I read that this is an rvalue and we cannot get its address by applying &this.

In my code, I have tried to use a reference binding to this. I'm wondering which way will give the address of this? Or are both wrong?

What exactly is this? An lvalue, an rvalue, a keyword, or something else?

void MyString::test_this() const{
    std::cout << "this: " << this << std::endl;
    const MyString * const& this_ref = this;
    std::cout << "thie_ref: " << &this_ref << std::endl;
    const MyString * const&& this_right = this;
    std::cout << "thie_right: " << &this_right << std::endl;

//this: 00CFFC14
//thie_ref: 00CFFB14
//thie_right: 00CFFAFC
  • 1
    &this_ref : you're printing the address of the pointer, not the address stored in the pointer
    – David Haim
    Jul 1, 2019 at 9:22
  • 6
    @DavidHaim to be clear, that's not just a pointer; it's a reference to a pointer. I.e. const MyString * const& this_ref. Taking it's address should result in the address of the pointer being referenced. The OP is trying (for utterly inexplicable reasons) to acquire &this.
    – WhozCraig
    Jul 1, 2019 at 9:23
  • 7
    What is the point of knowing the adress of "this" pointer ? I feel like this is an XY problem . What are you really trying to do ?
    – Clonk
    Jul 1, 2019 at 9:24
  • 2
    Just in passing, this is not unique in this regard. You also can't take the address of a variable that's marked register. Jul 1, 2019 at 13:08
  • 1
    Note that if you attempt to do exactly the same thing again in the same function block, like const MyString * const& my_ref2 = this; you'll also get a different pointer value.
    – aschepler
    Jul 2, 2019 at 0:37

4 Answers 4


I'm wondering which may give the address of this? Or both are wrong?

Neither is the address of this, because the C++ abstract machine doesn't define an address for it. this is like 0. You can't get the address of 0, it's not an entity with storage, just some value. So what does this do?

int const& i = 0;

It creates a temporary object, initializes it with 0, and then binds the reference to it. The same exact thing occurs in your code. You create references to different temporary objects that hold the value of this.

this is a keyword that stands for the address of the object that the member function is being executed for. The C++ abstract machine doesn't require it to occupy storage, so it's always (logically) just a plain value, like 0.

There's merit to not requiring this to occupy storage. It allows C++ to be implemented over an ABI where this is passed in a register (something that isn't addressable normally). If &this had to be well-defined, i.e. if this had to be addressable, it would preclude an implementation from using a register for passing the address. The C++ standard generally aims not to tie implementations up like that.

  • 4
    "if this had to be addressable, it would preclude an implementation from using a register for passing the address" Only if it were odr-used, though, right? By as-if, the compiler already skips storage for loads of things during "optimisation" Jul 1, 2019 at 10:02
  • 2
    @LightnessRacesinOrbit - Yes. But the issue as I see it, is that the ABI would have to be determined by the body of the member function (since that's what may or may not odr-use this). While on the other hand, calling code (moreover, the header) usually has no knowledge about the function body. In such a state of affairs I'd wager implementations will choose a pessimistic ABI. I could be over-simplifying and so way off the mark, though. Jul 1, 2019 at 10:07
  • So this_ref and this_right just copy the address of the object "this" points, and &this_ref and &this_right just return the two pointers' address,right?
    – Range Hao
    Jul 1, 2019 at 10:32
  • @RangeHao - Yes. Neither pointer whose address you are viewing is actually this. Jul 1, 2019 at 10:36
  • @LightnessRacesinOrbit is correct:: If &this was needed, the callee could just spill it from a register to a stack location, like if you take the address of any other arg. e.g. godbolt.org/z/PkoQ-i for x86-64 System V shows gcc and clang taking the address of a function arg with int *volatile p = &x; (gcc decides not to actually spill x itself to memory, just to store p = the address of the stack slot where it would have spilled x if it had been used.) Jul 2, 2019 at 2:14

What is meant by "you cannot take the address of this" is, that you cannot write &this.

You are asking for the address represented by the this pointer, right? This is, what your first output does.

this itself is not materialized as a pointer, like e.g. MyString* x would be. Here, x itself has a location in memory and you can do sth. like &x. This is not possible for this.

The answer to your last question is: yes, this is a keyword. The expression this is a primary expression. You can read about it in Section [expr.prim.this] of the C++ standard.

  • 1
    In most cases (for non-virtual functions) you can think of this as syntactic sugar for an extra arg holding a pointer to the object. But it's not allowed to be nullptr, so a recursive linked-list or tree traversal that checks if (this == nullptr) return; as the termination condition is broken: that check can optimize away. And as you point out, this can't have its address taken, so even without the help of the as-if rule, it can be kept in a register in a C++ implementation on a "normal" CPU. Other objects often don't actually have addresses if the C++ source never takes their address Jul 2, 2019 at 2:23

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 special properties.

If you want to know the address of the "current object" you can simply output as shown below in the program:


using namespace std;

class Test
            void fun()
                    cout << "Address of this :: " << this << endl;
                    void *ptr = this;
                    cout << "Addrss of ptr :: " << ptr << endl;

 int main()
    Test obj;

    cout << "Address of obj :: " << &obj << endl;


    return 0;

Above program produces below output:

Address of obj :: 0x7fffef913627

Address of this :: 0x7fffef913627

Addrss of ptr :: 0x7fffef913627

I hope it helps!

  • Btw, your are printing the value of ptr (the address stored within ptr), not the address of ptr, that would be &ptr. Nov 24, 2021 at 14:15

The this keyword behaves essentially as &__self where __self is a lvalue designating the object on which the member function is run (the *this object) except that an overloaded operator&() isn't used.

So &this would mean &&__self which obviously doesn't make sense, you can't take the address of an address, just like you can't take the address of a scalar return value of a function:

int fi(); 
int *fpi(); 

Both &(fi()) and &(fpi()) are illegal as the rvalue returned is a scalar (probably stored in a register) and as a pure scalar value does not have an address.

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