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In a class that mixes CRTP, variadic templates, metaprogrammation and operator overloading, I would like to compare two variadic unsigned int templates parameters in order to do some static assertion. I think that helper structs would be a good way to do this but I don't know exactly how to do it. I think about something of the form :

template<unsigned int... TDIM, unsigned int... TDIM0> struct HelperCheckDimensions
{
    static const bool ok = /* SOMETHING */
};

where TDIM and TDIM0 are the two parameters I want to compare. It will allow me to type :

static_assert(HelperCheckDimensions<TDIM..., TDIM0...>::ok, "ERROR : Dimensions are different !");

I want the result to be true only if sizeof...(TDIM)==sizeof...(TDIM0) AND TDIM[0] == TDIM0[0], TDIM[1] == TDIM0[1], ..., TDIM[n] == TDIM0[n].

How to do that ?

Thank you very much.

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3 Answers 3

up vote 5 down vote accepted

I would say a class variadic-template of this form doesn't make sense:

template<unsigned int... TDIM, unsigned int... TDIM0> 
struct HelperCheckDimensions
{
    //..
};

It doesn't make sense, because if I write this:

HelperCheckDimensions<1,2,3,4,5,6> z;

then what TDIM and TDIM0 should be? How the compiler should do partition of the arguments?

Is this correct:

TDIM = (1,2)
TDIM0 = (3,4,5,6)

Or is this correct:

TDIM = (1)
TDIM0 = (2,3,4,5,6)

Or this:

TDIM = (1,2,3,4)
TDIM0 = (5,6)

Hope that helps why it doesn't make sense.


From your comment:

Very good point ! But my question remains open... Maybe something of the form template<unsigned int... TDIM, typename TFAKE, unsigned int... TDIM0> would work ? What is the best solution?

Well the template definition of this form is not allowed by the Standard:

template<unsigned int... TDIM, typename TFAKE, unsigned int... TDIM0>

I don't know the reasons why the Standard doesn't allow it even though it makes sense to me, at least in this case (maybe it adds unworthy complexity to the language). According to the Standard, the template-parameter-pack must be the last parameter of a template definition.

If you compile the above code in GCC, it gives this error:

error: parameter pack 'TDIM' must be at the end of the template parameter list

Hope that helps.

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2  
Very good point ! But my question remains open... Maybe something of the form template<unsigned int... TDIM, typename TFAKE, unsigned int... TDIM0> would work ? What is the best solution ? –  Vincent Aug 10 '12 at 5:58
    
@Vincent: See the edit in my answer. –  Nawaz Aug 10 '12 at 6:29
1  
I think they did not allow it partly because this may have caused errors that they could not think of back then. A security in a sense, that may be lifted up later if they think there really is no problem. It would not be the first time/ –  Morwenn Aug 10 '12 at 7:28

Assuming that your primary template looks like this:

template <int ...> struct Foo;

You can now make a Foo comparator:

template <typename, typename> struct FooCmp : std::false_type { };

template <int A, int B, int ...As, int ...Bs>
struct FooCmp<Foo<A, As...>, Foo<B, Bs...>>
: std::integral_constant<bool, A == B && FooCmp<Foo<As...>, Foo<Bs...>>::value>
{ };

template <> struct FooCmp<Foo<>, Foo<>> : std::true_type { };

Usage:

typedef Foo<1, 3, 4> F1;
typedef Foo<9, 5, 1> F2;

template <typename S, typename T>
std::enable_if<FooCmp<S, T>::value> do_magic(S s, T t) { /* ... */ }

do_magic(F1{}, F2{});
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Is this allowed : template <int A, int B, int ...As, int ...Bs>? GCC says, parameter pack must be at the end of the template parameter list –  Nawaz Aug 10 '12 at 6:31
1  
@Nawaz that's valid since packs appears in partial specialization –  Mr.Anubis Aug 10 '12 at 6:34
1  
@Mr.Anubis: With packs the only sensible thing you can do is unpack and treat them as head plus tail. –  Kerrek SB Aug 10 '12 at 14:55

Primary class templates can't have two parameter packs , you need to use some pack wrapper

template<unsigned int...T> struct intPack;
template<typename T, typename Y> struct HelperCheckDimensions;

template<unsigned int lhs, unsigned int...T, unsigned int rhs, unsigned int...Y> struct HelperCheckDimensions<intPack<lhs,T...>, intPack<rhs, Y...>>
{
static const bool value = lhs==rhs && HelperCheckDimensions<intPack<T...>, intPack<Y...>>::value;
};
template<unsigned int lhs, unsigned int rhs> struct HelperCheckDimensions<intPack<lhs>, intPack<rhs>>
{
static const bool value = lhs==rhs;
};

Test: http://liveworkspace.org/code/200e10548f3fc589f39401ca0b22e7c8

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