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Here is a problem involving inheritance, template classes and function pointers. I'm developing a modular tool, here is a minimal depiction of it.

I have a generic base class that I need to be as general as possible (for reasons unspecified here):

// base class
class Base {
    virtual void assess( ) = 0;

Then I have a more specialized derived class, that I define as a template:

// derived template class
template <typename T>
class Derived : public Base
    T mValue;
    void assess( );
    T value( ) { return mValue; }

// function specialization here
inline void Derived<int>::assess( )
    mValue = 3;

Some parts are specialized, like the assess() function, as shown above.

Then I have an extra layer of inheritance. The main idea is to have a general assess() function that involves a function pointer with a Base object as argument.

// class specialization for special evaluation through function pointers
template <typename T>
class DerivedFuncPtr : public Derived<T> {
    T (*mFuncPtr)( Base& );
    Base *mFuncVar;
    DerivedFuncPtr<T>( T (*f)(Base&), Base& variable )
        mFuncPtr = f;
        mFuncVar = variable;
    void assess( )
        this->mValue = (*mFuncPtr)(*mFuncVar);

OK, the problem is how to use it. Main source looks like this:

int squared( Derived<int>& );
int squared( Derived<int>& d )
    int val = d.value();
    return val*val;

int main (int argc, const char * argv[])
    Derived<int> object;
    cout << object.value() << "\n" ;

    DerivedFuncPtr<int> objectFP( squared, object ); // (*)

    return 0;

I get an error at compilation on line (*)

Candidate constructor not viable: no known conversion from 'int (Derived<int> &)' to 'int (*)(Base &)' for 1st argument

Will I be forced to encapsulate the function pointer into a templated U (*)(Base&) class or am I missing something obvious here?

For the sake of esthetics and because I am really not familiar with most recent C++ evolutions, I'd prefer not to use boost libraries or C++11, but well, if it can't be helped... Thank you.

share|improve this question
DerivedFuncPtr<T>( T (*f)(Base&), Base& variable )

The first argument to your constructor is a pointer to a function that takes a Base& as an argument (and returns a T). That Base& argument to the function pointer doesn't match the argument to squared, which takes a Derived<int>&.

One way to fix this is to make DerivedFuncPtr a class template that take two template arguments, one the typename T you already have, and the other, some other typename that will replace the uses of Base in your data members and constructor.

BTW, you also get an error on mFuncVar = variable; in that constructor. mFuncVar is a pointer, variable is a reference.

share|improve this answer
Thank you. I thought that this conversion could go through because Derived<int> is a child from Base. In the same class, I take advantage of this inheritance to define a std::vector<Base*> within Derived, and conversion works. I'm working on your fix suggestion. – nenj Oct 26 '12 at 12:41
@motjordet - Casting from a derived class pointer to a base class pointer is a "standard conversion" (clause 4 of the standard). It's an automatic conversion; no cast is needed. This is why you can have a vector of pointers to your base class. Casting from a base class pointer to a derived class pointer is a different story. It's not automatic; a cast is required. Your squared cannot match T (*)( Base&) because squared has a different signature. – David Hammen Oct 26 '12 at 13:00
Got it. I found a workaround that does the trick, using static_cast conversion within the body of squared: int squared( Base& d ) { Derived<int>& dconv = static_cast< Derived<int> &>(d); int val = dconv.value(); return val*val; } Requires for the developer to be careful, but what do you think of it otherwise, @DavidHammen ? – nenj Nov 1 '12 at 10:08

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