So I have a function with a specific signature in a header file, and I want to declare another function with the exact same signature inside a class without typing the parameters again, and of course, hopefully without a macro... The member function should also have an extra hidden parameter obviously, the this pointer (since it's not a static member function).

Now, I'm actually surprised that the following hack/trick works in both GCC and ICC, but I'm not sure if it's "legal" C++. I'm not particularly concerned with legality if it's a supported extension, but unfortunately I do not want it to break on a compiler version update because some people decided to arbitrarily block this useful feature since the standard says "no" (that kind of stuff really annoys me to be honest).

Here's what I mean:

// test.hpp
int func(int x) { return x; }

struct foo
  decltype(func) fn;  // <-- legal?

int test()
  return foo().fn(6);

// then in test.cpp
int foo::fn(int x) { return x + 42; }

This works (with GCC and ICC), but I don't know if it's "legal" in the standard. I'm asking just to be assured that it is legal and it won't suddenly stop working in the future.

(if it's not legal and you want to report it as a bug, please mark it as a suggestion to make it a legal compiler extension instead of killing it...)

Basically, it's the same as declaring int fn(int x); in the struct, and that's how it works currently.

If you ask me for a use case: it's to declare a wrapper member function for the other free function which does something with the this pointer before passing it to the free function. Its parameters must match exactly, obviously. Again, I don't want to type the parameters again.

  • 3
    It's legal as long as it's not a dependent type in a class template.
    – T.C.
    Jun 3, 2017 at 19:24
  • 1
    For extra abuse you can "initialize" it with "= 0;" and make it virtual Jun 3, 2017 at 19:58
  • @JohannesSchaub-litb Interesting, and off topic, but curious: what does initializing it with 0 do? I only know you can "initialize" it with = delete.
    – kktsuri
    Jun 3, 2017 at 20:24
  • @kktsuri I'm assuming he's talking about making a pure virtual function
    – Justin
    Jun 3, 2017 at 20:33
  • @Justin Ah yes I see thanks.
    – kktsuri
    Jun 3, 2017 at 20:36

1 Answer 1


That looks legal; but at definition you have to retype. Consider using perfect forwarding instead.

  • You're right but, how can I use perfect forwarding when it's defined in another translation unit (cpp file)? I mean I can make it "extern template" (or just leave it undefined) in the header file (declaration), but won't instantiating be an issue? Can you provide an example without requiring to type it (well, re-typing the free function func is fine, obviously). Maybe I'm just overlooking something simple.
    – kktsuri
    Jun 3, 2017 at 20:19
  • Anyway, I will accept your answer since it answers the question, but it would be nice to know about perfect forwarding with a different translation unit (the actual functions have more complicated operations and I want to keep them in one place, as I compile with LTO they will be inlined anyway even across translation units). Thanks
    – kktsuri
    Jun 3, 2017 at 20:35
  • What strikes me as odd is that the type of fn and func are not the same static_assert(std::is_same<decltype(&foo::fn), decltype(&func)>{}, ""); I see how it would work legally as OP has it, but could also imagine the decltype not being allowed here since fn isn't of type int(int) Jun 4, 2017 at 20:46
  • @RyanHaining using sig=int(int); struct foo{ sig f; }; makes foo:f have signature int(int). It isn't a type, but rather a signature, you are applying here. Jun 4, 2017 at 21:42

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