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In The this pointer [class.this], the C++ standard states:

The type of this in a member function of a class X is X*.

i.e. this is not const. But why is it then that

struct M {
    M() { this = new M; }


error: invalid lvalue in assignment  <-- gcc
'=' : left operand must be l-value   <-- VC++
'=' : left operand must be l-value   <-- clang++
'=' : left operand must be l-value   <-- ICC
(source: some online compiler frontends)

In other words, this is not const, but it really is!

share|improve this question
keyword this is not a variable, therefore we can not state that it is constant or not. – AngelinaJolly Jun 17 '13 at 12:15
even if this would work then you only have constructed an endless loop. – vlad_tepesch Jun 17 '13 at 12:39
@vlad_tepesch: Either that or infinite recursion (like you can do in python). This wasn't the question, though. – Sebastian Mach Jun 17 '13 at 12:52
up vote 45 down vote accepted

Because in the same paragraph, it is also mentioned that this is a prvalue ("pure rvalue").

Examples mentioned in the standard for pure rvalue are the result of calling a function which does not return a reference, or literals like 1, true or 3.5f. The this-pointer is not a variable, it's more like a literal that expands to the address of the object for which the function is called ([class.this]). And like e.g. literal true has type bool and not bool const, this is of type X* and not X*const.

share|improve this answer
@busy_wait In C++, values have a type and a value category. The type of this is X*, its value category is prvalue. How is this non-inituitive? this has to be a prvalue (&this makes no sense) - why make its type X * const when it's unmodifiable already? – Angew Jun 17 '13 at 12:12
@Angew: One would have to add that there are languages where this (or its equivalent) isn't unmodifiable. E.g. python: class X: def __init__(self): self = X() s = X() <-- This will give a maximum recusion depth exceeded and not a compile error. – Sebastian Mach Jun 17 '13 at 12:15
So clear and concise +1. I understand c++ more now :) (mainly the explanation of pure rvalues). – Mr Universe Jun 17 '13 at 12:21
@busy_wait: No. It's formally unspecified, but e.g. MSVC++ uses the ECX register. You can´t take the address of a register. – MSalters Jun 17 '13 at 13:39
@busy_wait: As phresnel said, there are languages that allow you to modify the this pointer. Objective-C, for example. And it also make very good use of that, because this freedom (along with some others) make it possible for an abstract base class to silently provide instances of its subclasses, exchanging the object as it is initialized. Perfect for implementation hiding. Or for a constructor to return an already existing object, ensuring equivalence of identity and equality, etc. I had a case myself where I'd been glad to be able to do such tricks in C++, but alas, it's not going to be... – cmaster Jun 17 '13 at 19:40

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