I have a class structure defined like so:
class Pet {};
class Dog : Pet {};
class Cat : Pet {};
On this class structure i am implementing the visitor design pattern, with something like this:
class Pet {
virtual void Accept(Visitor& v) {
v.visit(this);
}
};
class Dog : Pet {
virtual void Accept(Visitor& v) {
v.visit(this);
}
};
class Cat : Pet {
virtual void Accept(Visitor& v) {
v.visit(this);
}
};
class Visitor {
virtual void visit(Pet*)=0;
virtual void visit(Dog*)=0;
virtual void visit(Cat*)=0;
};
class ConcreteVisitor : Visitor {
virtual void visit(Pet*) {
std::cout<<"Pet"<<std::endl;
}
virtual void visit(Dog*) {
std::cout<<"Dog"<<std::endl;
}
virtual void visit(Cat*) {
std::cout<<"Cat"<<std::endl;
}
};
With a class structure defined like this, if i write call, for example
Dog dog;
ConcreteVisitor v;
dog.accept(v);
It will print dog
. Now my question is: how could i call the visitor on Pet
class (the base class) after the printing of dog? I need to accomplish this without explicit call it in the ConcreteVisitor class. i do this because the implementation of the Visitor (like ConcreteVisitor) is for me out of control (who use my code extends the Visitor
to do anything with my class structure) and they could not call the visitor on the base type.
Excuse me for my bad english and thank you in advice for your answers.
Pet
class, a reference or pointer that is actually aDog
instance. Also, you don't need an implementation ofAccept
in thePet
class, that function can (and should be) abstract as well.ConcreteVisitor
as an argument , when the function accepts onlyVisitor