#define SOL_CHECK_ARGUMENTS 1 #include #include #include int main() { std::cout << "=== namespacing ===" << std::endl; struct my_class { int b = 24; int f() const { return 24; } void g() { ++b; } }; sol::state lua; lua.open_libraries(); // "bark" namespacing in Lua // namespacing is just putting things in a table // forces creation if it does not exist auto bark = lua["bark"].get_or_create(); // equivalent-ish: //sol::table bark = lua["bark"].force(); // forces table creation // equivalent, and more flexible: //sol::table bark = lua["bark"].get_or_create(sol::new_table()); // equivalent, but less efficient/ugly: //sol::table bark = lua["bark"] = lua.get_or("bark", lua.create_table()); bark.new_usertype("my_class", "f", &my_class::f, "g", &my_class::g); // the usual // can add functions, as well (just like the global table) bark.set_function("print_my_class", [](my_class& self) { std::cout << "my_class { b: " << self.b << " }" << std::endl; }); // this works lua.script("obj = bark.my_class.new()"); lua.script("obj:g()"); // calling this function also works lua.script("bark.print_my_class(obj)"); my_class& obj = lua["obj"]; c_assert(obj.b == 25); std::cout << std::endl; return 0; }