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The goal of writing this code was to get a better understanding of partial template specialization. I'm trying to partial specialize the class Vector with three different bools.

I have an enum(for my bool) defined as:

enum MY_BOOL
{
   YES,
   NO,
   MAYBE
};

For my primary template class I have

template<class A,MY_BOOL,class B>
class Vector{};

And the partial specialization class I have is

template<MY_BOOL b>
class Vector<A,YES,B>{};

The compiler is complaining that A and B are undeclared identifiers and that the partial specialized Vector has too few arguments. Doesn't complain about 'YES' This confuses me because A and B were already defined in the primary template class. I shouldn't need to put them back in the parameter list of the partial specialized class because the point of that parameter list is to only have the variables that I want specialized.

  • Are A and B actual types in your partial specialization? Please add a Minimal, Complete, and Verifiable example. – NathanOliver Mar 5 at 20:57
  • @NathanOliver they're not like int or char but there purpose was to be passed in a different template struct. The keyword class should of dealt with this? – BrogrammerDude Mar 5 at 21:06
  • You can't do a specialization like that. A and B only apply to template<class A,MY_BOOL,class B> class Vector{};. In template<MY_BOOL b> class Vector<A,YES,B>{}; they do not exist. – NathanOliver Mar 5 at 21:07
  • @NathanOliver so in other words I have to include A and B in my template parameter list for the partial specialized template class? – BrogrammerDude Mar 5 at 21:09
  • Yes, but then it wouldn't be a partial specialization. Why are you trying to achieve here? – NathanOliver Mar 5 at 21:10
1

In

template<MY_BOOL b>
class Vector<A,YES,B>{};

Since A and B aren't specified, you get a compiler error. It is not going to use the A and B from the primary template, it will only use the types/value defined in the specialization.

Since you want a specialization for each of the enum values you can do that like

template<class A,MY_BOOL,class B>
class Vector {};

template<class A, class B>
class Vector<A, YES, B>{ /* YES stuff */ };

template<class A, class B>
class Vector<A, NO, B>{ /* NO stuff */ };

template<class A, class B>
class Vector<A, MAYBE, B>{ /* MAYBE stuff */ };

And now you have a specialization for each of the enumerations.

  • @BrogrammerDude It works fine here – NathanOliver Mar 5 at 21:30
  • if I were to implement member functions do I need to do anything fancy besides including the template parameter list above the member function in a separate .cpp file? – BrogrammerDude Mar 5 at 21:30
  • @BrogrammerDude You should not put the template in a cpp file. For all of the out of line member definitions you would nee something like template<class A, class B> return_type Vector<A, MAYBE, B>::function_name(parameters) {} – NathanOliver Mar 5 at 21:32
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A partial specialization for YES would look like:

template<class A, class B>
class Vector<A, YES, B>
{ ... };

The meaning of partial specialization is that you provide different template arguments than the base template and fill in the missing template parameters of the base template yourself.

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