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I'm designing a simple Array class with the capability of holding any type of object, like a vector that can hold multiple types of data in one object. (This is for learning purposes.)

I have an empty base class called Container:

class Container {};

And a templatized subclass called Object:

template <class T>
class Object : public Container {
    T& object;
public:
    Object(T& obj = nullptr) : object(obj) {}
};

I have an Array class which holds a vector of pointers to Containers which I use to hold Objects:

class Array {
    std::vector<Container *> vec;
public:
    template <class T>
    void add_element(const T&);
    auto get_element(int);
};

add_element stores elements into Objects and puts them into vec:

template <class T>
void Array::add_element(const T& element)
{
    vec.push_back(new Object<T>(element));
}

get_element removes the element from it's Object and passes it back to the caller. This is where my problem lies. In order to remove the element from the Object, I need to know what type of Object it is:

auto Array::get_element(int i)
{
    return (Object</* ??? */> *)vec[i])->object;
}

Is there some way for me to find out what sort of object I'm storing?

Edit: since people are claiming that this is not possible, how about this. Is there some way of actually storing type information inside of a class? (I know you can do that in ruby). If I could do that, I could store the return type of get_element in each Object.

share|improve this question
    
@ildjarn: Since the OP is using auto in the question, I think it's safe to assume that. – Jesse Good Jul 6 '12 at 22:19
    
@user315052 because It'd be harder to use that way. @ildjarn Yes it does, but if I decltype(vec[i]) I'll just get a Container *. I need to know what subclass it is. – anthropomorphic Jul 6 '12 at 22:19
    
@Jesse : Ah, good point. :-P – ildjarn Jul 6 '12 at 22:21
    
Go have a look at boost::any – Loki Astari Jul 6 '12 at 22:30
    
@MichaelDorst Edit: since people are claiming that this is not possible, how about this. Is there some way of actually storing type information inside of a class? (I know you can do that in ruby). If I could do that, I could store the return type of get_element in each Object. In class Object you can save template parameter by typedef, e.g. typedef T object_type; but it can`t help you. – ForEveR Jul 6 '12 at 22:31
up vote 2 down vote accepted

I was thinking something along the lines of this template for your get_element.

template <class T>
T& Array::get_element(int i, T &t)
{
    Object<T> *o = dynamic_cast<Object<T> *>(vec[i]);
    if (o == 0) throw std::invalid_argument;
    return t = o->object;
}

Array arr;
double f;
int c;

arr.get_element(0, f);
arr.get_element(1, c);

But alternatively, you could use this:

template <class T>
T& Array::get_element(int i)
{
    Object<T> *o = dynamic_cast<Object<T> *>(vec[i]);
    if (o == 0) throw std::invalid_argument;
    return o->object;
}

f = arr.get_element<double>(0);
c = arr.get_element<int>(1);
share|improve this answer
    
You know, I think this may be the best way, thank you. – anthropomorphic Jul 6 '12 at 22:54
    
@MichaelDorst: Thanks for accepting, and you're welcome. +1 on your question. – jxh Jul 6 '12 at 22:56
    
I don't really like your throw statement, generally I would throw a std::exception, but your basic idea is good. No prb - thx =) – anthropomorphic Jul 6 '12 at 22:57
1  
@MichaelDorst: Edit made, regards – jxh Jul 6 '12 at 23:01
    
@MichaelDorst: I saw your edit suggestion. So you are okay with users of your Array to call it like double f = arr.get_element<double>(i)? Because, I thought arr.get_element(i, f) was nicer. – jxh Jul 6 '12 at 23:13

The return type of a function like Array::get_element must be determined at compile time. Since class Array does not know what types of containers it stores at compile time, the only option is to just return the base Container* pointer. Then users of that code can use virtual functions and/or dynamic_cast to deal with those generalized containers.

share|improve this answer
    
The whole point of this class was so that I wouldn't have to use all that syntax every time I want to access an element. ((Object<Type> *)vec[num].->object is just too messy. – anthropomorphic Jul 6 '12 at 22:23
1  
If Container has enough virtual functions, you don't need any casts. – aschepler Jul 6 '12 at 23:28

dynamic_cast<>(), when used on a pointer, can be used to check whether the cast is actually possible since it returns NULL when the types don't match.

However, you'll probably want to reconsider your setup; dynamic_cast isn't something you'll want to use if you can avoid it, and having cascades of "if object-is-type1 then do this; else if object-is-type2 then do that; else if object-is-type3..." is almost always a sure sign of bad design.

Using auto in your get_element is probably your trick of getting around the problem that you don't know what the type will be -- that won't work, though. The compiler still has to know the return type; it cannot change at runtime.

EDIT: you might also go a step back and ask yourself whether you REALLY need an array that can store "anything". I've used Objective-C for a long time, and it's basically built around the idea that everything is just an "object" and people can call anything on anything, it's all sorted out at runtime. However, I found that actual uses of this are rare... and for containers in particular, I find that every NSArray that I use only has objects of one type, or maybe of a common base class, but not actually distinct, unrelated classes.

share|improve this answer
    
The uses are rare, but it's still necessary to have that capability. My original idea was to make a class that I could use as a wrapper around Obj-C objects (to minimize Obj-C++ code since it's hard to maintain). If I use a vector I can't handle every scenario, which is problematic. – anthropomorphic Jul 6 '12 at 22:31

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