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I have a template class called Data

template<class T> 
class Data
{
   vector<T> Data_Container;
...
};

I want to define a new class which be able to have multiple types of Data.

class Multi_Data
{
vector< Data<???> > Different_Datas;
}

If I define Multi_Data as template I will just have one type at a time. How I can write a class to be able to add different templates like this:

Data< Type_A > DataA;
Data< Type_B > DataB;
Multi_Data Container;
Container->Add(DataA);
Container->Add(DataB);
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5  
Generally speaking, you simply shouldn't do this at all. Creating something that can hold different types is fairly easy, but when you get the data out, you generally end up with a messy "switch on type" to sort out what type of item you're dealing with. It's ugly and nearly always counterproductive. –  Jerry Coffin Jan 9 '13 at 4:59
    
Is it possible to have a non-template class which has template members. If yes, is that the solution for this problem? –  Hesam Jan 9 '13 at 5:03
1  
Data<A> and Data<B> are two different types. There's no magical Data<?> like in Java. If you're sure you want to do this though, you could use a modified version of boost.org/doc/libs/1_52_0/doc/html/boost/any.html that is restricted to just Data types (or only put Data types into it). –  Corbin Jan 9 '13 at 5:03
1  
@Hesam, you can definitely do template methods of non template class, and they will be storable in containers together. Is it the solution depends on your requirements. –  Karthik T Jan 9 '13 at 5:06
1  
In this specific situation, that is probably a better idea actually (as templatetypedef already said). It will mean that the type being substituted into Data (to way over simplify how templates work :p) will be boost::any, which in a lot of situations would be odd. In this situation though, it would be perfect. It will let you define your Mutli_Data very simply: typedef Data<boost::any> Multi_Data;. –  Corbin Jan 9 '13 at 6:17
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3 Answers

What you're describing looks like a perfect use case for the Boost.Any library, which provides a type-safe, uniform way of storing objects that are of multiple different types. I believe that you could use boost::any here by making your MultiData type store objects of type vector<boost::any>, then having a function like this to access it:

template <typename T> void MultiData::add(const Data<T>& data) {
    Different_Datas.push_back(data);
}

Here, the boost::any stores an arbitrary value, while the template wrapper prevents you from inserting values that aren't instantiations of Data.

Hope this helps!

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Thanks, In this way, can I access to member functions of Data class after storing as boost::any. i.e. Different_Datas[0].Get_My_Iterator()? –  Hesam Jan 9 '13 at 5:21
    
Can I define the container as vector<Data<boost::any>> instead of vector<boost::any>? –  Hesam Jan 9 '13 at 5:40
1  
@Hesam- Actually, yes! That sounds like a much better idea. :-) –  templatetypedef Jan 9 '13 at 6:11
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You can solve this by a small workaround.

class DataA { };
class DataB { };
class DataContainer { };
class DataAContainer : public DataContainer
{
public:
    DataA dataA;
};
class DataBContainer : public DataContainer
{
public:
    DataB dataB;
};

class MultiData
{
private:
    std::vector<DataContainer *> vec;
};

However, as mentioned, keeping different kinds of data in one list is a bad idea. I guess, that there's a flaw in the design, check it out again.

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1  
The vector would need to store pointers (or smart pointers) to DataContainer, not instances of DataContainer. Or am I missing something? –  Corbin Jan 9 '13 at 5:22
    
Indeed, my mistake. –  Spook Jan 9 '13 at 5:22
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If you have an limited (and fixed) number of types to store you should have a look at Boost.Variant:

std::vector<boost::variant<Data<Type_A>,Data<Type_B> > > Container;

It enables you to use a visitation mechanism without using casts or virtual functions.

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