Suppose I have a class like this:

class Foo
  std::vector<int> bar;

  std::vector<int>& get_bar() { return bar; }

and later on, I want another variable somewhere else that has the same type as bar. It would make sense to me if I could just do this:

decltype(Foo::bar) clone_of_bar;

But that doesn't work. The compiler tells me 'std::vector< int > Foo::bar' is private.

So I end up having to use something like this:

std::remove_reference<decltype(std::declval<Foo>().get_bar())>::type clone_of_bar;

Which works, but looks like a complete mess. Maybe there's an easier way to do it; I'm not really sure. But what I really want to know is why I can't just use decltype(Foo::bar). Why should anyone care that bar is private? It's not like I'm actually accessing the variable.

decltype is a new feature of the language. I just don't understand why it was designed to not work on private variables.

  • I would really appreciate it if you could give us some actual example in which you would benefit from using decltype on private members. – mfontanini Jun 7 '12 at 0:48
  • Well, I have any really solid reasons for wanting to do this. It was mostly just curiosity. But the case where I tried to use it was this: I was using google protobuf, for which I define some event types and then protobuf generates some code for those types. The generated code looks a bit like what I wrote in my question example. The thing is, I want to be able to copy some of the data out of the protobuf message to do some stuff with and I don't want to have to change the code if I happen to change the type in the protobuf message. So that's what I wanted to do. Not really a big deal though. – karadoc Jun 7 '12 at 3:30
  • Couldn't you just use "auto x = somefoo.get_bar();" ? You'd be copying, without explicitly providing the type of "x". – mfontanini Jun 7 '12 at 11:22
  • I can't use auto, because the copy is a permanent member of a some class. Basically I've got a class which stores a 'state', and these protobuf message contain new bits and pieces of the the state. So when a protobuf message comes in, I want to get rid of parts of the old state and replace it with the new. -- So anyway, I can't use auto, because I have to declare the type before get_bar can be called. – karadoc Jun 7 '12 at 13:19
  • Ok, fair enough :D – mfontanini Jun 7 '12 at 13:29

In language lawyer terms, bar is a name, to use it in the decltype expression the compiler has to do normal name lookup, which respects access control.
Why should decltype have been designed differently to the rest of the language? You haven't presented any convincing argument for why it shouldn't be consistent with e.g. sizeof.

As a class author, I don't want you to be able to query private implementation details like that. If I wanted the type to be usable outside the class I'd define a public typedef telling you what type it is.

and later on, I want another variable somewhere else that has the same type as bar

You want "another variable" that's the same type as a private implementation detail? So if the author of class Foo refactors their code and replaces the type with some other implementation detail, suddenly your code changes meaning and unrelated code might suddenly stop compiling or silently have different behaviour, because that code foolishly relied on private details that were none of its business. That would introduce coupling between private implementation details and unrelated code that the author of Foo might not even know exists! That's a terrible idea.

  • That seems like a good idea. DO you have any references that assert this is the case please? – Preet Sangha Jun 7 '12 at 0:45
  • 3
    Assert what? That bar is a name and must be found by name lookup? How else will the compiler know what Foo::bar refers to in decltype(Foo::bar) if it doesn't do name lookup? – Jonathan Wakely Jun 7 '12 at 0:46
  • 2
    +1, also suggesting using auto clone= foo.get_bar() or decltype(foo.get_bar()) clone might help the user? – Klaim Jun 7 '12 at 1:26
  • @JonathanWakely No I mean some docs that say that decltype doesn't work on privates for thie reason? I've not done C++ > 10 year and just heard about decltype. – Preet Sangha Jun 7 '12 at 1:33
  • Thanks for the explanation. But I preferred it before you edited to say it was a terrible idea, and so on. I was never trying to argue that the language should be different. I was just asking why it was the way it is. Usually, I just think of private as meaning that external functions can't access the data in that way - but that they can still know the data exists, because it's right there in the header file. But I see how it makes sense to think of private as having a stricter meaning. – karadoc Jun 7 '12 at 3:33

decltype(Foo::bar) does work inside Foo.

Outside Foo, you're not even supposed to know that Foo has a member named bar (that's what private means), so of course it shouldn't work.


That is a gcc bug fixed in release 4.8.0:


  • That bug is referring to something slightly different to what this question is about. – karadoc Nov 17 '12 at 13:29

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