18

I try to find address of this pointer, but this code is showing a strange error:

#include <iostream>
using namespace std;
class Base
{
    public:
        void test()
        {
            void *address_of_this =&this;
            cout<<address_of_this<<endl;
        }
};

int main()
{   Base k;
    k.test();

    return 0;
}   //error non-lvalue in unary'&'

Can you explain this error ?
Also point that what is illegal in taking address of this?

1
  • Try adding a space after the = sign
    – Alexander
    Feb 2, 2012 at 15:28

4 Answers 4

Reset to default
43

this is a pointer containing the address to the "current object". It is not a variable that is stored somewhere (or could even be changed), it is a special keyword with these properties.

As such, taking its address makes no sense. If you want to know the address of the "current object" you can simply output:

std::cout << this;

or store as

void* a = this;
3
  • 2
    Finally.. the voice of reason.
    – Mankarse
    Feb 2, 2012 at 15:33
  • 8
    In standardese: this is an rvalue (and not of class type), so it doesn't have an address.
    – James Kanze
    Feb 2, 2012 at 15:48
  • 1
    In Standardese again, this is prvalue - pure-rvalue.
    – Xupicor
    Oct 27, 2015 at 10:24
8

Quoting the 2003 C++ standard:

5.1 [expr.prim] The keyword this names a pointer to the object for which a nonstatic member function (9.3.2) is invoked. ... The type of the expression is a pointer to the function’s class (9.3.2), ... The expression is an rvalue.

5.3.1 [expr.unary.op] The result of the unary & operator is a pointer to its operand. The operand shall be an lvalue or a qualified_id.

To put it simply, & requires an lvalue. this is an rvalue, not an lvalue, just as the error message indicates.

0

this refers to the current object by using it's address.

In your problem, there are two errors:

  • this is not an lvalue.

    The & requires an lvalue. lvalues are those that can appear on on the left-hand side of an assignment (variables, arrays, etc.).

    Whereas this is a rvalue. rvalues can not appear on the left-hand side (addition, subtraction, etc.).

    Reference: C++ Rvalue References Explained.

  • A hidden error which I'd like to also mention is thus:

    address_of_this is actually receiving an address of an address.

    Basically, &this is translated into something like &&object or &(&object).

Basically, think of this as &object (but only to remember because it is not that true).

1
  • It isn't very clear, what you wanna imply in your 2nd error.
    – Shubham
    Jan 8, 2021 at 17:53
0

this is a prvalue.

In other words, it's computed on the fly when needed, and not stored in the memory otherwise. Thus it doesn't have a persistent address/location for you to take.

2
  • That something does not have a persistent address/location for one to take need not be reason enough not to take its address. A vector could get reallocated and .data() does offer its current address .
    – Tryer
    Sep 10 at 10:45
  • 1
    @Tryer Ultimately, inability to take addresses of rvalues is an arbitrary language limitation, desiged to prevent you from shooting yourself in the foot. Nothing would stop us from defining & to materialize prvalues into xvalues, which actually exist in memory, and then allowing & to work on xvalues. It would just be hard to use safely, because the resulting pointer would become dangling at the end of the full-expression that produced it. Here's an interesting example: gcc.godbolt.org/z/Mvqvc7836
    – HolyBlackCat
    Sep 10 at 12:13

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