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Short Description:
I am iterating over a vector calling a virtual function on every object in the vector in order to execute a sequence of actions. The vector is of the base class as is the iterator. All the objects are children. When the virtual function is called it executes the base class's function.

(Really) Long Description: I am attempting to model a creature that has a set of behaviors. My base class is abstract with only two functions (virtual) which all the subclasses have overridden:

class Behavior
 virtual void execute(){} 
 virtual BEHAVIOR_TYPE getType() {return m_Type;}


I have created a number of children behaviors, such as move, consume, scout, etc.

class Move :
    public Behavior
BEHAVIOR_TYPE getType() {return m_Type;}
    enum Direction {N, NE, E, SE, S, SW, W, NW};
Move(DOCO * d);
void execute() ;
    Direction chooseDirection();
    void setDirection(Direction newDirection);
    Direction m_Direction;
    DOCO *I;


I created a vector onto which I pushed instances of each Behavior subclass as well as an iterator to traverse it:

vector<Behavior> m_Behavior;
vector<Behavior>::iterator bIt;

When the creature gets an action sequence, I try to iterate over the vector, dereference the iterator, and call the execute function:

void World::justDoIt()
    for(dIt=myDOCO.begin(); dIt!=myDOCO.end(); ++dIt)
    vector<Behavior>::iterator myBehavior=(dIt)->getFirstBehavior();
    vector<Behavior>::iterator end=(dIt)->getLastBehavior();
    for(myBehavior; myBehavior!=end; ++myBehavior)


The problem is that it executes the parent's function rather than the child's function.

In my understanding of late binding it should automatically call the appropriate function based on the type of object that was calling it rather than the type of pointer with which it was called, and in my code I anticipated it would be pointing to the child object.

Obviously I have made an error and somehow told the program that I want these to be treated as parents instead of children, but I cannot find my error.

A second symptom is that it will not let me make the parents function pure virtual, because it says it cannot instantiate an abstract class. I am not instantiating it explicitly anywhere in my code, but there must be somewhere I am doing it implicitly. I cannot find where, however. Certainly creating a vector to hold objects of the parent class does not require instantiating the parent, and that is the only time I reference the parent class directly.

Any help would be greatly appreciated.

share|improve this question
There ought to be dozens of dupes for putting base class objects (rather than pointers) into a STL container, though I can't, ATM, find one. One of them should probably become an FAQ entry. – sbi Mar 5 '11 at 0:20

2 Answers 2

up vote 10 down vote accepted

The class vector<Behavior> makes copies of whatever you store inside it, using the copy constructor Behavior::Behavior(const Behavior&);. This destroys the polymorphism. You need to use a pointer or smart pointer in the container instead:

vector<Behavior*> m_Behavior; // I will take care of new and delete
vector<shared_ptr<Behavior> > m_Behavior; // easier

If you don't have std::shared_ptr or std::tr1::shared_ptr in #include <memory> or similar, maybe you can use Boost's.

share|improve this answer
Thank you so much! I didn't know about shared pointers! – Sisyphus Mar 5 '11 at 0:32
if you have std::shared_ptr, then use std::unique_ptr here. – Matthieu M. Mar 5 '11 at 11:14

You are adding instances of classes to the vector. This results in slicing.

What you need to do is add pointers to instances of behaviors, and modify the loop to do

share|improve this answer
Thank you so much! – Sisyphus Mar 5 '11 at 0:31

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