You cannot overload a class, but you can use a conversion operator so that it will automatically convert to different types according to expected parameters in that context. In your case, as val
is an int
, you'd overload the conversion to int
like this:
operator int() const { return val; }
Now wherever an int
is required, and you provide a foo
, this conversion is applied.
There are some limits. For example, if you pass foo
to a function template where the type of the corresponding argument is generic, there will be no conversion in that place. The conversion also won't affect other expressions which don't enforce a type. As an example, if f
is type foo
, then &f
will always be of type foo*
, not int*
. For most practical applications, all this is exactly what you need. But I believe that the C-style variadic printf
is just such a case where there is no well-defined expected type. Better use a C++-style call, or an explicit cast static_cast<int>(f)
.
If neither is acceptable for you, then you are into trouble: there is no way that the C++ logic can deduce the fact that you require an int
here, simply because you included a %d
in some string constants. The type conversion is a compile-time thing, whereas the interpretation of format strings is done at runtime (except when generating warnings the way e.g. gcc does). The compiler won't know what type that argument needs to be, therefor it won't know what conversion to execute, therefore you have to help him in some way.
As long as this int val
is the only member of foo
, and there are no virtual functions either in this class, and neithe ris there a base class with any data members or a virtula function, the memory layout of an object of class foo
will usually be the same as that of a plain integer. This means that the untyped C-style printf
won't be able to tell the difference, even without any conversion at all. But relying on this is really bad style, so I'd advise against making use of this.
operator int()
should work. Conversion operator if you want terminology.explicit
as well (at least in C++11) and be a logical conversion.