What's the difference between __PRETTY_FUNCTION__, __FUNCTION__, __func__, and where are they documented? How do I decide which one to use?


__func__ is an implicitly declared identifier that expands to a character array variable containing the function name when it is used inside of a function. It was added to C in C99. From C99 §

The identifier __func__ is implicitly declared by the translator as if, immediately following the opening brace of each function definition, the declaration

static const char __func__[] = "function-name";

appeared, where function-name is the name of the lexically-enclosing function. This name is the unadorned name of the function.

Note that it is not a macro and it has no special meaning during preprocessing.

__func__ was added to C++ in C++11, where it is specified as containing "an implementation-defined string" (C++11 §8.4.1[dcl.fct.def.general]/8), which is not quite as useful as the specification in C. (The original proposal to add __func__ to C++ was N1642).

__FUNCTION__ is a pre-standard extension that some C compilers support (including gcc and Visual C++); in general, you should use __func__ where it is supported and only use __FUNCTION__ if you are using a compiler that does not support it (for example, Visual C++, which does not support C99 and does not yet support all of C++0x, does not provide __func__).

__PRETTY_FUNCTION__ is a gcc extension that is mostly the same as __FUNCTION__, except that for C++ functions it contains the "pretty" name of the function including the signature of the function. Visual C++ has a similar (but not quite identical) extension, __FUNCSIG__.

For the nonstandard macros, you will want to consult your compiler's documentation. The Visual C++ extensions are included in the MSDN documentation of the C++ compiler's "Predefined Macros". The gcc documentation extensions are described in the gcc documentation page "Function Names as Strings."

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  • Can you link to the C99 specification (there's a floating link in your source), for what looks like the winning answer? – Matt Joiner Dec 8 '10 at 7:02
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    @legends2k: No, it is "an implementation-defined string" in C++11. That's the actual language from the specification. See §8.4.1[dcl.fct.def.general]/8. – James McNellis Jun 19 '13 at 16:22
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    Note that while both gcc and VC provide __FUNCTION__, they do slightly different things. gcc gives the equivalent of __func__. VC gives the undecorated, but still adorned, version of the name. For a method named "foo", gcc will give you "foo", VC will give "my_namespace::my_class::foo". – Adrian McCarthy Jul 1 '15 at 15:56
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    What is curious is that I am using MSVC 2017 CE and when I type __PRETTY_FUNCTION__ it does show up in the list as being available and when I move my mouse over it, it does display information about the function name, however it does fail to compile. – Francis Cugler Jul 8 '17 at 8:48
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    @FrancisCugler I was surprised by this as well! See my question on it stackoverflow.com/questions/48857887/… – Adam Badura Feb 28 '18 at 0:24

Despite not fully answering the original question, this is probably what most people googling this wanted to see.

For GCC:

$ cat test.cpp 
#include <iostream>

int main(int argc, char **argv)
    std::cout << __func__ << std::endl
              << __FUNCTION__ << std::endl
              << __PRETTY_FUNCTION__ << std::endl;
$ g++ test.cpp 
$ ./a.out 
int main(int, char**)
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  • 15
    Same output from clang 3.5 – Doncho Gunchev Dec 13 '14 at 18:50
  • Ok, but does __func__ work when it's embedded in another function? Lets say I have function1, it takes no arguments. function1 calls function2 that includes __func__, which function name will be printed, 1 or 2? – MarcusJ Oct 6 '17 at 13:11
  • @MarcusJ why not try it yourself... the __func__ is a macro, it will translate to whatever function you are currently in. If you put it into f1 and call f1 in f2, you will always get f1. – Petr Oct 6 '17 at 14:14
  • I was going to, then thought I'd ask. I feel like it won't work and it's kind of a pain in the ass so I'll just keep it the way it is. – MarcusJ Oct 6 '17 at 14:19

