I believe for this first example the compiler is using a GNU extension:
-fext-numeric-literals (C++ and Objective-C++ only)
Accept imaginary, fixed-point, or machine-defined literal number
suffixes as GNU extensions. When this option is turned off these
suffixes are treated as C++11 user-defined literal numeric suffixes.
This is on by default for all pre-C++11 dialects and all GNU dialects:
-std=c++98, -std=gnu++98, -std=gnu++11, -std=gnu++14. This option is off by default for ISO C++11 onwards (-std=c++11, ...).
When I run it with clang I get (are you using -Wall -pedantic
? :)):
warning: imaginary constants are a GNU extension
[-Wgnu-imaginary-constant]
Either way, your code is not standard compliant. To use C++14 literals make the code:
#include <iostream>
#include <complex>
using namespace std::complex_literals;
int main() {
std::complex<double> val = 2.0 + 3i;
std::cout << val << std::endl;
return 0;
}
From the documentation:
These operators are declared in the namespace
std::literals::complex_literals, where both literals and
complex_literals are inline namespaces. Access to these operators can
be gained with using namespace std::literals, using namespace
std::complex_literals, and using namespace
std::literals::complex_literals.
clang++ -std=c++14
?-std=c++14
triggers the errorno matching literal operator for call to 'operator""i' ...
. Why on earth would it compile without this?3i
was a user-defined literal but was unable to find aoperator""i(unsigned long long n)
in any library.