Consider the following abstract class:
class Abstract {
public:
// ...
virtual bool operator==(const Abstract& rhs) const = 0;
// ...
};
Now suppose I'm creating multiple derived classes from this abstract class. However, each one uses a different algorithm when comparing with its own type, and a generic algorithm when comparing with any of the other derived classes. Between the following two options, which would be the better, more efficient option?
Option A:
class Derived : public Abstract {
public:
// ...
bool operator==(const Abstract& rhs) const {
// Code for comparing to any of the other derived classes
}
bool operator==(const Derived& rhs) const {
// Code for comparing to myself
}
// ...
};
Option B:
class Derived : public Abstract {
public:
// ...
bool operator==(const Abstract& rhs) const {
const Derived* tmp = dynamic_cast<const Derived*>(&rhs);
if (tmp) {
// Code for comparing to myself
}
else {
// Code for comparing to any of the other derived class
}
}
};
I'm really curious as to what advantages and disadvantages these options would have, as C++ typecasting is a relatively mysterious topic to me. Furthermore, which solution is more "standard", and does the second solution have any impacts on performance?
Is there possibly a third solution? Especially if there were many derived classes, each needing its own special comparison algorithm against different derived classes?