207

I was reading the answers to this question C++ pros and cons and got this doubt while reading the comments.

programmers frequently find it confusing that "this" is a pointer but not a reference. another confusion is why "hello" is not of type std::string but evaluates to a char const* (pointer) (after array to pointer conversion) – Johannes Schaub - litb Dec 22 '08 at 1:56

That only shows that it doesn't use the same conventions as other (later) languages. – le dorfier Dec 22 '08 at 3:35

I'd call the "this" thing a pretty trivial issue though. And oops, thanks for catching a few errors in my examples of undefined behavior. :) Although I don't understand what info about size has to do with anything in the first one. A pointer is simply not allowed to point outside allocated memory – jalf Dec 22 '08 at 4:18

Is this a constant poiner? – yesraaj Dec 22 '08 at 6:35

this can be constant if the method is const int getFoo() const; <- in the scope of getFoo, "this" is constant, and is therefore readonly. This prevents bugs and provides some level of guarantee to the caller that the object won't change. – Doug T. Dec 22 '08 at 16:42

you can't reassign "this". i.e you cannot do "this = &other;", because this is an rvalue. but this is of type T*, not of type T const . i.e it's a non-constant pointer. if you are in a const method, then it's a pointer to const. T const . but the pointer itself is nonconst – Johannes Schaub - litb Dec 22 '08 at 17:53

think of "this" like this: #define this (this_ + 0) where the compiler creates "this_" as a pointer to the object and makes "this" a keyword. you can't assign "this" because (this_ + 0) is an rvalue. of course that's not how it is (there is no such macro), but it can help understand it – Johannes Schaub - litb Dec 22 '08 at 17:55

My question is, why is this a pointer a not a reference? Any particular reason for making it a pointer?


Some further arguments why this being a reference would make sense:

  • Consider Item 1 from More Effective C++ : use references when it is guaranteed that we have a valid object i.e. not a NULL (my interpretation).
  • Furthermore, references are considered safer than pointers (because we can't screw the memory up with a stray pointer).
  • Thirdly, the syntax for accessing references (.) is a little bit nicer and shorter than accessing pointers (-> or (*)).
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  • 6
    @paulm What would this "hack" actually accomplish? Doesn't this always evaluate to true?
    – iFreilicht
    Jun 16, 2014 at 13:15
  • 6
    @paulm I don't think that's actually valid C++. Invoking methods on a nullptr to an object results in undefined behavior.
    – antred
    Aug 26, 2014 at 12:48
  • 5
    @paulm Maybe it works in some cases, but imagine if the method was virutal. How could a v-table lookup be done with no object?
    – Jason C
    May 8, 2015 at 18:11
  • 4
    @paulm If you've seen it in production code, abandon ship! That is UB.
    – Alice
    Sep 12, 2015 at 18:00
  • 8
    I'm just gonna leave this here... (from MFC's afxwin2.inl): _AFXWIN_INLINE HWND CWnd::GetSafeHwnd() const { return this == NULL ? NULL : m_hWnd; } Oct 19, 2015 at 21:22

3 Answers 3

198

When the language was first evolving, in early releases with real users, there were no references, only pointers. References were added when operator overloading was added, as it requires references to work consistently.

One of the uses of this is for an object to get a pointer to itself. If it was a reference, we'd have to write &this. On the other hand, when we write an assignment operator we have to return *this, which would look simpler as return this. So if you had a blank slate, you could argue it either way. But C++ evolved gradually in response to feedback from a community of users (like most successful things). The value of backward compatibility totally overwhelms the minor advantages/disadvantages stemming from this being a reference or a pointer.

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    Well, it is also often useful for an object to get a reference to itself. I'd say that's a more common usage. Anyway, the main reason is like you said, references didn't exist when they created the 'this' pointer.
    – jalf
    Mar 14, 2009 at 14:42
  • 25
    And, if this were a reference, it would be difficult to overload operator & to do anything useful. There would have to be some special syntax for getting the address of this that wouldn't go through operator &. Jan 29, 2010 at 16:30
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    @conio - you might want to check that next time you're near a C++ compiler! :) Something like: int n = 5; int &r = n; int *p = &r; std::cout << *p; Apr 6, 2010 at 15:39
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    @Omnifarious you could write &reinterpret_cast<char&>(this); to get the real address for overloading operator& (in fact, this is sort of what boost::addressof does). Jul 1, 2010 at 22:57
  • 12
    Since it doesn't really make any sense for this to be null, it seems to me that a reference is really more fitting. Feb 2, 2012 at 3:30
130

A little late to the party... Straight from the horse's mouth, here's what Bjarne Stroustrup has to say (which is essentially repeated in or taken from the "Design and Evolution of C++" book):

Why is "this" not a reference?

Because "this" was introduced into C++ (really into C with Classes) before references were added. Also, I chose "this" to follow Simula usage, rather than the (later) Smalltalk use of "self".

4
  • 2
    Yeah, self would have been nice for consistency with other languages, oh well.
    – pilkch
    Jun 18, 2017 at 9:15
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    self could be a keyword that acts like *this.
    – jxh
    Feb 17, 2021 at 1:18
  • 6
    #define self *this Jun 10, 2022 at 13:00
  • 1
    #define self (*this) May 19, 2023 at 14:41
10

In addition to the other answers, since Deducing this is in C++23, it will be possible to have a reference to the object for which a member function is called (instead of this pointer):

struct Foo {
  void bar(this Foo& self) {
    // self is a reference to Foo
  }
};

int main() {
  Foo foo;
  foo.bar();
}
2
  • 1
    Any language where you can write something like this Self&& self has some inherent problems... It seems that with all the new C++ revisions, they are adding more and more things that just fix problems with the language itself instead of adding functionality. forward_like, declval, to_address, launder, start_lifetime_as, enable_if, void_t, destroying_delete_t, reference_wrapper, move_only_function, bind_front/back, etc etc
    – tmlen
    Aug 29, 2023 at 22:15
  • What those things are adding is more fine grained control for applications when it really matters, and safer/easier ways to complete tasks that are a pain otherwise. C++ is first and foremost a systems language. Total control of everything is an absolute requirement. So naturally it will have a lot of dirty interfaces because systems are dirty places. Nov 28, 2023 at 6:56

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