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Below is the code to recreate the problem I am having. Base class is a template class with the virtual function foo. foo has a default implementation that adds the passed in arguments.

SimpleDerived derives from Base, specializing it with std::string. SimpleDerived overloads the virtual Base<T>::foo() function. This class compiles fine and its foo outputs as expected when called in main.

#include <iostream>

template<class T>
struct Base
    virtual void foo(T val)
        T local = val + val;    // THE OFFENDING LINE OF CODE
        std::cout << "Base" << std::endl;

struct SimpleDerived : public Base<std::string>
    virtual void foo(std::string val)
        std::cout << "SimpleDerived" << std::endl;

struct SimpleObject
    int value;

struct ComplexDerived : public Base<SimpleObject>
    virtual void foo(SimpleObject val)
        std::cout << "ComplexDerived" << std::endl;

int main(void)
    Base<int> base;;

    SimpleDerived simpleDerived;"hello world");

    SimpleObject object;
    ComplexDerived complexDerived;;

    return 0;

ComplexDerived derives from Base, specializing it with a custom struct SimpleObject. ComplexDerived overloads foo as well. However, this is the root of the problem. If I try to compile this I get:

quicktest.cpp: In member function ‘void Base<T>::foo(T) [with T = SimpleObject]’:
quicktest.cpp:47:1:   instantiated from here
quicktest.cpp:8:19: error: no match for ‘operator+’ in ‘val + val’

Obviously, there is no operator "+" for SimpleObject. But here is my confusion.. the compiler is being asked to implement Base<SimpleObject>::foo because this is what ComplexDerived inherits from. However, I never use or call Base<SimpleObject>::foo. So should the compiler be trying to generate this base class function?

share|improve this question
You may already know this, but since the answers seem to confirm that the compiler will try to instantiate the virtual function in your base class: You can work around the problem using template specializations (making the function pure virtual). – kloffy Jun 15 '13 at 1:19
up vote 8 down vote accepted

Paragraph 14.7.1/10 of the C++11 Standard specifies:

An implementation shall not implicitly instantiate a function template, a member template, a non-virtual member function, a member class, or a static data member of a class template that does not require instantiation. It is unspecified whether or not an implementation implicitly instantiates a virtual member function of a class template if the virtual member function would not otherwise be instantiated. [...]

In other words, the behavior in this case is implementation-specific.

While in theory the compiler could figure out that the call to the base class's implementation of foo() won't ever be invoked (since the function call does not occur through a reference or pointer) and avoid instantiating it, this behavior is not mandated by the Standard.

share|improve this answer
Thanks Andy! Just fyi, I was using g++ ((Ubuntu/Linaro 4.6.3-1ubuntu5) 4.6.3). – user2130260 Jun 17 '13 at 22:03
@user2130260: OK, glad it helped :) – Andy Prowl Jun 17 '13 at 22:06

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