__PRETTY_FUNCTION__ handles C++ features: classes, namespaces, templates and overload


#include <iostream>

namespace N {
    class C {
            template <class T>
            static void f(int i) {
                std::cout << "__func__            " << __func__ << std::endl
                          << "__FUNCTION__        " << __FUNCTION__ << std::endl
                          << "__PRETTY_FUNCTION__ " << __PRETTY_FUNCTION__ << std::endl;
            template <class T>
            static void f(double f) {
                std::cout << "__PRETTY_FUNCTION__ " << __PRETTY_FUNCTION__ << std::endl;

int main() {

Compile and run:

g++ -ggdb3 -O0 -std=c++11 -Wall -Wextra -pedantic -o main.out main.cpp


__func__            f
__FUNCTION__        f
__PRETTY_FUNCTION__ static void N::C::f(int) [with T = char]
__PRETTY_FUNCTION__ static void N::C::f(double) [with T = void]

You may also be interested in stack traces with function names: print call stack in C or C++

Tested in Ubuntu 19.04, GCC 8.3.0.

C++20 std::source_location::function_name

http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1208r5.pdf went into C++20, so we have yet another way to do it.

The documentation says:

constexpr const char* function_name() const noexcept;

6 Returns: If this object represents a position in the body of a function, returns an implementation-defined NTBS that should correspond to the function name. Otherwise, returns an empty string.

where NTBS means "Null Terminated Byte String".

I'll give it a try when support arrives to GCC, GCC 9.1.0 with g++-9 -std=c++2a still doesn't support it.

https://en.cppreference.com/w/cpp/utility/source_location claims usage will be like:

#include <iostream>
#include <string_view>
#include <source_location>
void log(std::string_view message,
         const std::source_location& location std::source_location::current()
) {
    std::cout << "info:"
              << location.file_name() << ":"
              << location.line() << ":"
              << location.function_name() << " "
              << message << '\n';
int main() {
    log("Hello world!");

Possible output:

info:main.cpp:16:main Hello world!

so note how this returns the caller information, and is therefore perfect for usage in logging, see also: Is there a way to get function name inside a C++ function?

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__func__ is documented in the C++0x standard at section 8.4.1. In this case it's a predefined function local variable of the form:

static const char __func__[] = "function-name ";

where "function name" is implementation specfic. This means that whenever you declare a function, the compiler will add this variable implicitly to your function. The same is true of __FUNCTION__ and __PRETTY_FUNCTION__. Despite their uppercasing, they aren't macros. Although __func__ is an addition to C++0x

g++ -std=c++98 ....

will still compile code using __func__.

__PRETTY_FUNCTION__ and __FUNCTION__ are documented here http://gcc.gnu.org/onlinedocs/gcc-4.5.1/gcc/Function-Names.html#Function-Names. __FUNCTION__ is just another name for __func__. __PRETTY_FUNCTION__ is the same as __func__ in C but in C++ it contains the type signature as well.

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  • __func__ is not part of C++03. It has been added in C++0x, but C++0x is not yet "the C++ standard," it is still in draft form. – James McNellis Dec 8 '10 at 6:53
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    @JamesMcNellis It is now, so clear the comments, to remove the noise – daramarak Sep 10 '13 at 11:08

For those, who wonder how it goes in VS.

MSVC 2015 Update 1, cl.exe version 19.00.24215.1:

#include <iostream>

template<typename X, typename Y>
struct A
  template<typename Z>
  static void f()
    std::cout << "from A::f():" << std::endl
      << __FUNCTION__ << std::endl
      << __func__ << std::endl
      << __FUNCSIG__ << std::endl;

void main()
  std::cout << "from main():" << std::endl
    << __FUNCTION__ << std::endl
    << __func__ << std::endl
    << __FUNCSIG__ << std::endl << std::endl;

  A<int, float>::f<bool>();


from main():
int __cdecl main(void)

from A::f():
void __cdecl A<int,float>::f<bool>(void)

Using of __PRETTY_FUNCTION__ triggers undeclared identifier error, as expected.

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