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If I have three types of maps and vectors:

map1<CString, int>
map2<CString, int, std::function1>
map3<some_wrapper_of_CString, int, std::function2>

In stl is there an abstract container or a way to write my own abstract container for the sole purpose of doing polymorphism:

abstract_map = map1 or map2 or map3

My class contains map1 which I cannot modify because it will crash other classes that my colleges at work use. I thought by creating an abstract map to wrap map1 I can pass map2 and 3 without other modifications...

I hope it makes sense.....

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You would need to fully spell out the actual types of your maps, as well as the relationships between the keys and values (common base, conversion operators, ...) for us to have a chance of understanding what you are attempting and why you believe polymorphism is the solution. –  Matthieu M. Dec 21 '12 at 8:47
@MatthieuM. I edited the question –  djWann Dec 21 '12 at 8:56
You also need to type erase on the functor? That is what std::function is already there for. How do the types of the two std::function types differ? There signature should be the same. –  pmr Dec 21 '12 at 8:59
@pmr The signature is the same but the class has map1 as member and If I pass map2 trough the constructor it gives me an error saying that they are not matching –  djWann Dec 21 '12 at 9:03
@djWann The obvious solution is to make map1 a map< CString, int, std::function<...> >. –  pmr Dec 21 '12 at 9:09

3 Answers 3

up vote 3 down vote accepted

No, there isn't. What would be the purpose of it when the elements are not convertible to each other?

You can always do:

containera c;
containerb c2(c.begin(), c.end());

which will convert all elements from one to the other container.

If you actually have containers with the same underlying value_type the usual abstraction over the container type are iterators and not abstract containers.

After you have clarified that you only want type-erasure on the functor type:

class X {
  // constructor taking the full type
  X(const std::map<CString, int, std::function<bool(CString, int)>& x) : my_map(x) {}

  // constructor taking the default std::less
  X(const std::map<CString, int>& x) : my_map(x.begin(), x.end(), std::less<CString>()) {}

  std::map<CString, int, std::function<bool(CString, int)> my_map;
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The purpose is to modify a class with as less changes possible to obtain flexible behavior on using different types of maps –  djWann Dec 21 '12 at 8:35
@djWann So the T in the maps is always the same? –  pmr Dec 21 '12 at 8:36
@djWann I added a variation that keeps compatibility with existing clients. –  pmr Dec 21 '12 at 10:07
thanks man! this saves a lot of time –  djWann Dec 21 '12 at 10:15

In stl is there an abstract container or a way to write my own abstract container for the sole purpose of doing polymorphism

In the standard C++ library, there isn't.

Templates and dynamic polymorphism don't mix all that well.

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Can I write my own then? –  djWann Dec 21 '12 at 8:33
@djWann: Depends on what you're trying to do exactly. –  NPE Dec 21 '12 at 8:34

Not only there are no abstract containers in the STL: you should never inherit from STL containers because they are not intended to behave polymorphically (no virtual destructor, for instance). So you have to look for a different solution.

In this case, you have to favour composition over inheritance. You may write your own abstract map class that contains an std::map, such as:

template<typename T>
class BaseMap
  // Whatever you need here


  std::map<T> internalMap;

and then inherit from this class as needed:

template<typename T>
class Map1 : public BaseMap<T>
  // Specialise your class here

Of course, BaseMap should offer the interface you need for your maps, since it does not inherit std::map interface. You can write any virtual, pure virtual or non-virtual methods you need here.

Though maybe the first question you have to ask yourself is: do you really need different map classes? And, if so, do you really need them to be polymorphic?

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BaseMap should not have a map instance. The base interface class should be abstract for the above pattern. –  Yakk Dec 21 '12 at 9:47
@Yakk Why not? It depends on exactly what it is that you need on your different map classes. If they all can use the same std::map, the right place to put it may well be the base class. –  Gorpik Dec 21 '12 at 10:06
Because the OP uses a different ordering in some of the maps... –  Yakk Dec 21 '12 at 13:53
@Yakk Ah, now I see that he changed his question quite a lot after I wrote my answer. –  Gorpik Dec 24 '12 at 15:51

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