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Here's some simplified code to demonstrate the problem I have.

I have a template function for which I only wish to compile certain fixed instantiations.

The function declarations are:

// *** template.h ***
int square (int x);
double square (double x);

The definitions are:

// *** template.cpp ***
#include "template.h"

// (template definition unusually in a code rather than header file)
template <typename T>
T square (T x)
{
    return x*x;
}

// explicit instantiations
template int square (int x);
template float square (float x);

And, an example use is:

// *** main.cpp ***

#include <iostream>
using namespace std;

#include "template.h"

int main (void)
{
    cout << square(2) << endl;
    cout << square(2.5) << endl;
}

An attempt to compile this results in a link errors, roughly:

main.obj : unresolved external symbol "int square(int)" referenced in function main

I understand what the problem is: the function signatures of my explicit template instantiations do not match those in the header file.

What is the syntax for the (forward) declaration of the explicit template instantiations please? I do not wish to forward declare the template definition, or to move the template definition into a header file.

For what it's worth, I do have a workaround, which is to use wrapper functions, adding the following to the above files:

// *** template.cpp ***

// ...

// wrap them [optionally also inline the templates]
int square (int x) { return square<> (x); }
double square (double x) { return square<> (x); }

That compiles and works as expected. However, this seems like a hack to me. There should be something more elegant than this available in C++ and template syntax.

Any help or hints would be much appreciated.

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2 Answers 2

You need to declare the function template in your header:

template <typename T>
T square(T x);

As you have it now, you declare two nontemplate functions in the header, which are never defined.

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1  
but that would suggest that you have more types avail, not only double and int –  Ronny Brendel Mar 23 '10 at 16:05
    
@Ronny: If you tried to instantiate the template with any types other than those for which you provided explicit instantiations in the source file, compilation would fail. If it's not obvious from the declaration, it would be a good idea to document the function template to detail with which types it can be instantiated. –  James McNellis Mar 23 '10 at 16:08
    
How does a different source file(main.cpp) + the header know of the explicit instantiations? While linking you would get an error - a not very helpful one probably. –  Ronny Brendel Mar 23 '10 at 16:18
2  
You can define the template function with a descriptive static assert - that way errors are not delayed until the linking phase. –  Georg Fritzsche Mar 23 '10 at 16:32
1  
Thanks for the comments so far, but please note that my question was not about template functions generally, but specifically about explicit template function instantiation. (As an example, although not relevant in my case, such functions might be provided in a library, but not called; explicit instantiation forces the compiler to generate the required code.) I do not wish to declare the template in the header, because the template is only defined in a specific source file (it is "pseudo-private"). –  Rhubbarb Mar 23 '10 at 17:04

There is no other way if you want to hide the template from the header file. You have to have wrapper functions because int square (int x); does not have the same name mangling as template int square (int x); and C++ does not offer you a way to change that.

You can check out how name mingling differs in Visual Studio as an example.

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