2

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edit

This bug seems to be the same as this one:

MSVC rejects the following code:

template <template <typename T, typename T::mytype x> class X>
struct z
{};

template <typename T, typename T::mytype xx>
struct x
{};

z<x> zz;

error C3201: the template parameter list for class template 'x' does not match the template parameter list for template parameter 'X'

But class template x has the same set of template parameters as parameter X does.

Hell! This bug report is from april 2012 ?!

With

Status: Closed as Deferred

:(

Microsoft, I am disappoint TT

edit of edit

In my case (below), I can hack my way to do what I want, but it's ugly:

//Library code
struct Boundary {
    double sup, inf;
};

template <
    class UserBoundaries, 
    template <size_t, bool...> class LocalInfo, 
    size_t hack>
struct Space_LocalParameters : LocalInfo<hack> {};


//User code
struct Boundaries_Problem7 {
    Boundary b1, b2, b3;
};

template <size_t, bool...>
struct LocalInfo_Problem7 {};

template <size_t hack, bool... args>
struct Problem7_Functions 
: Space_LocalParameters < Boundaries_Problem7, LocalInfo_Problem7, hack, args...> {};

int main() {}

Use:

//Compute the offset of member b2 in Boundaries_Problem7
const size_t hack = (size_t)(&((Boundaries_Problem7*)0)->b2);

if (...)
    problem.functions[k].SetFunction(&Problem7_Functions<hack, true, false>::f);
else if (...) 
    problem.functions[k].SetFunction(&Problem7_Functions<hack, false, true>::f);
else problem.functions[k].SetFunction(&Problem7_Functions<hack, false, false>::f);

//Later in that function
if (boundary_Inf) {
    value += this->points[0].coef 
             * ((Boundary*)((char*)&domain.boundaries + hack))->inf;
}
if (boundary_Sup) {
    value += this->points[N-1].coef 
             * ((Boundary*)((char*)&domain.boundaries + hack))->sup;
}

Is the compiler allowed to change the offset of a member during optimization ?

end of edit

New question

The following compiles fine on http://coliru.stacked-crooked.com/a/be088e06861f9349

//Library code
struct Boundary {};

template <
    class UserBoundaries, 
    template <Boundary UserBoundaries::*> class LocalInfo, 
    Boundary UserBoundaries::*m_ptr>
struct Space_LocalParameters : LocalInfo<m_ptr> {};


//User code
struct Boundaries_Problem7 {
    Boundary b1, b2, b3;
};

template <Boundary Boundaries_Problem7::*m_ptr>
struct LocalInfo_Problem7 {};

template <Boundary Boundaries_Problem7::*ptr>
struct Problem7_Functions 
: Space_LocalParameters < Boundaries_Problem7, LocalInfo_Problem7, ptr> {}; // <-- C3201


int main() {}

But visual studio 2013 gives me this error:

error C3201: the template parameter list for class template 'LocalInfo_Problem7' does not match the template parameter list for template parameter 'LocalInfo'

Is this a VS compiler bug ? Or is my code wrong ?

I wrote a bug report here https://connect.microsoft.com/VisualStudio/feedback/details/933984/c-visual-studio-2013-compiler-bug-template-template-pointer-to-member-issue

If this is a bug, how could I get this to work ?

Thanks for your help.

Old question

I have some troubles with a somewhat complex template "typedef".

Simplifying the problem as much as possible, I came up with this:

template <class A, template <A*> class B, A* ptr>
struct Foo : B<ptr> {};

template <class, class AA, template <AA*> class BB, AA* ptr>
using Bar = Foo<AA, BB, ptr>;                           //  <-- C3201

visual studio 2013 gives me: error C3201: the template parameter list for class template 'BB' does not match the template parameter list for template parameter 'B'

I don't see what is wrong.

Foo<AA, BB, ptr> "expands to" template <class AA, template <AA*> class BB, AA* ptr> struct Foo : BB<ptr> {}

In theory, if we define the follwing (I did not actually try to compile the following):

class MyClass {} myClass_instance;
template <MyClass*> class MyTemplateClass {};

Then

Bar<whatever, MyClass, MyTemplateClass, &myClass_instance> 

should be an alias for

Foo<MyClass, MyTemplateClass, &myClass_instance> : MyTemplateClass<&myClass_instance>

This looks ok to me.

Curiously, the two following variations compile fine:

1/ Changing template <A*> and template <AA*> with template <Z*>

class Z;

template <class A, template <Z*> class B, A* ptr>
struct Foo : B<ptr> {};

template <class, class AA, template <Z*> class BB, AA* ptr>
using Bar = Foo<AA, BB, ptr>;                          

This workaround let my program run fine, but this defeat the purpose my template approach.

Or 2/ Removing the first template parameter of Bar

template <class A, template <A*> class B, A* ptr>
struct Foo : B<ptr> {};

template <class AA, template <AA*> class BB, AA* ptr>
using Bar = Foo<AA, BB, ptr>;                        

So what is the mismatch mentioned by the compiler?

How comes removing the first template parameter of Bar solves the problem ?

Thanks for your help.

  • 1
    It compiles fine with GCC and Clang, so maybe it's a bug in VS? But note that I defined MyTemplateClass as it does fail when it is only declared (as you showed above!). Maybe you can provide a minimal but complete example? – Daniel Frey Jul 31 '14 at 21:49
  • @DanielFrey Yes MyTemplateClass should be defined. I edited y question and added "{}". Thanks you for the link, I will use this to test for VS strange behaviors in the futur. So this seems to be a VS bug :( – ThreeStarProgrammer57 Jul 31 '14 at 22:07
  • 1
    Looks like this one? – Praetorian Aug 1 '14 at 5:38
  • 1
    @TõnuSamuel Visual Studio, the product that contains Microsoft's C++ compiler. – user743382 Aug 1 '14 at 8:09
  • 1
    @TõnuSamuel I edited the title. – ThreeStarProgrammer57 Aug 1 '14 at 8:29

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