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Here is some representative code that gets the error I'm experiencing:

class Data
{
};

class Table
{
  virtual std::vector<Data*> getData() = 0;
  virtual void putData(Data* dataItem) = 0;
  virtual Data* getData(int index) = 0;
};

class DerivedData : Data
{
};

class DerivedTable : Table
{
  std::vector<DerivedData*> getData() { return myData; } // invalid covariant return type
  void putData(DerivedData *dataItem) { myData.push_back(dataItem); }
  virtual DerivedData* getData(int index) { return myData[index]; } // invalid covariant return type

  std::vector<DerivedData*> myData;
};

Firstly, I don't quite understand why it is that the override of putData is happy with the parameters being changed, but I can't change the return type for getData, although I appreciate this is something I can gain an understanding of from more reading.

Secondly, and my main question, how could this code be changed to make it work. My basic goal is to allow for multiple "table" like objects which will store and control data objects. While each data object will share some things in common, there will be some distinct differences which the table will control and work with. For example, one table might have data objects which have a name parameter, and so the table will provide a function which prints a list of all the names of the data it holds. This way I can have generic code which works with all of these table objects, and specialized code which operates only with one type of table.

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2  
This doesn't look like much of an improvement on std::vector<>. –  Beta Nov 5 '12 at 13:15
    
@Beta - My goal isn't to replace the std::vector but I think I see your point. In reality these "tables" do more than just list data, but the problem I was having is providing a common interface to that data since the data objects for each "table" share some things in common. –  Jonathan Pierce Nov 5 '12 at 14:39
1  
This sounds a lot like a case of premature generalisation. What kinds of generic code do you want to write that can't be handled with templates? –  molbdnilo Nov 5 '12 at 15:02
    
@molbdnilo - I think your spot on with "premature generalisation". There is a good answer here to the question I have asked, but I think my real problem is that I'm not sure what question I really need answered. I will continue with working on the code that will use these objects and that will give me a better idea of what it is that I am really looking for these objects to do. –  Jonathan Pierce Nov 5 '12 at 15:09

1 Answer 1

up vote 4 down vote accepted

Many things are wrong:

  1. The two versions of putData are simply different, unrelated overloads. There is no such thing as a "contravariant argument type" for overriding virtual functions in C++ (and even if there were, it would go the other way round!!). Add the keyword override to the derived function to make your compiler produce an error.

  2. Class templates don't work the way you think. If template <typename T> class Foo is a class template, then Foo<X> and Foo<Y> are totally different, unlrelated classes, no matter whether X and Y are related in any way.


As @Beta says, you might just have a simple std::vector<std::unique_ptr<Data>> as your main data structure. But anyway, if you really must have some hierarchy, here's a possible "solution":

#include <memory>
#include <vector>

struct Data { virtual ~Data() { } };

struct Table
{
    virtual ~Table() { }

    typedef std::unique_ptr<Data> data_ptr;
    typedef std::vector<data_ptr> dataset_type;

    virtual dataset_type & getData() = 0;
    virtual void putData(data_ptr dp) = 0;
    virtual Data & getData(std::size_t n) = 0;
};

class DerivedTable : public Table
{
    dataset_type myData;

public:

    virtual void putData(data_ptr p) override
    {
        myData.push_back(std::move(p));
    }

    Data & getData(std::size_t n) override
    {
        return *myData[n];
    }

    // ...
};
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