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I know i'm missing something easy here but I've got a templated member function of a class which I've specialised.

MyClass
{
    template<typename T> T GetTFromVariable(shared_ptr<TOtSimpleVariable> v, string s);
}

template<typename T>
T MyClass::GetTFromVariable(shared_ptr<TOtSimpleVariable> v, string s)
{
    throw std::runtime_error("Don't know how to convert " + ToString(v->GetString()));
}

template<>
int MyClass::GetTFromVariable<int>(shared_ptr<TOtSimpleVariable> v, string s)
{
    return v->GetInteger();
}

template<>
string MyClass::GetTFromVariable<string>(shared_ptr<TOtSimpleVariable> v, string s)
{
    return v->GetString();
}

// etc for other specialisations.

This is defined in my header file (as templates should be) but when I go and compile I get a bunch of mutliply defined symbols, a representative such error is:

     OtCustomZenith_logic.lib(PtPathOutput.obj) : error LNK2005: "public: class std::basic_string<char,struct std::char_traits<char>,class std::allocator<char> > __thiscall MyClass::GetTFromVariable<class std::basic_string<char,struct std::char_traits<char>,class std::allocator<char> > >(class boost::shared_ptr<class TOtSimpleVariable>,class std::basic_string<char,struct std::char_traits<char>,class std::allocator<char> >)" (??$GetTFromVariable@V?$basic_string@DU?$char_traits@D@std@@V?$allocator@D@2@@std@@@CommandProperties@@QAE?AV?$basic_string@DU?$char_traits@D@std@@V?$allocator@D@2@@std@@V?$shared_ptr@VTOtSimpleVariable@@@boost@@V12@@Z) already defined in TableFareSystem_test.obj

I can fix it by inlining the methods but I don't think that should be necessary... what did I forget?

EDIT: I'm using Visual Studio 2010

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What toolchain are you using? GCC? Visual something? If GCC, what do the build and link lines look like? –  Mike DeSimone Dec 15 '10 at 5:43

3 Answers 3

up vote 14 down vote accepted

As Alf noted, the full specialization is no longer a template. However, I am not sure it has to be defined inline. You should also be able to split the declaration and definition.

I.e. In your header have:

template<> 
int MyClass::GetTFromVariable<int>(shared_ptr<TOtSimpleVariable> v, string s);

and in the implementation have:

template<>
int MyClass::GetTFromVariable<int>(shared_ptr<TOtSimpleVariable> v, string s)
{
    return v->GetInteger();
}

I also had thought that by rights the templated definition should also be explicitly inline (I always have done so) but would not be too surprised if a given compiler was lax in applying the ODR for templates. I'd be interested to see the standard reference that states otherwise.

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1  
I'm sorry about the imprecise wording. I was only talking about the OP's code as it were/is presented, with the definition in the header file. Thanks for clarifying! Cheers, –  Cheers and hth. - Alf Dec 15 '10 at 21:36

The full specialization is no longer a template. It's a concrete function. As such it needs to be (implicitly or explicitly) declared inline. The easiest is to add that keyword before the return type specification.

That said, the presented code does not correspond to your error message.

Your error message talks about return type std::string, not return type int.

Cheers & hth.,

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"Your error message talks about return type std::string, not return type int." ... which means it's using the first (general) template, which returns type T (in this case, std::string). –  Mike DeSimone Dec 15 '10 at 5:46
    
@Mike: no, it means the code presented does not match the error message. i could guess that the OP has several explicit specialiations, not just one, and that he selected an arbitrary error message. but it would just be a guess. i'm saying, when u seek help, try to be precise, don't introduce irrelevant issues. –  Cheers and hth. - Alf Dec 15 '10 at 5:49
    
Thanks @alf, you were correct and I've updated the question to more accurately reflect the problem. –  Jamie Cook Dec 15 '10 at 21:22

I would suggest you to remove the following implementation from your code altogether, so that compiler can generate error at compile-time itself if T is not int . Early detection of error is better than delay detection(which is done at runtime).

template<typename T>
T MyClass::GetTFromVariable(shared_ptr<TOtSimpleVariable> v, string s)
{
    throw std::runtime_error("Don't know how to convert " + ToString(v->GetString()));
}

There is exactly similar topic/issue discussing this thing. Please have a look at this:

Partial template specialization for specific type, c++

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