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Should the following sample compile?

struct B;
struct A

struct B : A
  B() : A(this){}

int main(){}

On LWS with clang it compiles, but with gcc I get:

no known conversion for argument 1 from 'B* const' to 'B*&&'

and if I add a const it compiles.

I would like to also point out MSVC gets it wrong too:

cannot convert parameter 2 from 'B *const ' to 'B *&&'

so it looks like we have a bug in two compilers.


MSVC bug link

GCC bug link

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For info - this compiles on the Intel C++ compiler (13.1) – teppic Mar 21 '13 at 23:04

2 Answers 2

up vote 6 down vote accepted

Yes, that should compile.

It is incorrect to implement this as cv T* const (where cv is the cv-qualifiers for the function, if any, and T is the class type). this is not const, merely a prvalue expression of a built-in type (not modifiable).

Many people think that because you can't modify this it must be const, but as Johannes Schaub - litb once commented long ago, a much better explanation is something like this:

// by the compiler
#define this (__this + 0)

// where __this is the "real" value of this

Here it's clear that you can't modify this (say, this = nullptr), but also clear no const is necessary for such an explanation. (And the value you have in your constructor is just the value of the temporary.)

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Is it actually specified that we can't modify this? Obviously we can't when it's a prvalue, but what if we bind it to an rvalue reference and modify it through that? – Joseph Mansfield Mar 21 '13 at 21:57
Interesting, so that means the selected answer to this SO question is wrong? – Jesse Good Mar 21 '13 at 22:00
@GManNickG I've figured it out. Binding an rvalue reference to this will first create a temporary copy of it and then bind to that. So the original this pointer can't actually be affected. – Joseph Mansfield Mar 21 '13 at 22:18
@sftrabbit: Yup! Same as: int&& x = 0;. – GManNickG Mar 21 '13 at 22:22
@GmanNickG Yeah, I just tried int&& x = 5; x++; and for a moment thought I'd changed math itself. Now we shall learn to count with 1, 2, 3, 4, 6, 6, 7, ... – Joseph Mansfield Mar 21 '13 at 22:27

I say clang is right - the code should compile. For some reason, GCC considers the this pointer to be const despite the following:

The type of this in a member function of a class X is X*. If the member function is declared const, the type of this is const X*, if the member function is declared volatile, the type of this is volatile X*, and if the member function is declared const volatile, the type of this is const volatile X*.

So in this case, this should be a prvalue B* and perfectly bindable to B*&&. However, note that when binding this to an rvalue reference, the value of this will be copied into a temporary object and the reference will instead be bound to that. This ensures that you never actually modify the original this value.

A reference to type "cv1 T1" is initialized by an expression of type "cv2 T2" as follows:

  • [...]

  • [...] or the reference shall be an rvalue reference.

    • If the initializer expression

      • is an xvalue, class prvalue, array prvalue or function lvalue and [...], or

      • has a class type (i.e., T2 is a class type), [...]

      then [...]

    • Otherwise, a temporary of type “cv1 T1” is created and initialized from the initializer expression using the rules for a non-reference copy-initialization (8.5). The reference is then bound to the temporary. [...]

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Maybe because you're in the constructor? – Kerrek SB Mar 21 '13 at 21:46
@KerrekSB I don't see a rule that says that, but still, why would that make the pointer const? – Joseph Mansfield Mar 21 '13 at 21:48
@ArmenTsirunyan That's not true. A prvalue of type B* const wouldn't bind to a B*&&, whereas a prvalue of type B* would. – Joseph Mansfield Mar 21 '13 at 21:54
@ArmenTsirunyan Well that's the point of rvalue references. – Joseph Mansfield Mar 21 '13 at 21:58
I forgot that there also is 3.10p4: non-class prvalues always have cv-unqualified types. This means a prvalue of B* can never be const. – Jesse Good Mar 21 '13 at 22:57

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