You just encountered a bug that plagues most of the DSEL.
The issue is that you want a specific operator to be called, the one actually defined in your specific languages. However this operator already exist in C++, and therefore the normal rules of Lookup and Overload resolution apply.
The selection of the right operator is done with ADL (Argument Dependent Lookup), which means that at least one of the objects on which the operator apply should be part of the DSEL itself.
For example, consider this simple code snippet:
MyStream operator<<(std::ostream&, MyObject);
int main(int, char*)
std::cout << MyObject() << "other things here";
Because the expression is evaluated from left to right, the presence of
dsel::MyObject is viral, ie the dsel will here be propagated.
Xpressive, most of the times it works because you use special "markers" that are
Xpressive type instances like (
_w) or because of the viral effect (for example "@" works because the expression on the left of
Were you to use:
sregex re = "sip:" >> *(_w | '.') >> '@' >> *(_w | '.');
^^^^^^ ~~ ^^^^^^^^^^^
It would work, because the right hand-side argument is "contaminated" by
Xpressive thanks to the precedence rules of the operators.
operator! has one of the highest precedence. At such, its scope is restricted to:
"sip:" is of type
char const, it just invokes the regular
operator! which will rightly conclude that the expression to which it applies is
true and thus evaluate to the
as_xpr, you convert the C-string into an
Xpressive object, and thus bring in the right
operator! from the
Xpressive namespace into consideration, and overload resolution kicks in appropriately.