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Inside a class BaseClass I have a public function:

virtual void Call(){};

Inside of a derived class Archer I have the function:

void Call(){ cout << "whatever" << endl; };

I also have a vector set up:

vector<BaseClass> classes;

wherein I push 3 classes derived from BaseClass. The problem seems (to me, I'm probably wrong) to be that I am calling Call() from a reference to BaseClass even though I push them into the vector through a method like:

BaseClass Player::CharChoice(string character)
    if(character == "Archer") return *new Archer();
    else if(character == "Knight") return *new Knight();
    else if(character == "Sorcerer") return *new Sorcerer();
    else cerr << "CHARACTER NOT DEFINED" << endl;

for(int c = 0; c < chars.size(); c++)

If I instead set up a variable such as:

Archer *archer = new Archer();

and call Call(), it works how I would intend. I'm fairly new to C++ and cannot think up a solution to this.

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marked as duplicate by jogojapan, Balog Pal, billz, Rapptz, GManNickG Jul 1 '13 at 2:53

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Polymorphism only works for pointers and references. But you return BaseClass as a copy from CharChoice, and you make another copy when you push it to the vector. Each copy slices the object back to a BaseClass object. –  jogojapan Jul 1 '13 at 2:28
*new T() is going to pretty much always be a mistake. Use smart pointers. –  GManNickG Jul 1 '13 at 2:53

1 Answer 1

up vote 2 down vote accepted

Much of the value of inheritance is lost when you create an object on the stack instead of the heap. Virtual functions is one of the things that you lose, if you want the virtual function to call the right function you must pass the object as pointer or a reference and use new to create it.

Base * b = new Derived();    // or  
Base & b = * new Derived();  

The vector must store a reference or a pointer.

vector<BaseClass*> classes;
vector<BaseClass&> classes;

By popular demand the easiest way to handle this is std::shared_ptr

vector<shared_ptr<BaseClass>> classes;

One of these would be created like so:

shared_ptr<BaseClass> ptr(new BaseClass);

Basically a shared_ptr will handle the annoying task of memory management

shared_ptr is good if you need multiple ptr's to the same object, if not you can use std::unique_ptr

vector<unique_ptr<BaseClass>> classes;

create like this:

unique_ptr<BaseClass> ptr(new BaseClass);

As you can see the syntax is very similar to shared_ptr so the transition is easy

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Given that the question is tagged C++11, I'd find it very desirable to have a word about smart pointers in the answer. –  jogojapan Jul 1 '13 at 2:34
@jogojapan I'll give it a shot –  aaronman Jul 1 '13 at 2:35
You want to prefer unique_ptr over shared_ptr. –  Griwes Jul 1 '13 at 12:51
@Griwes could you please explain why? –  aaronman Jul 1 '13 at 16:22
@aaronman, lower performance hit than shared_ptr. And proper semantics. If the ownership is unique, always use unique_ptr, and, unless explicitly marked so, always assume unique ownership. –  Griwes Jul 1 '13 at 16:33

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