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I'm working on some C++ type system stuff, and I'm having a problem removing const-ness from a member function for use with function trait classes. What is really toubling here is that this works fine with G++, but MSVC10 fails to handle the partial specialization correctly, and I don't know if one of these compilers actually has a bug here.

The question here is, what is the correct way to remove the const qualifier from the member function in such a way that I can get a function type signature?

Take the following code sample:

  #include <iostream>

  template<typename T> struct RemovePointer { typedef T Type; };
  template<typename T> struct RemovePointer<T*> { typedef T Type; };
  template<typename R,typename T> struct RemovePointer<R (T::*)> { typedef R Type; };

  class A {
     static int StaticMember() { return 0; }
     int Member() { return 0; }
     int ConstMember() const { return 0; }

  template<typename T> void PrintType(T arg) {
     std::cout << typeid(typename RemovePointer<T>::Type).name() << std::endl;

  int main()
     PrintType(&A::ConstMember); // WTF?

All three of these PrintType statements should print the same thing. MSVC10 prints the following:

int __cdecl(void)
int __cdecl(void)
int (__cdecl A::*)(void)const __ptr64

g++ prints this (which is the expected result):

share|improve this question
"What is the correct way to remove the const qualifier from the member function in such a way that I can get a function type signature?" The const-qualification of a member function is part of its signature. – James McNellis Mar 25 '11 at 15:30
I don't know what you want this for, but the signature of a static and an non-static member functions are different. I find the output of the first two lines being equal worse than the fact that the third is different. What is it that you really want to solve? – David Rodríguez - dribeas Mar 25 '11 at 15:56
The name() from the typeid is entirely implementation specific. How can you say which one is right or wrong? – Bo Persson Mar 25 '11 at 16:14
@BoPersson You are missing the point. – Krum Mar 25 '11 at 16:30
The type that GCC prints is wrong (basing on demangling done by c++filt). The third should be a int() const but it says it's a int(). – Johannes Schaub - litb Mar 25 '11 at 16:34
up vote 3 down vote accepted

I suggest you take a look at the TypeTraits.h of the loki library by Alexandrescu. It provides a generic way to strip qualifiers, like const.

When I have some philosophical issues with meta programming c++ meta programming I tend to look in Modern c++ design if there is an answer for my whereabouts.

share|improve this answer
This solved my problem. Not in the way that I would have preferred, but it demonstrates that I can't do what I need with a few lines of code. Thanks! – Krum Mar 25 '11 at 16:32

This one would help:

template<typename R,typename T> struct RemovePointer<R (T::*)() const> { typedef R Type; };

Note that you probably want add () in previous line, too (otherwise it would match both pointers-to-members and pointers-to-functions):

template<typename R,typename T> struct RemovePointer<R (T::*)()> { typedef R Type; };
share|improve this answer
That actually doesn't work. This causes R to match the return type, not the function type. – Krum Mar 25 '11 at 16:08
I see... then I doubt it should be compilable: why R in R (T::*) should be "function type"? – Alexander Poluektov Mar 25 '11 at 16:22
I’m not sure what’s up with this syntax (I’ve never used pointers to member function) but this works. Funny – I was convinced that R (T const::*) should work (since it’s the type T that’s supposed to be const) but that doesn’t work … – Konrad Rudolph Mar 25 '11 at 16:34
@Konrad If you have a void f() const { } in a class, then this defines a member with type void() const. Therefor, if you take a member pointer of class C, you get a void (C::*)() const, or expressed in another way, a R C::* where R is a void() const. This is not the same as saying that R is a U const where U is void(): There are no const function types. The const at the end of a function type doesn't make a function "non-modifiable" or such. – Johannes Schaub - litb Mar 25 '11 at 16:37
It's also not the same as waying that R is void() and C is const U. What you have is a member pointer of class C. Not of class type const U. The member has a specific type, not the class. – Johannes Schaub - litb Mar 25 '11 at 16:38

typeid(...).name() returns an implementation-defined string. It could be a compiler-mangled symbol, or a poem written by Jon Skeet. Please don't rely on it to do anything useful.

It also seems odd to want to take "const" off it; the function is const, so why don't you want that in the resulting string?

I have no idea why you're expecting, or seeing, "FIvE". I can't see anything like it in your code.

share|improve this answer
FivE is a mangled type. Using the GNU demangler, c++filt FivE gives int ()(). – aschepler Mar 25 '11 at 17:11
@aschepler: Alrighty. My response stands then. :) – PreferenceBean Mar 25 '11 at 22:22

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