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I have a class template with an explicit class template specialisation and another partial class template specialisation.

template< typename T1, typename T2 >
class A{
    internal_representation1 inRep;
    // methods
};

template<>
class A < specific_type_1,specific_type_2 >{
     //internal represenation different for this type.
    internal_representation2 inRep;
    // methods
};

template< template T1 >
class A < T1,specific_type_2 >{
     //internal represenation different for this type.
    internal_representation3 inRep;
    // methods
};

The specialisations leads to interface duplication. The class template and its specialisations all have the same method names but differ in their implementations.Specifically, the representation of their internal data structure.

Should I replace the above implementation with the bridge design pattern ?

note: This question is related to How can we implement the Builder design pattern using boost::mpl?

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Are internal_representation's totally differs? –  Denis Ermolin Oct 25 '12 at 8:05
    
Yes, one is std::vector, the second is an boost::dynamic_bitset and they third is an ComplexUDT. These types are the ones supported currently, in the future the code may need to support more. Hence it is important to separate the interface from the implementation. –  Samrat Roy Oct 25 '12 at 9:26
2  
You have a template with two explicit instantiations. A template is not a class. –  Pete Becker Oct 25 '12 at 14:32
    
@PeteBecker Thank you for your response. I was under the misconception that a template specialisation is a separate instance of the same class. Could you please elaborate on your statement or point me towards related texts ? Thank you. –  Samrat Roy Oct 25 '12 at 15:02
2  
I was objecting to "I have a class with three different implementations." Even though it's called class A, A is a class template. That is, it's a pattern for creating classes. So A<int> is a class. A<specific_type_1, specific_type2> is also a class, but more formally it's an explicit specialization of the template A. And A<T1, specific_type_2> is a partial specialization of the template A; partial because it doesn't provide all of the template arguments. –  Pete Becker Oct 25 '12 at 15:23
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1 Answer

You can also use the state pattern (good for different internal representations), but it depends on what you need in your project. The state pattern allows you to use the same object, but if you need different objects, you also can use the factory method.

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In the current implementation template specialisation handles the problem of choosing the correct class. But this leads to duplicating the interface definitions in three classes. Any changes to the "abstract" interface would require the changes to be propagated to all three implementations. Which is a maintenance nightmare. Maybe, CRTP would yield a better design ? –  Samrat Roy Oct 25 '12 at 9:36
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