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Inspired by this question, i'm wondering if there is some compile-time check one can introduce to detect if two given template instantiations:

template <typename T>
class Templ...

typedef Templ<std::string> stringInstance;
typedef Templ<double> doubleInstance;

are constructed from the same definition, or if they are built from different specializations of the Templ template

so basically the hypothetical template function will behave like this:

template <typename T>
class Templ
{}

template <>
class Templ<std::string>
{}

template <>
class Templ<double>
{}

template <typename T1,typename T2>
class Belong_To_Same_Templ_Definition
{}

//tests
typedef Templ<std::string> stringInstance;
typedef Templ<double> doubleInstance;
typedef Templ<int> intInstance;
typedef Templ<char> charInstance;

assert( Belong_To_Same_Templ_Definition< intInstance , charInstance >::value == true);
assert( Belong_To_Same_Templ_Definition< intInstance , doubleInstance >::value == false);
assert( Belong_To_Same_Templ_Definition< stringInstance , doubleInstance >::value == false);

is possible to create this kind of metafunction?

share|improve this question
1  
I like this question, but I'm interested to know what the application(s) of such a facility might be, if it is even possible. – Component 10 Jan 9 '13 at 18:37
1  
@Component10, look at the linked question; this would detect when such a cast is safe or not. The cast is safe as long as no specialization exists for a const qualification of the parameter type – lurscher Jan 9 '13 at 18:39
    
Understood - I can see how this could be useful. – Component 10 Jan 9 '13 at 18:45
1  
@lurscher Actually it wouldn't be safe to do so, because the class could contain an instance of another template class which is specialised for const types, no? – Seth Carnegie Jan 9 '13 at 18:47
1  
I suspect the problem is you are doing relatively simple reasoning about a Turing complete language without taking into account its Turing completeness. Belong_To_Same_Templ_Definition doesn't deduce much of anything useful, given how powerful templates are in C++. – Yakk Jan 9 '13 at 19:13
up vote 3 down vote accepted

It seems unlikely, to be honest (although I can't definitively rule out a cunning trick).

There is no first-class identity for a given specialization (outside the type arguments that select it), to compare.

So, you could make it work with your own templates, if you want, but you can't write an ad-hoc inference for existing templates.

Consider also that it wouldn't work anyway, in the sense that it couldn't tell whether two instantiations have a compatible layout: even if Templ<int> and Templ<char> are instantiated from the same template code, with no specialization, that code can use traits classes which are specialied.

share|improve this answer
    
so, i'm still trying to figure out a way to make sure my cast is safe... it seems that is not possible using compile-time assertions then – lurscher Jan 9 '13 at 19:49
    
@lurscher I think it's impossible to make sure the cast is safe for an arbitrary template. You'll have to make a new vector and move/copy the elements into it. – Seth Carnegie Jan 9 '13 at 19:57
    
i know, you are probably right, but it feels so wasteful, if only the std:vector would support this with some std::vector<const T>& as_vector_of_consts() – lurscher Jan 9 '13 at 20:06
1  
I agree, but I think the solution is to mix vector<T> with vector<T> const & (and appropriate const iterators etc.) instead of vector<T> and vector<const T> – Useless Jan 10 '13 at 9:31

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