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Assume I have a function:

template<class T>
void save(aType var1, aType var2, T varT) // var1, var2 - do not matter
  // ...

Now I have the class, which defines this function for itself, as the member function

class A {
  void save(aType var1, aType var2); // the same as before; only 2 arguments

Here is the implementation of the member-function class:

// A.cpp
#include "save.h"
#include "A.h"
void A::save(aType var1, aType var2){

  save(var1,var2,one-of-the-members); // here we try to call templated function

As a result, compiler says no matching function for call to A::save(var1,var2,var3) candidate is: A::save(var1,var2); That is compiler tries to use the member-function of class A (in the implementation of this function)- with 2 arguments, but looks like it does not see templated version for 3 arguments. How to make that templated version win over the member-function?

Edit: Thanks for all previous answers. The methods suggested still do not help. Well, not actually. Here are some more details/questions:

In addition to templated version:

template<class T>
void save(aType var1, aType var2, T varT) // var1, var2 - do not matter
// ...

i also overloaded the function for some more specific types, so I also have:

void save(aType var1, aType var2, Type1 varT);
void save(aType var1, aType var2, Type2 varT);
void save(aType var1, aType var2, Type3 varT);

The methods suggested (e.g. using :: to bring global scope) help if I comment the templated definition, otherwise there are some unrelated compiler errors. So my next question is: is it possible to overload the function and have its templated version? They seem to be competing.

I also thought about doing run-type identification of the types (of the variable varT):

if(typeid(varT).name()==type_name_1){  ... }
else if(typeid(varT).name()==type_name_2){ ... }

but I think this will be inefficient, so this is not good approach. So what i want to do it to use templated version for basic types (int, double, etc.)- so not to overload for each type explicitly - and use my own functions to deal with more complex types. Is is possible to do this efficiently? Thanks in advance.

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Which compiler are you using? –  phresnel Sep 14 '11 at 5:04
@phresnel: it should not matter, this is typical name hiding. –  Matthieu M. Sep 14 '11 at 7:17
You are asking a different question now, post the errors you get with the templates versions. –  K-ballo Sep 14 '11 at 7:22
@Matthieu: My comment was on his edit, where he states that explicit qualification does not help. (at)user938720: Would you mind posting a complete testcase? –  phresnel Sep 14 '11 at 7:29
i use gcc-4.6.0 compiler. About the testcase: now i walked around this problem with the templates by explicitly overloading the save function for some basic types, but the error message was not relevant to the problem - was saying something about conversion from const T to T& in overloading << operator (where T is one of my types) - so that message was not any useful. –  user938720 Sep 14 '11 at 16:36

2 Answers 2

Either explicitly qualify the call, or bring it into scope with a using declaration.

Explicit qualification:


Using declaration:

using ::save;
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what do you mean by explicitly qualifying the call? do you mean put <> in front of the called template function? - I tried that and this does not help. and how can I bring the scope of the templated function-non-member to be chosen inside the definition of the function-member? –  user938720 Sep 14 '11 at 3:29
See the edits... –  K-ballo Sep 14 '11 at 3:43

The :: qualifier will match a free function, rather than a member function. BTW: your issue has nothing to do with templates. It's a member function / free function issue.

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