Here is how I understood not just what virtual functions are, but why they’re required:
Let’s say you have these two classes:
class Animal
{
public:
void eat() { std::cout << "I'm eating generic food."; }
};
class Cat : public Animal
{
public:
void eat() { std::cout << "I'm eating a rat."; }
};
In your main function:
Animal *animal = new Animal;
Cat *cat = new Cat;
animal->eat(); // Outputs: "I'm eating generic food."
cat->eat(); // Outputs: "I'm eating a rat."
So far so good, right? Animals eat generic food, cats eat rats, all without virtual.
Let’s change it a little now so that eat() is called via an intermediate function (a trivial function just for this example):
// This can go at the top of the main.cpp file
void func(Animal *xyz) { xyz->eat(); }
Now our main function is:
Animal *animal = new Animal;
Cat *cat = new Cat;
func(animal); // Outputs: "I'm eating generic food."
func(cat); // Outputs: "I'm eating generic food."
Uh oh… we passed a Cat into func(), but it won’t eat rats. Should you overload func() so it takes a Cat*? If you have to derive more animals from Animal they would all need their own func().
The solution is to make eat() from the Animal class a virtual function:
class Animal
{
public:
virtual void eat() { std::cout << "I'm eating generic food."; }
};
class Cat : public Animal
{
public:
void eat() { std::cout << "I'm eating a rat."; }
};
Main:
func(animal); // Outputs: "I'm eating generic food."
func(cat); // Outputs: "I'm eating a rat."
Done.