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Can somebody explain why are those two specializations indistinguishable to the compiler (gcc 4.5.1 @ ideone)

template <typename... T> struct S;

template<typename A, typename B, typename... C>
struct S<A, B, C...> {
   int f() {return 1;}

template<typename... A, typename... C>
struct S< S<A...>, C...> {
   int f() {return 2;}

and when I try to instantiate S<S<a, b>, a, b> o2; compiler complains:

prog.cpp:20:21: error: ambiguous class template instantiation for 'struct S<S<a, b>, a, b>'
prog.cpp:6:22: error: candidates are: struct S<A, B, C ...>
prog.cpp:11:33: error:                 struct S<S<A ...>, C ...>
prog.cpp:20:21: error: aggregate 'S<S<a, b>, a, b> o2' has incomplete type and cannot be defined

And when the last specialization is changed to:

template<typename... A, typename B, typename... C>
struct S< S<A...>, B, C...> {
   int f() {return 2;}

everything works fine.

share|improve this question
I think you might add the code in this post as well, as it is very important to the question. – UncleBens Aug 8 '11 at 21:27
@UncleBens Code added. – Predrag Aug 8 '11 at 21:53
up vote 8 down vote accepted

My understanding of the issue:

typedef S<S<a, b>, c, d> S2;

Here S<a,b> matches the second specialization better. However, c, d is a better match for the remaining arguments of the first specialization (single arg + list vs list). Hence it is 1:1.

If you comment in B in the second specialization, then the second specialization matches better because it is more specialized for the first argument (S<...>) and the rest are equally good.

share|improve this answer
Nice explanation, +1! Much better than the mess I made. – Kerrek SB Aug 8 '11 at 21:57
Easy to understand. Thank you! – Predrag Aug 8 '11 at 21:58

I made a mess of this; it should be OK now, but credit is due to @UncleBens below who got it right (and should get the "accept").

Without the B in your third version, you have two partial specializations which are equally specific when you instantiate S<S<X,Y,Z>, T1, T2, T3>:

  • First PS: A = S<X,Y,Z>, B = T1, C... = T2, T3.
  • Second PS without B: A... = X,Y,Z, C... = T1, T2, T3.
  • Second PS with B: A... = X,Y,Z, B = T1, C... = T2, T3.

This does not establish comparable elements in the partial specialisation ordering!

Note that you can say template <typename ...> struct S; and template <typename A, typename ...B> struct S<A, B...>; and the second one is more specific than the first because it has more non-variadic parameters.

But on the other hand, without the B, when you say S<S<X,Y,Z>,T1,T2,T3>, then the first argument matches better in the second PS, but the remaining arguments match better in the first PS. With the B in place, though, the second PS is more specific.

Compare this to the partial specialization that is actually more specific:

template <typename ...A, typename B, typename ...C>
struct S<B, std::tuple<C...>, std::tuple<C...>> { /* ... */ };

Now it is clear how whether a given instance matches the specialization, or only the general form. The specialization has a fixed number of parameters (3), so it wins over another specialization with a variable number of arguments.

share|improve this answer
But my specializations are not <S<A...>, B, C...> and <S<A...>, C...>. They are <A, B, C...> and < S<A...>, C...> . – Predrag Aug 8 '11 at 21:22
This answer seems wrong, because in your opening example the second specialization seems more specialized than the first. It seems the rule is that A trumps A...: in OP's question, the second specialization matches the first argument better, but the first specialization matches the second argument better. Hence why it compiles if B is commented in. – UncleBens Aug 8 '11 at 21:26
@UncleBens: Yes, I noticed... one second, let me edit it – Kerrek SB Aug 8 '11 at 21:27
Edited, my first version was blatantly incorrect. Thanks for bearing with me! – Kerrek SB Aug 8 '11 at 21:37
@Kerrek SB I appreciate your time and effort. – Predrag Aug 8 '11 at 22:13

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