This is a simplified version of my type system:
#include <string>
#include <vector>
template<typename T>
class Box {
public:
Box(const T& value) : _value(value) {};
private:
T _value;
/* ... */
};
typedef Box<int> Int;
typedef Box<double> Double;
typedef Box<std::string> String;
int main(int argc, char* argv[]) {
String a("abc");
std::vector<String> b = { std::string("abc"), std::string("def") };
// error C2664: 'Box<std::string>::Box(const Box<std::string> &)' : cannot convert argument 1 from 'const char' to 'const std::string &'
std::vector<String> c = { "abc", "def" };
}
While a
and b
compile, c
does not and the reason seems to be that I try to initialize from const char
. This raises two questions:
Why is
b
possible but notc
? Is it because of the nested template instd::vector<Box<std::string> >
?Can I make
c
work without destroying the general boxing mechanism (cf.typedef Box<double> Double
?
main.cpp:18:12: error: no viable conversion from 'const char [4]' to 'String' (aka 'Box<basic_string<char> >') String a = "abc";
(the error messages changes between the compiler but the error is the same). Maybe the error is that you can't use implicit conversion (by calling the constructor or with user defined cast operator) with template ?