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#include <iostream>
using namespace std;

class Sample
{
    public:
        int *pxx;
        int x;

        void setD(int y)
        {
            x=y;
        }

        void print()
        {
            int Sample::*px = &Sample :: x; 
            cout<<"\nx : "<<x;
            cout<<"\nAddress of x : "<<&x;
            cout<<"\nValue of X indirected through px :"<<this->*px;
            //cout<<"\nValue of X indirected through px :"<<*px; ERROR
            //cout<<"\nAddress of x i.e. px : "<<px; NO ERROR BUT UNDESIRED OUTPUT(The output is most of the time '1')
            //cout<<"\nAddress of x i.e. px : "<<this->px; ERROR
        }
};

I've read that when a pointer is declared using the syntax data type <class_name> :: * <pointer> = &<class_name> :: <variable_name> it acts like a class member, then why am I not allowed to execute those statements given in the comments of the above program(except for 1). Is there any difference between px and pxx(except that of scope)?

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  • 2
    you can refer to stackoverflow.com/questions/670734/… regarding how to use pointer to class member.
    – user258367
    Aug 15, 2015 at 6:08
  • I have referred to it before. I just want to know what is the scope of this Pointer to a member and whether it classifies as a class member or not?
    – Zaid Khan
    Aug 15, 2015 at 7:17

1 Answer 1

3

Well, no it is not supposed to "act like a class member". That's just not true. I don't know where you got it.

It is supposed to act as a value of pointer-to-member type. And such pointers require ->* or .* operators to dereference

cout << "\nValue of X indirected through px :" << this->*px;
cout << "\nValue of X indirected through px :" << (*this).*px;

And, as you can see, these operators require a specific object on the left-hand side. You cannot just dereference px by itself. It has no meaning by itself.

A value of pointer-to-data-member type is a language-level implementation of the low-level concept of "offset" (offset of data measured from the beginning of the containing object). In order find the actual data through given offset, you have to have a starting point from which to measure that offset. That is what the object expression of the left-hand side of -> or .* represents.

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  • I am not able to grasp "Pointer of Pointer-to-class-member"(Did you meant Pointer to Pointer/Double Pointer?). Can you elaborate on this please(with a simple example.) And why is the statement cout<<"\nAddress of x i.e. px : "<<px; not generating an error?
    – Zaid Khan
    Aug 15, 2015 at 6:55
  • @Khan Zaid: "Pointer-to-member" is a special kind of entity, significantly different from a normal regular pointer. So, there are pointers of regular kind and there are pointers of pointer-to-member kind. On the second thought, maybe this redundant-sounding terminology should be avoided. One can say the same thing without it. (I'll try to rephrase the answer). And no, it has nothing to do with double pointers. Aug 15, 2015 at 8:46
  • And why do you expect cout << px; to generate an error? This code does not attempt to dereference the pointer, meaning that what I said above about dereferencing such pointers does not apply. This code simply uses the fact that such pointers (just like regular pointers) can be converted to bool type. I.e. it is equivalent to cout << (bool) px; Aug 15, 2015 at 8:49
  • Well don't these 'Pointers to Members' "have no meaning by itself", and then why does cout<<this->px; generates an error then? Am I missing something?
    – Zaid Khan
    Aug 15, 2015 at 9:07
  • @Khan Zaid: Well... There are valid expressions with pointers to members. And there are invalid expressions with pointers to members. px, this->*px and (*this).*px are valid expressions. this->px is an invalid one. Why does it surprise you? Why do you expect it compile? What should it do, in your opintion? Aug 15, 2015 at 9:12

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