How do I decide whether I need addressof(x) instead of &x when taking the address of an object?

Seems like the question was confusing, so a clarification is in order:

addressof obviously bypasses the overloaded address-of operator. I'm already aware of that.

What I want to know is:
How do I know if that's what I really want to do? (Especially when inside a template, etc.)

Is there some kind of "rule" that helps me figure out when I need addressof instead of &?
After all, they both return the "address of" the object, so when do I use which?


You use std::addressof when you have to. Sadly, "when you have to" includes anytime you are working in template code and want to turn a variable of unknown type T or T& into an honest-to-God pointer to that variable's memory.

Because the C++ committee foolishly allowed the overloading of the reference operator (to little legitimate purpose), it is possible for a user to instantiate your template with some type that you can't use the reference operator to get an actual pointer to. std::addressof is a way to work around users who use this dubious C++ feature in order to do what the language should have guaranteed to work to begin with.

In short, it's a library fix for a language stupidity. Use it in template code instead of & if you want to make sure users can't break your code. If your users can be trusted not to use this il-conceived feature, then you can use &.

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    What I find funny is that the one class I expected to overload address-of, reference_wrapper, doesn't seem to... – Mehrdad Feb 11 '13 at 21:04
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    @Mehrdad: That doesn't surprise me; both reference_wrapper and addressof come from Boost. AKA: the people who most know the dangers of overloading that operator. – Nicol Bolas Feb 11 '13 at 21:11
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    Looking back at this, I'm not sure if it was foolish to allow the address-of operator to be overloaded. It's useful for something like Boost.Lambda, to represent the action of taking an address. But it seems like it's just been misused. – Mehrdad Dec 15 '15 at 0:09
  • @Mehrdad, I was surprised too. I think reference_wrapper is just a very thin layer of wrapper, one can devise a type that emulates a reference much better than reference_wrapper, including for example overloading operator&. See here stackoverflow.com/questions/34235818/… and here stackoverflow.com/a/34144470/225186 – alfC May 26 '16 at 3:39

If it's a user-defined type with overloaded unary operator&, and you want its address, use addressof.

I'd say you should always use & because, as you say, if you don't, it defeats the purpose of the overload. Unless of course you do something meaningful with the overload, in which case you'd need addressof (outside the class, inside you can just use this), but you have to be very certain of what you're doing.

Here's more - if you want to overload operator& outside the class (you can), you have to use addressof to return the address, otherwise it results in infinite recursion:

struct Class
   virtual ~Class() {}
   int x;

void* operator&(const Class& x)
    //return &x; <---- infinite recursion
    return addressof(x) + 4; //I know this isn't safe
                             //but I also know the intrinsics of my compiler
                             //and platform to know this will actually return
                             //the address to the first data member

I know this isn't safe.

  • Wouldn't it completely defeat the purpose of the overloaded operator though? How do I tell if I should defeat it or not? – Mehrdad Feb 11 '13 at 20:32
  • @Mehrdad see edit. – Luchian Grigore Feb 11 '13 at 20:34
  • Hmm, so this is a situation in which I can't even use & in the first place, which makes the question moot! – Mehrdad Feb 11 '13 at 20:46
  • The infinite recursion problem can be solved simply by casting x to something else first: return const_cast<char*>(&reinterpret_cast<const char&>(x)). – alecov Sep 12 '18 at 20:30

My opinion only:

Unless you are part of the team designing the class and its interface, never. I've personally never seen a good reason to overload that operator. But if someone designs a class where it makes sense, and assuming the class is meant for public consumption(that is to say, the class is not for internal use only in a particular library), I will expect the class to work in normal code that naturally expects that & means "address of". If the class that overloads the operator isn't designed in such a sensible way, then I wouldn't use that class, period. Because either that class is broken, or it is not meant to be used outside the library which it is a part of.


Use it when you want to know the actual address of the object, and not the result of an address-of operator& overload.

  • Wouldn't that defeat the purpose of the operator overload? – Mehrdad Feb 11 '13 at 20:31
  • @Mehrdad Maybe - but you get to choose whether you want the overload or not. – nos Feb 11 '13 at 20:32
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    @Mehrdad You use it when you need to know the actual address of the object, not the address it's operator& returns to you. – juanchopanza Feb 11 '13 at 20:32
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    @Mehrdad: "Wouldn't that defeat the purpose of the operator overload?" You say that as thought there's ever a legitimate reason to overload that operator. std::addressof exists because the C++ standards committee screwed up. – Nicol Bolas Feb 11 '13 at 20:41
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    @NicolBolas That would make a better answer than this and I would certainly up-vote it. – juanchopanza Feb 11 '13 at 20:42

After all, they both return the "address of" the object, so when do I use which?

You have absolutely no guarantee that an overloaded operator& is the "address of" the object, chances are it isn't, or the class author probably wouldn't have bothered to overload it. They could have overloaded it to return a different type, or even to return void if they are ill-advisedly trying to prevent people taking its address.

If you want a pointer to an object which might have overloaded & (e.g. because its type is a template parameter so you don't know) then either use std::addressof or document that your template doesn't support types which don't return the object's real address as the right type.

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