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In C++ I have a series of structures defined...

struct Component {};
struct SceneGraphNode : Component {};
struct Renderable : Component {};
struct Health : Component {};

These could easily be classes, I've been told that there is very little difference in C++.

In Java it is possible to declare an array of type Component and put any class that extends from (inherits) Component into it. Java considers them all components and since everything uses smart pointers, Java's "array" is really just a list of smart-pointers which are all the same size.

However I understand that Java handles arrays significantly different from C++. When I checked the size of each of these structs I got the following.

Component                   // 4
SceneGraphNode : Component  // 8
Renderable : Component      // 8
Health : Component          // 20

Which isn't suprising. Now when I create an array of Components, the size of the blocks are obviously going to be 4 (bytes) which won't hold any of the other structures.

So my question is, how can I store a loose list of Components (IE a list that can store any class / struct that inherits from Component)? In Java this is mind-numbingly simple to do. Surely there must be an easy way in C++ to do it.

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3 Answers 3

up vote 1 down vote accepted

You are allowed to have a Base class pointer to a child class object, ie Component * sgn = new SceneGraphNode

So allocate an array of Component*s (or a vector if it needs to vary in size) and make each entry point to a derived object.

Component * components[100];
components[0] = new SceneGraphNode;
components[1] = new Renderable;
// so on and so on

In addition to this you must have virtual functions in Component for any member function you intend to define in the child classes

class Component {
        virtual void method() = 0;
        virtual int method2(int arg) = 0;

class SceneGraphNode : public Component {
        virtual void method(){
        virtual int method2(int arg){
            return arg*2;

The virtual keyword makes it so that at runtime it looks at the actual type of the pointed to object and calls its method, rather than calling the pointer types method. This is how java does things normally. The = 0 makes the function "pure virtual" meaning that a child class must define that method. Using our array defined above...


If you would prefer a vector to an array, you can replace the array version with:

#include <vector>;
std::vector<Component* > components;
components.push_back(new SceneGraphNode);
components.push_back(new Renderable);
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Awesome, I didn't know about the need to define the methods as virtual. Thanks! –  Cody Smith Apr 18 '13 at 3:36
It's what you want almost all of the time, which is why java methods all work the same way virtual functions do in c++. The only thing is, they're implemented as function pointers and are stored in something called a v-table. This adds some overhead to the function call. –  Ryan Haining Apr 18 '13 at 3:38

You can store a vector of smart pointers that points to base class objects, then you can add derived class obejects into it.

For example:

 std::vector<std::unique_ptr<Component> > base;
 Component.push_back( std_unique_ptr<Component>(new SceneGraphNode()) ); 
            //^^use correct constructor, this example just show the methodology
 Component.push_back( std_unique_ptr<Component>(new Renderable()) );
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you store them as follow

std::vector<Component *> components;
Component * c = new Health;
components.push_back( c );

calling components[0] -> method(); will invoke method() of Health

This is how polymorphism is done in C++.

Also make sure method() of Component is virtual

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std::vector<Component *> components; That will leak memory, use a smart pointer, either shared_ptr or unique_ptr –  miguel.martin Apr 18 '13 at 5:57

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