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I have the following code which I conceived solely in order to practice function templates.

#include <iostream>

template <typename T>
T fun( const T &t ) { return t; }

struct A {
    int dataf;
    A( int a ) : dataf(a) { std::cout << "birth\n"; }
    friend A fun( const A & );

int main(){
    A a( 5 );
    fun( a );   
    return 0;

Though I get the following error:

code.cc:(.text+0x32): undefined reference to `fun(A const&)'
collect2: ld returned 1 exit status

I understand well class templates, but I am still confused about function templates.

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2 Answers 2

up vote 5 down vote accepted

Change the friend declaration to:

template <class T> friend T fun( const T & );

or to:

friend A fun<A>( const A & );
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+1 for the "or to." The second one matches the original intent. –  Angew Jan 21 '13 at 15:16
I'd be thankful if you just added what is the difference between the two and information how they relate to the ideas of implicit and explicit specialisations. Thanks. –  yauser Jan 21 '13 at 15:23
Also, I thought that given the template declaration, compiler can guess the specialisation from the context of a call and I do not have to provide any info that a function origins from a template whatsoever. Does the friendship declaration force special treatment or am I confusing things? –  yauser Jan 21 '13 at 15:28
@yauser The difference between the two is that in the first the compiler will deduce the type T when the function is used. But the second is an explicit instantiation of the function template. The compiler can't deduce the types from the declaration alone, which is why I added <A> for the parameter type. Friend declarations are a special case in which you must do this. –  0x499602D2 Jan 21 '13 at 15:36

Normal functions are prefered over function templates during overload resoulution. The declaration of a free friend function inside A is an exact match for the call in main. The declaration is all that compiler needs to pick it up, so it compiles fine, but the linker can't find a definition because, well, you never defined it.

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