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I have two template functions:

template<class X> void foo(X a)
    cout << "Template 1" << endl;

template<class X> void foo(X *a)
    cout << "Template 2" << endl;

Now, if I define a specialization such as:

template<> void foo<>(int *a)
    cout << "Specialization 1" << endl;

will this specialization belong to template 1 or template 2. Also, does it matter, if I define the specialization before or after template 2?

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It is a especialization of template 2, as type X is int and the parameter is a pointer to type X. –  rbelli Aug 17 '13 at 0:28
@rbelli I have edited the question. What will be the outcome now? –  Kunal Aug 17 '13 at 0:32

1 Answer 1

up vote 2 down vote accepted

Replace X with int and see which of the primary template yield a matching signature:

template<class X> void foo(X a)


template <> void foo<int>(int)


template<class X> void foo(X *a)


template<> void foo<int>(int *)

So, it can only be a specialization of the second function. Since the function doesn't specialize the first overload, it is necessary to declare the second primary template before you define a specialization because the specialization can't specialize the first primary template.

If the template argument is not explicitly specified in the specialization, the relevant primary template is found using the normal argument deduction rules according to [temp.deduct.decl] paragraph 1:

In a declaration whose declarator-id refers to a specialization of a function template, template argument deduction is performed to identify the specialization to which the declaration refers. Specifically, this is done for explicit instantiations (14.7.2), explicit specializations (14.7.3), and certain friend declarations (14.5.4).

This argument deduction takes the partial ordering of the primary templates into account, i.e., it finds the second primary template. I didn't fall into the trap of reading the paragraph leading up to the limerick but the warning is real: I think you get into trouble if you change the order of the second primary template and the specialization! Beware the mentioned self-immolation warned about.

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I have edited the question. What will happen if it instead is template<> void foo<>(int *)? –  Kunal Aug 17 '13 at 0:35
Interesting - I wasn't aware that you can leave out the argument for the specialization. I would expect that it basically detects the primary template to specialize by the same resolution as selecting the proper overload, i.e., I would expect that it specializes the second primary template. I would need to research that in the standard, though. –  Dietmar Kühl Aug 17 '13 at 0:51
@DietmarKühl I have a question, why not the specialization could match template one by replace x with pointer of int, In another word, why this way has low priority to replacing x in template two with int? –  DarkHorse Aug 17 '13 at 1:04
@DarkHorse: The original question used template <> void foo<int>(int*) which can only be matched by the second primary template. When leaving out the first int, but primary templates can match and the specialized primary template is located using normal overload resolution and argument deduction which also finds the second primary template, though. –  Dietmar Kühl Aug 17 '13 at 1:11
@DarkHorse: When template argument deduction and overload resolution kicks in, the compiler has two choices: foo<int*>(int*) and foo<int>(int*). Each taken on their own do match. However, with both being present, overload resolution determines which one is a better match using partial ordering of function templates which is based on which one is more specialized: foo<int>(int*) is the more specialized version which is found. The rules for partial ordering for deduced function template overloads are complex enough to be a topic on themselves. –  Dietmar Kühl Aug 17 '13 at 1:43

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