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I have some template code that I would prefer to have stored in a CPP file instead of inline in the header. I know this can be done as long as you know which template types will be used. For example:

.h file

class foo
{
public:
    template <typename T>
    void do(const T& t);
};

.cpp file

template <typename T>
void foo::do(const T& t)
{
    // Do something with t
}

template void foo::do<int>(const int&);
template void foo::do<std::string>(const std::string&);

Note the last two lines - the foo::do template function is only used with ints and std::strings, so those definitions mean the app will link.

My question is - is this a nasty hack or will this work with other compilers/linkers? I am only using this code with VS2008 at the moment but will be wanting to port to other environments.

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7  
I had no idea this was possible - an interesting trick! It would have helped some recent tasks considerable to know this - cheers! –  xan Sep 22 '08 at 16:00
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10 Answers

up vote 68 down vote accepted

The problem you describe can be solved by defining the template in the header, or via the approach you describe above. I recommend reading points 35.12, 35.13, and 35.14 from the C++ FAQ Lite:

http://www.parashift.com/c++-faq-lite/templates.html

They go into a lot of detail about these (and other) template issues.

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10  
Just to complement the answer, the referenced link answers the question positively, i.e. it is possible to do what Rob suggested and have the code to be portable. –  ivotron May 1 '11 at 21:46
    
The referenced link is no longer valid –  MM. Sep 20 '13 at 21:28
1  
The referenced link is again valid. –  David Lively Dec 12 '13 at 22:29
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For others on this page wondering what the correct syntax is (as did I) for explicit template specialisation (or at least in VS2008), its the following...

In your .h file...

template<typename T>
class foo
{
public:
    void bar(const T &t);
};

And in your .cpp file

template <class T>
void foo<T>::bar(const T &t)
{ }

// Explicit template instantiation
template class foo<int>;

HTH

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Do you mean "for explicit CLASS template specialiastion". In that case will that cover every function that the templated class has ? –  jules Feb 21 '13 at 13:57
    
thanks mate fixed my problem –  trianta2 Aug 12 '13 at 0:28
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This code is well-formed. You only have to pay attention that the definition of the template is visible at the point of instantiation. To quote the standard, § 14.7.2.4:

The definition of a non-exported function template, a non-exported member function template, or a non-exported member function or static data member of a class template shall be present in every translation unit in which it is explicitly instantiated.

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What does non-exported mean? –  Dan Nissenbaum Jun 12 at 19:29
1  
@Dan Visible only inside its compilation unit, not outside it. If you link multiple compilation units together, exported symbols can be used across them (and must have a single, or at least, in the case of templates, consistent definitions, otherwise you run into UB). –  Konrad Rudolph Jun 12 at 19:32
    
Thanks. I thought that all functions are (by default) visible outside the compilation unit. If I have two compilation units a.cpp (defining the function a() {}) and b.cpp (defining the function b() { a() }), then this will successfully link. If I'm right, then the above quote would seem not to apply for the typical case... am I going wrong somewhere? –  Dan Nissenbaum Jun 12 at 19:46
    
@Dan Trivial counterexample: inline functions –  Konrad Rudolph Jun 12 at 20:02
1  
@Dan Function templates are implicitly inline. The reason being that without a standardised C++ ABI it’s hard/impossible to define the effect that this would otherwise have. –  Konrad Rudolph Jun 12 at 21:41
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There is, in the latest standard, a keyword (export) that would help alleviate this issue, but it isn't implemented in any compiler that I'm aware of, other than Comeau.

See the FAQ-lite about this.

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2  
Herb Sutter has argued (currently unsuccessfully) to have export removed from the language. But I don;t think the fight is over yet. –  Loki Astari Sep 22 '08 at 16:19
1  
AFAIK, export is dead because they are facing newer and newer issues, each time they resolve the last, making the overall solution more and more complicated. And the "export" keyword won't enable you to "export" from a CPP anyway (still from H. Sutter's anyway). So I say: Don't hold your breath... –  paercebal Sep 22 '08 at 16:25
1  
To implement export the compiler still requires the full template definition. All you gain is having it in a sort-of-compiled form. But really there's no point to it. –  Zan Lynx Mar 12 '12 at 16:56
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This should work fine everywhere templates are supported. Explicit template instantiation is part of the C++ standard.

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1  
C has templates? Wow. ;-) –  Konrad Rudolph Sep 22 '08 at 16:09
    
Same comment... :-) –  paercebal Sep 22 '08 at 16:26
    
Duh. Fixed. Other people are quoting exact paragraphs so my answer adds nothing anyway :) –  moonshadow Sep 22 '08 at 16:59
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This is definitely not a nasty hack, but be aware of the fact that you will have to do it (the explicit template specialization) for every class/type you want to use with the given template. In case of MANY types requesting template instantiation there can be A LOT of lines in your .cpp file. To remedy this problem you can have a TemplateClassInst.cpp in every project you use so that you have greater control what types will be instantiated. Obviously this solution will not be perfect (aka silver bullet) as you might end up breaking the ODR :).

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Are you certain it will break the ODR? If the instantiation lines in TemplateClassInst.cpp refer to the identical source file (containing the template function definitions), isn't that guaranteed not to violate the ODR since all definitions are identical (even if repeated)? –  Dan Nissenbaum Jun 12 at 19:36
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Time for an update! Create an inline (.inl, or probably any other) file and simply copy all your definitions in it. Be sure to add the template above each function (template <typename T, ...>). Now instead of including the header file in the inline file you do the opposite. Include the inline file after the declaration of your class (#include "file.inl").

I don't really know why no one has mentioned this. I see no immediate drawbacks.

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2  
The immediate drawbacks is it is fundamentally the same as just defining the template functions directly in the header. Once you #include "file.inl", the preprocessor is going to paste the contents of file.inl directly into the header. Whatever reason you wanted to avoid the implementation going in the header, this solution doesn't solve that problem. –  Cody Gray Jun 25 '13 at 3:38
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Yes, that's the standard way to do specializiation explicit instantiation. As you stated, you cannot instantiate this template with other types.

Edit: corrected based on comment.

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Being picky about terminology it's an "explicit instantiation". –  Richard Corden Sep 22 '08 at 16:19
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There is nothing wrong with the example you have given. But i must say i believe it's not efficient to store function definitions in a cpp file. I only understand the need to separate the function's declaration and definition.

When used together with explicit class instantiation, the Boost Concept Check Library (BCCL) can help you generate template function code in cpp files.

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What is inefficient about it? –  Cody Gray Jun 25 '13 at 3:40
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Just a nit-pick but you should put the explicit instantiation in the header file not the source file. Putting it in the source file gives you nothing since whatever code can see the template instantiation can also see the definition, the whole point of explicit instantiation is to tell the compiler that the following functions will be defined and the linker will find them later on.

<nit-pick>

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1  
The point of explicit instantiation is that you compile the templated code in exactly one TU, not in every one that includes the header. Putting the explicit instantiation in the header won't even work, because the compiler needs the definitions which are just in the one .cpp file. –  Andreas Haferburg Jul 31 '13 at 17:58
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