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In my code, I have a set of objects:

class Sphere { ...
class Plane { ...
...

And I need to use a collection of them (they will all have different types) in a vector. How would I add objects of different classes to a vector?

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1  
possible duplicate of C++ How to create a heterogeneous container –  Rob Kennedy Jun 8 '11 at 5:16

6 Answers 6

up vote 6 down vote accepted

Sphere and Plane would need a common base type, or your vector would need to be composed of void*'s.

Common base type (better):

class Shape { ... };
class Sphere : public Shape { ... };
class Plane : public Shape { ... };

std::vector<Shape*> shapes;

or void*'s (not great):

std::vector<void*> shapes;
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When I declare an object like Sphere from the vector, is it of the type Shape or of the type Sphere? I'm asking because the vector is a scene description object which I iterate over, and the base class declaration (Shape foo = *objects[i];) overrides the subclass's (let's say a Sphere's) internal functions with the ones I declared in the base class. It's hard for me to explain, as I don't code in C++... –  Blender Jun 8 '11 at 4:29
    
When you retrieve an element from the list, it will be typed to Shape*. If you only need to call non-virtual methods in your Shape class, or virtual methods first declared in Shape, then you're done. If you need to call non-virtual methods in your subclass, or access public fields in your subclass, you will have to cast the retrieved Shape* to Sphere* before use. –  DuckMaestro Jun 8 '11 at 8:44
    
I'm using the arrow operator (the -> thing) to call the functions, and it seems to kinda work. I'm getting better errors now, so thanks! –  Blender Jun 8 '11 at 15:56
    
If you'd like to see the error-causing code, I've edited it into my question. I have no idea what the problem with it is... –  Blender Jun 8 '11 at 16:08
    
Actually, never mind. I replaced Object* with Sphere* and it all works. Thanks for your answer! –  Blender Jun 8 '11 at 16:14

The classes would need to have a common base class, e.g.:

class MyBase { };
class Sphere : public MyBase { };
class Plane : public MyBase { };

Then in order to store polymorphic objects in a vector, you must store a pointer to them (because they can be different sizes from the base class). I recommend using a std::shared_ptr<MyBase> or std::unique_ptr<MyBase> (or use Boost if C++0x isn't available).

std::vector<std::shared_ptr<MyBase> > v;
v.push_back<std::shared_ptr<MyBase>(new Sphere());
v.push_back<std::shared_ptr<MyBase>(new Plane());

If there is no common base, you'd have to use void*, or find a different way to do this.

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I did have a base Object class setup, but it was overriding my class-specific methods with the default ones found in the class. Here's my previous question: stackoverflow.com/questions/6274136/… –  Blender Jun 8 '11 at 4:18
    
That's a link to this question. But on a guess, I'd say the problem is that you weren't using pointers or references. You must always use pointers or references with polymorphic types. –  Sven Jun 8 '11 at 4:19
    
Here's a correct one: stackoverflow.com/questions/6271665/… –  Blender Jun 8 '11 at 4:21
    
So if I were to reference an object from the vector, how would I initialize it? If I do this Object target = *objects[i];, I can't make use of the non-base class's functions. –  Blender Jun 8 '11 at 4:25
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You must always use references or pointers to refer to polymorphic types. If you do Object target = *object[i]; your object gets copied into an Object and loses its original type. You can do Object &target = *object[i];, or Object *target = object[i];, which will allow you to use virtual functions. To get a particular type, use Sphere *target = dynamic_cast<Sphere*>(objects[i]);. The dynamic_cast will return NULL if the object was not a Sphere. –  Sven Jun 8 '11 at 4:40
Class Shape{...code...}
Class Sphere : public Shape{...code...}
Class Plane  : public Shape{...code...}

std::vector<Shape*> List;
List.push_back(new Sphere);
List.push_back(new Plane);

or

//Base class to derived class
Shape* Shape_Sphere = new Sphere();
Shape* Shape_Plane  = new Plane(); 

std::vector<Shape*> List;
List.push_back(Shape_Sphere);
List.push_back(Shape_Plane);

and if you want to delete the pointers

std::vector<Shape*>::iterator it;

for(it = List.begin(); it != List.end(); ++it)
{
  delete *it;
}

Since the vector stores instances of Shape and Sphere/Plane are derived of the base class Shape, C++ will allow this to work

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Wow, I have code which looks eerily similar to this. Right now, I am wrestling with the creating new objects and defining properties. My current code chunk looks like this: pastebin.com/raw.php?i=1KCMpP87 –  Blender Jun 8 '11 at 5:26
    
Let me guess that the (I'm guessing type double) radius is declared in sphere not Object? Check to make sure, because Object light is still a class Object it just happens to point to the memory of the newly allocated Sphere and can't directly access radius, Unless you didn't put radius under the reserved word "protected:" then you shouldn't be able to gain access to it until you do so. –  Just a humble programmer Jun 8 '11 at 5:36
    
So I'll have to define all the object-specific variables within the main Object class? –  Blender Jun 8 '11 at 15:59
    
Yes, but remember to put radius under the "protected:" keyword if you want the derived class to have access to it. Just remember inheritance has its pros and cons vs. composition artima.com/designtechniques/compoinhP.html –  Just a humble programmer Jun 8 '11 at 19:01

Are the objects related in a meanginful way? If they're not, then you probably shouldn't.

If they are, you'll want to do some reading on inheritance.

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The other posts have told you most of what you need to know. I would like to add that boost has pointer containers that might be handy as they cleanup there contents when they are destroyed. Boost manual

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Creating containers of polymorphic types is a classical solutions, which comes with its own problems. One of which the types have to become polymorphic just in order to add them to a container -- not a good reason. Another problem is early and tight coupling resulting in more difficult maintenance and lack of flexibility, just in order to add them to a container -- not a good reason. Fortunately, in C++ there are better alternatives.

A better solution would be storing functions and not objects themselves in containers. The common reason why you want to put different types in the same container is to perform the same actions on all of them, for example, Sphere::Draw() or Plane::Draw(). What you can do is create a container of draw functions instead and erase type. E.g.

vector<function<void()>> drawings;
Sphere s;
Plane p;
drawings.push_back(bind(s, &Sphere::Draw));
drawings.push_back(bind(p, &Plane::Draw));
for(auto I = drawings.begin(); I != drawings.end(); ++i) (*i)();

By doing that you avoided strong coupling and other problems of inheritance, and got a more flexible, more general solution.

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