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I'm getting an "internal compiler error" with this using GCC 4.9.2:

#include <type_traits>

template <typename T, typename, int, template <typename U, U, U> class>
struct Sort;

template <typename T, template <T...> class Z, T N, T... Is,
          template <typename U, U, U> class Comparator>
struct Sort<T, Z<N, Is...>, 0, Comparator> {
  template <T I>
  struct less_than : std::integral_constant<bool, Comparator<T, I, N>::value> {
  };
};

int main() {}

The error message states:

c:\ADandD>g++ -std=c++14 ComparatorAndSorterTGeneralized.cpp ComparatorAndSorterTGeneralized.cpp:254:80: internal compiler error: in tsubst, at cp/pt.c:11738

template<T I>
struct less_than : std::integral_constant<bool, Comparator<T,I,N>::value> {};
                                                                              ^

Please submit a full bug report, with preprocessed source if appropriate. See http://gcc.gnu.org/bugs.html for instructions.

The issue is the template <typename U, U, U> class Comparator being used. I've never tried this before. At first I tried the template <typename T, T, T> class Comparator, but that would not compile because of the template shadowing, so I knew that was illegal. And then changing it to U still did not compile, so I thought the whole idea is not allowed.

Update: Upon instantiating, this compiles in Visual Studio 2015 Preview:

#include <type_traits>

template <typename T, typename, int, template <typename U, U, U> class>
struct Sort;

template <typename T, template <T...> class Z, T N, T... Is,
          template <typename U, U, U> class Comparator>
struct Sort<T, Z<N, Is...>, 0, Comparator> {
  template <T I>
  struct less_than : std::integral_constant<bool, Comparator<T, I, N>::value> {
  };
};

template <int...>
struct index_sequence {};

template <typename T, T A, T B>
    struct LessThan : std::integral_constant < bool,
    A<B> {};

enum { QuickSort, MergeSort, InsertionSort };

int main() {
  Sort<int, index_sequence<4, 5, 6, 1, 2, 7>, QuickSort, LessThan> quickSort;
}
20
  • 30
    "Internal compiler error" is a bug in the compiler, by definition. Regardless of the answer to your question, please submit a bug report.
    – Nemo
    Apr 9 '15 at 20:33
  • 5
    compiles in clang++, internal compiler error in both gcc4.9 and gcc5
    – vsoftco
    Apr 9 '15 at 20:35
  • 24
    To the people downvoting: Regardless of him submitting a bug report, the question is still valid: If it compiles on clang or VS it doesn't necessarily mean the syntax is legal as per the standard. Apr 9 '15 at 20:56
  • 3
    @CássioRenan Correct, but it's bits of code with a "is this valid?" question added to it, without any reasoning why it might be or not be valid, or why it's difficult to determine, or what a non-buggy compiler says about it (initial version of the question). That would normally count as sufficient lack of research effort for me to downvote. Because of the update that covers VS2015 preview behaviour, I'll refrain from voting, but I actually still don't think it's a very good question.
    – user743382
    Apr 9 '15 at 22:40
  • 4
    @hvd yes, of course. You make a good point. Still, maybe the OP simply didn't have the means or basic knowledge to know where to start looking(I wouldn't. What to look for? template with type and value of that type as parameters? not a friendly question for a search engine). IMHO, giving more information doesn't always depend solely on effort. Apr 10 '15 at 1:53
10
+50
template <typename T, typename, int, template <typename U, U, U> class>
  struct Sort;  

This is perfectly legal.

It could be redeclared like this, giving names to all the parameters:

template <typename T, typename T2, int I, template <typename U, U X, U Y> class TT>
  struct Sort;  

It declares a class template Sort which has four template parameters, the type parameter T, a second type parameter T2 (unnamed in the original), a non-type template parameter I, and a template template parameter TT.

The template template parameter TT must a class template taking three template parameters, U is a type parameter and the second and third (X and Y) are non-type template parameters of type U.

A suitable argument for the fourth template parameter of Sort might be something like:

template <typename T, T t1, T t2>
  class Foo
  { static const bool value = t1 < t2; };

which would be instantiated like:

Foo<int, 1, 2> fi;

or

Foo<char, 'a', 'b'> fc;

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