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I have the following code:

template<typename T>
void c(T in) {
    cout << "Template c(" << in << ")" << endl;
void c<>(int* in) { 
        cout << "Template specialization b(" << in << ")" <<endl;
template<typename T>
void c(T* in) {
        cout << "Template for pointers c(" << in << ")" <<endl;
int i = 8;

Can someone explain me why in the following example compiler choose function #3, but when I change the order of functions #2 and #3, then compiler choose function #2?

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gotw.ca/publications/mill17.htm –  catscradle Sep 1 '13 at 11:28
@catscradle Nice link, but it doesn't explain the effects of changing the definitions order. –  Lorenzo Donati Sep 1 '13 at 12:02
@LorenzoDonati: it does, try and re-read it :) –  Matthieu M. Sep 1 '13 at 13:23
@MatthieuM. Ok. I reread it and felt dumb for a while :). It is clear that two base template overloads and specializations are ignored until a base is selected. In our situation the base templates are 1 and 3, while 2 is a specialization of ... 2 or 3? My template-fu is failing me now! The only explanation I find is that 2 is seen as a specialization of either 1 or 3 depending on its position relative to 2 and 3. Is my inference right? –  Lorenzo Donati Sep 1 '13 at 13:49
@MatthieuM.The explanation is in Dietmar's answer (I commented before I read it - sorry for the noise). Still I couldn't find the place in the doc linked by catscradle where it explains (or hints at) this order dependency. I'd really appreciate a more precise pointer. –  Lorenzo Donati Sep 1 '13 at 14:22

1 Answer 1

up vote 12 down vote accepted

The compiler first chooses the primary template and only then determines which specialization to use. That is, in your case the compiler always chooses the second primary template, i.e., #3.

However, since you didn't specify the template argument when specializing the function template, your specialization specializes a different primary template depending on its location: with the given order, it specializes the first primary template, when you exchange the order of #2 and #3 it specializes the the second primary template. In 14.7.3 [temp.expl.spec] paragraph 7 the standard has to say the following about the situation

... When writing a specialization, be careful about its location; or to make it compile will be such a trial as to kindle its self-immolation.

If you wanted to control which primary template the specialization actually specializes, you would specify the template arguments in the specialization:

template <> void c<int*>(int* in) { ... } // specializes the first primary
template <> void c<int>(int* in)  { ... } // specializes the second primary
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This quote has got to be an elaborate joke. –  jrok Sep 1 '13 at 12:29
@jrok: Of course, it is primarily a joke! This limerick was sneaked into normative text of the standard in Morristown, i.e., at the meeting where the FDIS for C++98 was voted out. The person responsible for the template section had stated that no jokes will be allowed, i.e., it took some engineering to make it happen (just read the rest of this paragraph to see what was done to hide it). –  Dietmar Kühl Sep 1 '13 at 12:33
@DietmarKühl: best Standard quote ever! –  Matthieu M. Sep 1 '13 at 13:28
@MatthieuM. It is even a limerick –  TemplateRex Sep 1 '13 at 14:17
@DietmarKühl Aha, so repeating the word template 21 time wasn't a technical neccesity? :) –  jrok Sep 1 '13 at 14:53

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