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Why does the following code not work when compiling with:

$ g++ temp_main.cpp temp_spec.cpp
/tmp/ccirjc3Y.o:temp_spec.cpp:(.text+0x100): multiple definition of `my::say()'
first defined here collect2: ld returned 1 exit status

I'm trying to have specialization of static function only when using paramteter 0.


#ifndef temp_gen_h
#define temp_gen_h

#include <iostream>

template<int N>
struct my
   static void say();

template<int N>
void my<N>::say()
   std::cout << "generic " << N << std::endl;



#ifndef temp_spec_h
#define temp_spec_h

#include <iostream>

#include "temp_gen.h"

void my<0>::say()
   std::cout << "specialized " << 0 << std::endl;



#include "temp_spec.h"


#include "temp_gen.h"

int main(int argc, char* argv[])
   my<0>::say();  //should say "specialized 0"
   my<1>::say();  //should say "generic 0"
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3 Answers 3

up vote 2 down vote accepted

From within your main.cpp, you did not specialize the template class, this is because you don't include the temp_spec.h.

As Vaughn Cato pointed out (see comments), you should move the definition of the specialized method (which is no template method anymore), to temp_spec.cpp.

I think (but I'm not an expert at this) you should always put specialization directly below the generic template (in the same header file), because whenever you include this, you also want the specialized ones to be defined, otherwise you will be confused when such errors happen. You can, however, just include the temp_spec.h at the bottom of temp_gen.h.

Also, you don't need the .cpp files for the template headers, as there will never be any code to be compiled separately (template classes are always compiled at the other .cpp file which uses it, and I think duplicates will be removed when linking, causing trouble at link time again when in one case you did not specialize it, one time you did) [This paragraph only applies to the generic template class, not to (fully) specialized classes, as they require some code in their own compilation unit, see comments and the edit above.]

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The reason why is that the compiler instantiates the template in the object file in which it is used; the linker merely goes through and merges the duplicate instances. Here, the linker is confused because an instance of my<0>::say() shows up in two different object files and they do not match. –  Mike DeSimone Oct 12 '12 at 13:42
@MikeDeSimone Oh, I just added this before I read your comment ;) –  leemes Oct 12 '12 at 13:43
Not just template classes, but anything templated. And the rule is that the specializations only need to be after the template declaration. Thus you could define template<> void my<0>::say() {...} before template<int N> void my<N>::say() {...} so long as both are after template<int N> class my {... static void say(); ...} –  Mike DeSimone Oct 12 '12 at 13:46
@leemes: It is a good idea to put the class template and the related specializations together. Some specializations may not be related though. For example with traits-style templates. It's just that if you do put a related specialization in the same header file, and it is an explicit specialization, then only the declaration should be in the header file, or it should be inline. –  Vaughn Cato Oct 12 '12 at 14:22
@omittones: That's right. –  Vaughn Cato Oct 13 '12 at 14:42

I believe that since your template specialization's implementation is in the header you'll need to mark it inline so the compiler/linker know you're allowed to violate the one definition rule.

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I put inline in front of say implementations but the program when invoked outputs generic 0, generic 1, and it should be specialized 0, generic 1 –  omittones Oct 12 '12 at 13:36
I thought one-definition-rule is already allowed to be violated when defining some template stuff? Because it needs to be defined for all compilations separately (for the template definition is not known for which types T it has to be compiled before we really use it for a specific type), and merged on link time. This is at least how I understand how it works... –  leemes Oct 12 '12 at 13:48
@omittones: Since you aren't including temp_spec.h in temp_main.cpp, the specialization is not visible, so the main function uses the generic definition instead. –  Vaughn Cato Oct 12 '12 at 14:29

Using the n3337 version of the Standard (emphasis mine):

14.7.3 Explicit specialization [temp.expl.spec]

6/ If a template, a member template or a member of a class template is explicitly specialized then that specialization shall be declared before the first use of that specialization that would cause an implicit instantiation to take place, in every translation unit in which such a use occurs; no diagnostic is required.

Because in main the specialization of my<0>::say is not visible, implicit instantiation occurs and you end up in the case above: no diagnostic required (from the compiler).

Note that a specialization may only be declared after its generic counterpart has been declared.

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