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Below code is dealing with a TYPE* const pointer.

struct D {
  void Check ()
    D* const p = new D; // 2nd test is "p = 0;"
    cout<<"p = "<<p<<endl;
    (D*&)p = new D;
    cout<<"p = "<<p<<endl; // prints 0, "p = 0;" at declaration

int main ()
  D o;

My questions are,

  1. If you initialize with 0, then even though typecasting next time will not work. Is doing such typecasting is undefined behavior ?
  2. this pointer is also of TYPE* const type, then why compiler doesn't allow the same operation for this?
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up vote 1 down vote accepted
  1. As others have said, this is undefined behaviour since it attempts to modify a const object. If you initialise it with zero then the compiler might treat it as a compile-time constant, and ignore any attempt to modify it. Or it might do something entirely different.

  2. this is not an ordinary variable of type TYPE * const; it is an rvalue expression of type TYPE *. This means that it cannot be used as the target of an assignment expression, or bound to a non-constant reference, at all.

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Some compilers implement this as a TYPE *const, which is rvalue-y enough for them. – Simon Richter May 17 '11 at 9:07
@SimonRichter Which compilers? (It means they accept &this.) – curiousguy Sep 30 '11 at 1:09

Is doing such typecasting is undefined behavior ?


(D*&)p = new D;

It invokes undefined behavior, as it tries to change the const pointer.

Recall that D* const p declares a variable p which is a const pointer to non-const D.

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I really meant (D*&)p. But as you said, it takes address of p, I doubt that statement. Because it's not (D*)&p! I am taking reference to the pointer p. Also, why it's restricted for this, since that is also the same type. – iammilind Apr 14 '11 at 6:36
@iammilind: Sorry I misread that. Anyway corrected it. – Nawaz Apr 14 '11 at 6:42
D* const p = 0;

This declaration says that p is a pointer to D that is constant, that is it will never, ever change. It is always 0.

cout<<"p = "<<p<<endl;

Here you display the value of p, which you earlier said would always be 0. Guess why a 0 is displayed!

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If you don't initialize with 0 (as in real code above), both cout will output different memory locations. If you initialize with 0 then both cout will output 0 ! – iammilind Apr 14 '11 at 6:48
That's just because the compiler cannot tell what the address will be. You are not allowed to try to change it though, as you promised it should be constant. That's undefined behavior, like Nawaz says. Anything can happen! – Bo Persson Apr 14 '11 at 6:53

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