Clang (3.9.1) and GCC (7, snapshot) print "1", "2" to the console when this code is run.

However, MSVC fails to compile this code:

source_file.cpp(15): error C2668: 'Dictionary::set': ambiguous call to overloaded function

source_file.cpp(9): note: could be 'void Dictionary::set(int64_t)'

source_file.cpp(8): note: or 'void Dictionary::set(const char *)'

source_file.cpp(15): note: while trying to match the argument list '(const unsigned int)'

#include <iostream>

static const unsigned ProtocolMajorVersion = 1;
static const unsigned ProtocolMinorVersion = 0;

class Dictionary {
    void set(const char *Str) { std::cout << "1"; }
    void set(int64_t val) { std::cout << "2"; }

int main() {
    Dictionary dict;

I think MSVC is right - the value of ProtocolMajorVersion is 0, which can be NULL or int64_t(0).

However, this seems to be the case when replacing




source_file.cpp:15:10: error: call to member function 'set' is ambiguous dict.set(0);

source_file.cpp:8:10: note: candidate function

void set(const char *Str) { std::cout << "1"; }

source_file.cpp:9:10: note: candidate function

void set(int64_t val) { std::cout << "2"; }

So what's going on here - which compiler is right? Would surprise me if both GCC and Clang are accepting incorrect code, or is MSVC just being buggy? Please refer to the standard

  • 2
    It is ambiguous because the types don't match so it could be either. The size of 'unsigned' isn't necessarily 64-bit, so it's unlikely it matches in64_t type. Personally I'd prefer MSVCs way here - it's always good to be aware of ambiguity in C/C++ programs. Feb 27, 2017 at 8:45

2 Answers 2


In C++11 and before, any integral constant expression which evaluates to 0 is a considered a null pointer constant. This has been restricted in C++14: only integer literals with value 0 are considered. In addition, prvalues of type std::nullptr_t are null pointer constants since C++11. See [conv.ptr] and CWG 903.

Regarding overload resolution, both the integral conversion unsigned -> int64_t and the pointer conversion null pointer constant -> const char* have the same rank: Conversion. See [over.ics.scs] / Table 12.

So if ProtocolMinorVersion is considered a null pointer constant, then the calls are ambiguous. If you just compile the following program:

static const unsigned ProtocolMinorVersion = 0;

int main() {
    const char* p = ProtocolMinorVersion;

You will see that clang and gcc reject this conversion, whereas MSVC accepts it.

Since CWG 903 is considered a defect, I'd argue that clang and gcc are right.

  • As amusing as it might be, I think given struct S { int x; }, having S().x be a null pointer constant is a little too much :) This part of C++11 is nonsensical without CWG 903.
    – T.C.
    Feb 28, 2017 at 0:44

When two compilers agree and one doesn't, it's nearly always the one that doesn't that is wrong.

I would argue that if you declare a value as const unsigned somename = 0;, it is no longer a simple zero, it is a named unsigned constant with the value zero. So should not be considered equivalent to a pointer type, leaving only one plausible candidate.

Having said that, BOTH of the set functions require conversion (it's not a uint64_t, neither a const char *), so one could argue that MSVC is right [the compiler shall pick the type that requires least conversion, if multiple types require equal amount of conversion, it's ambiguous] - although I still don't think the compiler should accept a named constant of the value zero as an equivalent to a pointer...

Sorry, probably more of a "comment" than an answer - I started writing with the intention of saying "gcc/clang are right", but then thinking more about it came to the conclusion that "although I would be happier with that behaviour, it's not clear that this is the CORRECT behaviour".

  • 2
    Integral conversions (like int -> long long) and pointer conversions (like 0 -> char*) have the same rank: Conversion. In C++11, any constant integer expression which is a null pointer constant can be used to initialize a pointer; this has been restricted in C++14, see wg21.link/cwg903
    – dyp
    Feb 27, 2017 at 8:36
  • @dyp feel like turning that comment into an answer?
    – H Bellamy
    Feb 27, 2017 at 8:51
  • 2
    Disagree with first paragraph , it's a pretty weak heuristic IMO
    – M.M
    Feb 27, 2017 at 9:44

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.