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So I have 2 classes,

class Animal{
public:
    Animal(int age, int hairCount) {
        howOld = age;
        numOfHairs = hairCount;
    }

    void print(){
        cout << "Age: " << howOld << "\tNumber of Hairs: " << numOfHairs << endl;
    }

protected:
    int howOld;
    int numOfHairs;
};



class Bird: public Animal{
public:
    Bird(int age, int hairCount, bool fly) : Animal(age, hairCount) {
        canItFly = fly;
    }

    void print() {
        cout << "Age: " << howOld << "\tNumber of Hairs: " 
             << numOfHairs << "\tAbility to fly: " << canItFly << endl;
    }
protected:
    bool canItFly;
};

If in the main program, I have something like this:

#include <vector>
#include <iostream>
using namespace std;

int main() {
    vector<Animal> list;
    list.pushBack(Bird(5,10000,true));
    list.pushBack(Animal(14,1234567));

    for(int i = 0; i < list.size(); i++){
        list[i].print(); //Calls the super class for both outputs
    }
    return 0;
}

For some reason, my code (this isn't it) calls the super class' print method under both circumstances.

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4 Answers 4

up vote 4 down vote accepted

You should declare a member function

void print()

to be virtual i.e.

virtual void print()

Additionaly to that you should create a vector of pointers to Animal

vector<Animal *>

In main create new objects using new. Then it will work as expected. That said your main should look like this

vector<Animal *> list;
Animal *bird = new Bird(5,10000,true);
Animal *animal = new Animal(14,1234567);
list.push_back(bird);
list.push_back(animal);

And do not forget to delete bird and animal if you do not need them anymore by

delete bird;
delete animal;

Optionally you can use one of smart pointer classes, as suggested by Benjamin Lindley.

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EDIT: I left out that little detail. I do have virtual on the super class. Not sure why it's not printing. –  BackpackOnHead Nov 22 '11 at 2:07
    
oops, I've corrected my answer. –  Beginner Nov 22 '11 at 2:10
    
I can't call the print method using list[i].print() after declaring the vector like that. –  BackpackOnHead Nov 22 '11 at 2:13
    
Overriding functions are automatically virtual if the base function is. –  Kerrek SB Nov 22 '11 at 2:14
    
@chickeneaterguy: Then call it like this: list[i]->print() –  Benjamin Lindley Nov 22 '11 at 2:16
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You can't do polymorphism with statically typed objects. You need to use pointers or references. Try a vector<unique_ptr<Animal>> to avoid memory management headaches.

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you just ran into object slicing :)

http://en.wikipedia.org/wiki/Object_slicing

as others said, you can't staticly declare an array of Animals, as it will only make enough space to store animal, and things like birds will get sliced.

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+1. Yes. Instead, you must declare an array of references to Animals (or pointers to Animals). –  David Cary Nov 22 '11 at 2:19
    
YES, I forgot about this too! –  BackpackOnHead Nov 22 '11 at 2:20
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Polymorphism only affects references and pointers:

Bird bibo;
Crocodile claus;

Animal & a1 = bibo, & a2 = claus;

a1.print();
a2.print();

Having just a generic Animal a doesn't give you access to any polymorphic behaviour, and in fact it probably doesn't even make sense: Since every animal is a concrete animal of some type, your base class should probably be abstract.

Now what about containers? Since the concrete classes that derive from the base class can have variable sizes, there's no way you can put them into a container directly. Instead, you should point a pointer to the base class into the container.

The pointer of choice is std::unique_ptr<Animal>, which is lightweight and the simplest form of lifetime management. It works like this:

#include <memory>
#include <vector>

typedef unique_ptr<Animal> AnimalPtr;
typedef std::vector<AnimalPtr> Zoo;

Zoo z;

z.push_back(AnimalPtr(new Bird));   // old-style
z.emplace_back(new Crocodile);      // new-style, better

Finally, a little obscure detail on how to make Animal abstract. We could declare print() to be pure virtual. Yet we also want a base implementation. We can do both:

struct Animal
{
  virtual void print() const = 0;
  // ...
};
void Animal::print() const
{
  out << "Age: " << howOld << "\tNumber of Hairs: " << numOfHairs << endl;
}

struct Bird
{
  virtual void print() const
  {
    Animal::print();  //  call base function first
    cout << "Ability to fly: " << canItFly << endl;
  }
  // ...
};
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