20

I'm learning about user-defined literals, and confused with the following test code:

std::chrono::seconds operator"" _s(unsigned long long s) {
    return std::chrono::seconds(s);
}

std::string operator"" _str(const char *s, std::size_t len) {
    return std::string(s, len);
}

int main() {
    auto str = "xxxxx"_str;
    std::cout << str.size() << std::endl;    // works

    auto sec = 4_s;
    std::cout << sec.count() << std::endl;   // works

    std::cout << "xxxxx"_str.size() << std::endl;   // works

    std::cout << 4_s.count() << std::endl;   // does **NOT** work!

    return 0;
}

The compiler gives the following error message:

error: no matching literal operator for call to 'operator""_s.count' with argument of type 'unsigned long long' or 'const char *', and no matching literal operator template
cout << 4_s.count() << endl;

It seems that it takes _s.count as a user-defined literal. Also, a floating-point literal behaves like an integer literal.

Why do user-defined integer literals and string literals have different behavior?

  • what about (4_s).count? – Zefick Nov 24 '17 at 6:18
  • (4_s).count works. You CANNOT have ( or ) in the ud-suffix. – for_stack Nov 24 '17 at 6:25
  • @for_stack It seems weird, . could not be used in ud-suffix either; can't get why _s.count is parsed as the whole ud-suffix. – songyuanyao Nov 24 '17 at 6:34
  • @songyuanyao Good to see you. It's not weird if an explanation can be found. – iBug Nov 24 '17 at 7:03
  • 2
    4_s.count is parsed as a preprocessing number token, which is tolerated by the preprocessor and is converted to a token after preprocessing but before syntactic and semantic analysis, but it can't be converted to a valid token (e.g. interger literal or floating literal), and thus violates [lex.pptoken]/1. Admittedly the compiler error is totally unhelpful in this case. – cpplearner Nov 24 '17 at 14:19
18

That's how floating point literals work!!

Add a pair of parentheses and it should work:

std::cout << (4_s).count();

Or alternatively, separate them (to stop the compiler from interpreting it as an ill-formed fractional constant floating point literal):

std::cout << 4_s .count();
//              ^ Space here!

Reference: CppReference.com

In the Notes section of the reference above,

Due to maximal munch, user-defined integer and floating point literals ending in [p, P, (since C++17)] e and E, when followed by the operators + or -, must be separated from the operator with whitespace in the source:

long double operator""_E(long double);
long double operator""_a(long double);
int operator""_p(unsigned long long);

auto x = 1.0_E+2.0;  // error
auto y = 1.0_a+2.0;  // OK
auto z = 1.0_E +2.0; // OK
auto w = 1_p+2;      // error
auto u = 1_p +2;     // OK

So when it comes to dot, which is used as decimal point, it must be separated from anything behind, or it'll be treated as part of the floating point number.

I have tested the example above from CppReference and got a very silimar error message:

test.cpp:19:10: error: unable to find numeric literal
operator 'operator""_E+2.0'
                    ^^^^^^
 auto x = 1.0_E+2.0;  // error

Got the point how _E+2.0 is considered as a whole ud-suffix?


My original explanation attempt can be found in the revision history of this post.

  • 3
    This question isn't about how to make it work; it's about why it doesn't work. Apparently, there's a difference in precedence when using strings versus integers, but I believe that a good answer to the question should explain why the language is designed that way. – HTNW Nov 24 '17 at 6:28
  • You beat me in adding the link to the CppReference page. I was reading it before you posted & updated your answer. – Francis Cugler Nov 24 '17 at 6:39
  • 1
    @FrancisCugler I added it even after I had read it all :) – iBug Nov 24 '17 at 6:41
  • I've learned over time that CppReference is truly an excellent resource & repository that acts as a great lookup table or guide. Trying to get any helpful information from MS well that's a whole different story... – Francis Cugler Nov 24 '17 at 6:45
  • All compilers shows the same error btw. So it is probably not a bug. – Zefick Nov 24 '17 at 6:49

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.