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Is there a way to change what THIS point to?

class foo{...}

foo* fooinstance = new foo();
foo* otherfooinstance = new foo();

    this = otherfooinstance;


for those of you who are wondering in what case I would change the this pointer here is case. I had to do a tree recursion where I had to remove intermediate nodes.. for this example lets assume the intermediate nodes of removal have the title d. and these intermediate nodes only have one child. So in lisp notation if we have a tree like

(g (d (i 4)) (i 5))

the function removeIntermediates(tree) would in effect cause the above to become

(g (i 4) (i 5))

and the pseudo code for this IF the this pointer was reassignable would look like the following..

    this = child(0); removeIntermediates();

    for each child { child->removeIntermediates();

I wanted to do this without knowing what the child node was therefore making code factorable into different functions for each node type and having a general function for other types. Sadly, I just ended up doing something like this..

    for each child { if(child->name == "d") {
    else { child->removeIntermediates();}
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Please use <pre> and <code> to highlight the code. –  Dadam Mar 23 '11 at 7:49
Please don't follows Dadam's advice. –  larsmans Mar 23 '11 at 7:50
@Dadam: Prefix code with 4 spaces to get the appropriate highlighting. –  Loki Astari Mar 23 '11 at 7:52
Select the code and press CTRL+K to format code. –  Naveen Mar 23 '11 at 7:56
@Martin: Thanks for that. So far I've been using pre and code and never noticed missing highliting. –  Dadam Mar 23 '11 at 7:58

6 Answers 6

up vote 2 down vote accepted

C++ standard forbids assignment to this in "9.3.2 The this pointer" by stating that "keyword this is a non-lvalue expression". Although, some compilers still allow assignment to this by using a certain compile-time switch, because at some point in early drafts C++ standard actually allowed assignment to "this".

Anyway, it is quite hard to imagine a case where you would actually want to do that and it is very likely that there is a clean and beautiful way to do it.

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No, this is not modifiable.

Conceptually that doesn't make sense, what are you trying to accomplish?

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Actually it makes enough sense that once, in early C++, it was supported. That was before exceptions. Assigning 0 to this was then a way to signal that construction failed (but only practical in a dynamic allocation context). –  Cheers and hth. - Alf Mar 23 '11 at 11:22

No, you should never, ever, set this.

If you need to point to different objects then define your own variable.

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No. This is an rvalue, not an lvalue. The easiest way to think of it is that it invokes compiler magic to access the object on which the function was called. You can't modify it any more than you could modify the constant 3.

Historically, in very early versions of C++, you could modify it, but only in the constructor, and only as the first thing in the constructor: the functionality offered by this has been subsumed by user defined operator new. This was 20-15 years ago, however.

What are you trying to do? If you just want to access two different objects from the same member function, that's no problem: otherfooinstance-> should work, and will give you access to the private members as well.

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For those who are wondering what I was trying to do.. I was trying to traverse a tree and remove intermediate nodes. For example in lisp notation.. (t (d (i 4)) I wanted to replace all d nodes with its child without needing to know what it's child is. For example, for changing the this pointer allowed the pseudo code would look like this.. { if( node == d ) this = child(0); else { for child in subtrees{ } } } –  Doboy Mar 27 '11 at 9:41

The member method void foo::bar() { this = otherfooinstance; } will be compile like this:

void foo__bar(foo * const this) { this = otherfooinstance; }

this is a const pointer to calling foo instance, so you can't change it. And change this is not a good idea.

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The "this" pointer doesn't really exist. That is, it's not stored somewhere with the object. Rather, when a method is called on an object the compiler passes the address of the object as an extra argument. So "this" only ever really appears on the stack while a method is executing.

So even if you did assign to "this" as in your example, your redirection to otherfooinstance would last only for the duration of the current bar() invocation.

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I understand that the this pointer is constant but, Aren't pointers that are passed in as arguments keep their changes of the function even after the duration of bar? For example, foo(BAR* bar){bar = NULL;} BARINSTANCE = BAR(); //BARINSTANCE IS NOT NULL; foo(BARINSTANCE); //NOW BARINSTANCE IS NULL; –  Doboy Mar 27 '11 at 10:05
@Doboy: That's false. The value of the pointer is copied, and operated on independently within the function. –  GManNickG Mar 27 '11 at 15:03

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