I have the following piece of code:

#include <cmath>

float foo(float x, unsigned int m, float q = 0.0f)
    return std::floorf(x * float(m) + q);

Now when I try to compile this with g++ 5.4.0 and options -std=c++11 I get an error saying ‘floorf’ is not a member of ‘std’.

Now it is my understanding that clause 26.8 of the C++11 standard mandates that the standard C++ library header <cmath> declare the same set of functions as the standard C library header <math.h>, albeit in the namespace std; and that clause 1.2 specifies that "C" is to be interpreted as C99; and that clause of the C99 standard mandates that the standard C library header <math.h> declare a function float floorf(float).

So by that reasoning <cmath> should declare a function float std::floorf(float), which to the best of my knowledge should be a match for my code.

What gives? Am I missing something here?

(I know C++11 also defines a float std::floor(float); however, I've recently made the discovery that the f-suffixed variants of float functions are generally slightly faster, so I'd prefer to specifically invoke floorf().)

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    That is odd, it seems to work fine when compiling using clang++ but indeed with g++ it does not seem to work even on the latest version. – Lemon Drop Feb 11 at 2:13
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    My libm-2.24.so does present a floorf() call. It's there, so maybe its an omission in the header? Filing a bug report might be a good idea. Meanwhile, for information, can you hack around the problem merely by writing your own, one-line declaration for floorf()? – thb Feb 11 at 2:23
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    For reference, I've just filed this on Bugzilla – Christoph Lipka Feb 11 at 2:55
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    The C++11 and C++14 standards didn't list floorf in the Table "Header <cmath> synopsis", it was fixed in C++17. A pedantic reading of the standard could conclude that <cmath> only has to offer ::floorf and not std::floorf – M.M Feb 11 at 2:58
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    Relevant link en.cppreference.com/w/cpp/numeric/math/floor. Also, "I've recently made the discovery that the f-suffixed variants of float functions are generally slightly faster", that sounds very strange to me. – alfC Feb 11 at 3:50

I believe that you have indeed found a bug in the header. On my GCC, using the GNU C library (glibc), I can work around by dropping out of std:: into the global namespace, changing

    return std::floorf(x * float(m) + q);


    return ::floorf(x * float(m) + q);

The workaround works because floorf() belongs to the C standard library, so it has a global symbol in glibc. Since the workaround uses the global symbol, which C++11 allows but does not require to exist, the workaround is nonportable. Nevertheless, for glibc, it appears to work.

The workaround could be made portable, if you wish, by changing #include <cmath> to #include <math.h> and (as far as I know) dropping all your C-math-library calls into the global namespace. It would still be just a workaround, though.

You may go ahead and report this as a bug at: https://gcc.gnu.org/bugzilla/. Moreover, to be taken more seriously by the GCC team, you can link the bug report back here to show that several competent pairs of eyes have already looked at the problem. Meanwhile, nice work.

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    "It's not right, but it works." -- well, it is right in the sense that C++11 does allow such a global symbol to exist. It does not mandate it though, so any program making use of this global symbol is non-portable. – Christoph Lipka Feb 11 at 2:44
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    @ChristophLipka it's portable if you include <math.h> instead. – Jonathan Wakely Feb 11 at 10:19
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    @thb "in GCC's libc6" -- there's no such thing. I assume you mean the GNU C library, but that's more correctly called "glibc" not "libc6" and is not part of GCC. GCC does not provide a C library, it uses the system's existing C library. – Jonathan Wakely Feb 11 at 10:36
  • @JonathanWakely Answer edited per your advice. – thb Feb 11 at 10:54
  • @JonathanWakely <math.h> is technically a C header, included in C++ only for compatibility with the C library. I'll want to avoid relying on that, because it makes things kludgy. Fortunately a portable genuine C++ approach exists, in using the floor(float) overload. – Christoph Lipka Feb 11 at 18:29

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