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After few weeks break, I'm trying to expand and extend my knowlege of templates with the book Templates – The Complete Guide by David Vandevoorde and Nicolai M. Josuttis, and what I'm trying to understand at this moment is explicit instantiation of templates.

I don't actually have a problem with the mechanism as such, but I can't imagine a situation in which I would like or want to use this feature. If anyone can explain that to me I will be more than grateful.

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2 Answers 2

up vote 13 down vote accepted

Directly copied from http://msdn.microsoft.com/en-us/library/by56e477%28VS.80%29.aspx:

Explicit instantiation lets you create an instantiation of a templated class or function without actually using it in your code. Because this is useful when you are creating library (.lib) files that use templates for distribution, uninstantiated template definitions are not put into object (.obj) files.

(For instance, libstdc++ contains the explicit instantiation of std::basic_string<char,char_traits<char>,allocator<char> > (which is std::string) so every time you use functions of std::string, the same function code doesn't need to be copied to objects. The compiler only need to refer (link) those to libstdc++.)

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3  
Yup, the MSVC CRT libraries have explicit instantiations for all the stream, locale and string classes, specialized for char and wchar_t. The resulting .lib is over 5 megabytes. –  Hans Passant Feb 28 '10 at 13:35
    
How does the compiler know that the template has been explicitly instantiated elsewhere? Isn't it going to just generate the class definition because it's available? –  user123456 Mar 4 '10 at 6:58
    
@STing: If the template is instantiated, there will be an entry of those functions in the symbol table. –  KennyTM Mar 4 '10 at 7:43
    
@Kenny: You mean if it's already instantiated in the same TU? I would assume any compiler is smart enough not to instantiate the same specialization more than once in the same TU. I thought the benefit of explicit instantiation (with regards to build/link times) is that if a specialization is (explicitly) instantiated in one TU, it will not be instantiated in the other TUs in which it is used. No? –  user123456 Mar 4 '10 at 15:50
1  
@Kenny: I know about the GCC option to prevent implicit instantiation, but this is not a standard. As far as I know VC++ has no such option. Explicit inst. is always touted as improving compile/link times (even by Bjarne), but in order for it to serve that purpose, the compiler must somehow know to not implicitly instantiate templates (e.g., via the GCC flag), or must not be given the template definition, only a declaration. Does this sound correct? I'm just trying to understand why one would use explicit instantiation (other than to limit the concrete types). –  user123456 Mar 4 '10 at 17:41

If you define a template class that you only whant to work for a couple of explicit types.

Put the template declaration in the header file just like a normal class.

Put the template definition in a source file just like a normal class.
Then at the end of the source file explicitly instantiate only the version you want to be available.

Silly example:

// StringAdapt.h
template<typename T>
class StringAdapter
{
     public:
         StringAdapter(T* data);
         void doAdapterStuff();
     private:
         std::basic_string<T> m_data;
};
typedef StringAdapter<char>    StrAdapter;
typedef StringAdapter<wchar_t> WStrAdapter;

Source:

// StringAdapt.cpp
#include "StringAdapter.h"

template<typename T>
StringAdapter<T>::StringAdapter(T* data)
    :m_data(data)
{}

template<typename T>
void StringAdapter<T>::doAdapterStuff()
{
    /* Manipulate a string */
}

// Explicitly instantiate only the classes you want to be defined.
// In this case I only want the template to work with characters but
// I want to support both char and wchar_t with the same code.
template class StringAdapter<char>;
template class StringAdapter<wchar_t>;

Main

#include "StringAdapter.h"

// Note: Main can not see the definition of the template from here (just the declaration)
//       So it relies on the explicit instantiation to make sure it links.
int main()
{
  StrAdapter  x("hi There");
  x.doAdapterStuff();
}
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Is it correct to say that if the compiler has the entire template definition (including function definitions) in a given translation unit, it will instantiate a specialization of the template when needed (regardless of whether that specialization has been explicitly instantiated in another TU)? I.e, in order to reap the compile/link-time benefits of explicit instantiation, one must only include the template declaration so that the compiler cannot instantiate it? –  user123456 Mar 4 '10 at 17:28
    
@user123456: Probably compiler dependent. But more than likely true in most situations. –  Loki Astari Nov 3 '11 at 21:45
1  
is there a way to make the compiler use this explicitly instantiated version for the types you pre-specify, but then if you try to instantiate the template with a "weird/unexpected" type, have it work "as normal", where it just instantiates the template as needed? –  David Doria Sep 24 '12 at 0:53
    
@DavidDoria: Yes.With a slight modification to the above. Move the method definitions into a file name StringAdapt.tpp. Then in the source file #include "StringAdapt.tpp" rather than "StringAdapt.h". Your normal file StringAdapt.cpp will then create explicit template instanciations. Any file that needs the method definitions includes both StringAdapt.h and StringAdapt.tpp. –  Loki Astari Sep 24 '12 at 4:29
    
what would be a good check/test to make sure the explicit instantiations are actually being used? I.e. it is working, but I am not fully convinced that it is not just instantiating all of the templates on demand. –  David Doria Sep 24 '12 at 13:00

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