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I have found this piece of bogus code (contrived example below):

template <int I, typename T>
struct foo
    static int bar()
        return 1;

template <std::size_t Index, typename T>
struct foo<Index, T*>
    static int bar()
        return 2;

Please note that specialization uses different type (by mistake). Surprisingly it compiles without any errors (or warnings) with both GCC 4.8.1 and Clang 3.4. But what is even more strange for GCC line foo<0, int*>::bar() results in 1, but Clang gives 2. What is going on? Is it still considered as a specialization by the standard?

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The specialization size_t should be an error (int != size_t) – Dieter Lücking Sep 17 '13 at 17:36
So both compilers are wrong? Sounds quite... improbable ;-) – magor Sep 17 '13 at 17:40
Why do you guys think it's a specialization at all? – us2012 Sep 17 '13 at 17:46
@DieterLücking You are able to write template <bool Cond, typename T> struct foo<Cond, T*>, it's converted to int. Why are you not able to write size_t? – ruslo Sep 17 '13 at 17:47
@us2012 If it's not specialization, then it's must be compiler error class re-definition. Am I wrong? – ruslo Sep 17 '13 at 17:48
up vote 2 down vote accepted

Gcc is wrong, because you simply can't call this specialization. Just remove primary template definition:

template <int I, typename T>
struct foo;

template <std::size_t Index>
struct foo<Index, int*> {
  static int bar() {
    return 2;

int main() {
  std::cout << foo<std::size_t(0), int*>::bar() << std::endl; // nope, not work
  std::cout << foo<0, int*>::bar() << std::endl; // nope, not work

See live example. And this code must report ambiguous partial specialization, but it's not (for gcc). Clang report "ambiguous".

PS I argee, that this part is not covered enough by standard.


clang in this situation won't work with enums, example.

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I am almost positive that it is a GCC bug, I will fill a bug report later on. Meanwhile I think I should accept your answer :-) And I will keep you posted – magor Sep 18 '13 at 10:19

The restrictions on partially specializing a class template on a non-type template argument 14.5.5 [temp.class.spec] paragraph 8 list the following restriction:

A partially specialized non-type argument expression shall not involve a template parameter of the partial specialization except when the argument expression is a simple identifier.

The argument expression using a size_t involves a conversion to int (size_t is unsigned) and is, thus, not a simple identifier.

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You forget: except when the argument expression is a simple identifier. So it's simple identifier (?) – ruslo Sep 17 '13 at 18:27
@ruslo: It sure looks like a simple identifier but actually is int(Index) which doesn't seem to be a simple identifier anymore. – Dietmar Kühl Sep 17 '13 at 18:39
2.11 Identifiers An identifier is an arbitrarily long sequence of letters and digits -- I think identifier is not a type of identifier, so technically it's simple identifier (: – ruslo Sep 17 '13 at 18:46
@ruslo: that maybe true for the identifier but the restriction clearly talks about the expression and that has to become int(Index) as the type of the entity identified by the identifier is std::size_t which is guaranteed not to be int. – Dietmar Kühl Sep 17 '13 at 19:01
Then I repeat my comment from above. If I change std::size_t to bool, then template <bool Cond, typename T> struct foo<Cond, T*> is incorrect specialization, because involve bool to int conversion. Right? – ruslo Sep 17 '13 at 19:12

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