I am attempting to build a debug log message function that records the file, line, and function of of where the log message was called from.

#define DEBUG_PANIC(p) CLogging::Debuglogf( "Debug marker (%s) - ::%s() in file: %s(%d)", p, __func__ , __FILE__, __LINE__ );

The above code works on some compilers but not all. My code needs to be cross compatible with GCC as well as Microsoft Visual studios. I have added the below defines to help with compatibility.

#ifndef __FUNCTION_NAME__
    #if defined __func__ 
        // Undeclared 
        #define __FUNCTION_NAME__   __func__ 
    #elif defined __FUNCTION__ 
        // Undeclared
        #define __FUNCTION_NAME__   __FUNCTION__  
    #elif defined __PRETTY_FUNCTION__
        // Undeclared
        #define __FUNCTION_NAME__   __PRETTY_FUNCTION__
        // Declared
        #define __FUNCTION_NAME__   "N/A"   
    #endif // __func__ 

#endif // __FUNCTION_NAME__

#define DEBUG_PANIC(p) CLogging::Debuglogf( "Debug marker (%s) - ::%s() in file: %s(%d)", p, __FUNCTION_NAME__, __FILE__, __LINE__ );

The problem with the above code snippet is that it is the #else macro is active on all compilers while the other macros are not. in other words #if defined __func__ is false on compilers where __func__ is a predefined macro.

My question is

  • How do I create a cross compiler macro to find the function name ?
  • How can I tell if a __func__ can be used?

You're assuming __func__ is a macro, but it's not. It's a conditionally-supported predefined identifier, so you can't check it with #if defined or #ifdef.

If the compilers have no way of telling you whether this is supported (they could via a _FUNC_SUPPORTED or something, I'm not saying they actually are doing this), you'll have to check the compiler instead of the actual identifier.

Something along the lines:

#ifndef __FUNCTION_NAME__
    #ifdef WIN32   //WINDOWS
        #define __FUNCTION_NAME__   __FUNCTION__  
    #else          //*NIX
        #define __FUNCTION_NAME__   __func__ 
  • 15
    Any C compiler conforming to C99 or later must support __func__; in that sense, it's not an optional feature. So one way to tell that __func__ is supported is by checking __STDC_VERSION__ >= 199901L. (Though a pre-C99 or non-conforming compiler could support it as an extension.) – Keith Thompson Mar 8 '13 at 23:59
  • 4
    @KeithThompson I was assuming C++. But the main point was that it's not a macro. – Luchian Grigore Mar 9 '13 at 0:00
  • 5
    Ah, good point; the OP didn't add a tag for the language. The C++ standard didn't mandate __func__ until 2011. It's probably a common extension for pre-C++11 compilers. – Keith Thompson Mar 9 '13 at 0:04

As often Boost is THE cross platform solution with BOOST_CURRENT_FUNCTION defined in <boost/current_function.hpp>.


I would like to add that the __FUNCTION__ macro is defined for both GCC and MSVC. Though non-standard, it is available on both compilers.

GCC Standard Predefined Macros quote:

C99 introduces __func__, and GCC has provided __FUNCTION__ for a long time. Both of these are strings containing the name of the current function (there are slight semantic differences; see the GCC manual). Neither of them is a macro; the preprocessor does not know the name of the current function. They tend to be useful in conjunction with __FILE__ and __LINE__, though.

MSVC Predefined Macros quote:


Valid only in a function. Defines the undecorated name of the enclosing function as a string literal.

__FUNCTION__ is not expanded if you use the /EP or /P compiler option.

See __FUNCDNAME__ for an example.

So using __FUNCTION__ would be ok, since both compilers implement it. Though you may not get the same results on both compilers but that might be acceptable in some situations.

  • I would like to add that the __FUNCTION__ macro is defined for both GCC and MSVC. the documentation quote explicitly states that this is not a macro. – Antonin Décimo Apr 12 '20 at 9:38

they are neither preprocessor macros, like __FILE__ and __LINE__, nor variables.

Taken from the following link:


Also, please check out this other question that was answered that is similar to yours:

How to check if __PRETTY_FUNCTION__ can be used?


#ifdef _MSC_VER // Visual Studio

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