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In the latest template constraints paper a new toolset to constrain template arguments is presented. Also, in C++14 variable templates are provided. Variable templates allow the definition of type parameterized constants among other things.

There is no mention of how these feature could interact. Using the canonical example of pi we could have this:

template<Integral T>
  constexpr double pi(3.141592653589793238);

template<Floating_point T>
  constexpr T pi(3.1415926535897932384626433832795029L);

This would enforce the C/C++ numeric conversion from integral to double. It would also prevent instantiation with totally irrelevant types. (Looking at this, we might want to replace Floating_point with something that requires a floating point ctor in order to support complex.)

Did I miss something in one of the papers or is this in the works? Maybe it comes for free and is not worth mentioning?

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Retagged c++1y in accordance with this meta discussion. –  Casey Jul 25 '13 at 18:33
    
In the first example, you don't use the Integral template type, and double isn't an integral, anyway. It looks like you're trying to specialise a constexpr template. Is that what you want? How does this relate to constraints? Do you mean Concepts? Concepts Lite is in C++14, but agains this doesn't relate to your example. –  cdmh Jul 25 '13 at 19:00
    
I was trying to specialize the variable template for integral types to promote to double (this is what math functions in the library do). Maybe I messed up the syntax. I wanted Integral to dispatch to this specialization - not to use it. –  emsr Jul 25 '13 at 19:44
1  
@cdmh, Concepts Lite is not in C++14 –  Jonathan Wakely Jul 25 '13 at 23:22
    
@JonathanWakely really? Thanks for clarifying, I thought they made it. –  cdmh Jul 26 '13 at 6:20

1 Answer 1

In the latest version of the proposal (N4040, dated May 2014), the answer would be NO:

5 A variable template has the following restrictions:

— The template must be unconstrained.

— The declared type must be bool.

— The declaration must have an initializer.

— The initializer shall be a constraint-expression.

[ Example:

template<typename T>
concept bool D1 = has_x<T>::value; // OK

template<typename T>
concept bool D2 = 3 + 4;           // Error: initializer is not a constraint

template<Integral T>
concept bool D3 = has_x<T>::value; // Error: constrained concept definition

— end example ]

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@emsr is this answer in its current form acceptable, or do i need to address some issues with it? –  TemplateRex Jul 29 '14 at 17:47

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