhuchhanda Mandal Jan 11 '17 at 5:14
  • f is a pointer, &f is a pointer to a pointer. No automatic conversion here. – n. 1.8e9-where's-my-share m. Jan 11 '17 at 5:17

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