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I have the following problem with inheritance and templates:

class Base {};
class Deriv : public Base {};

template <class T> class X{};

void f(X<Base>& inst) {}

int main()
  X<Base> xb;
  X<Deriv> xd;
  return 0;

The program doesn't compile because there is not relation between X<Base> and X<Deriv>. Nevertheless I think it should be possible to do everything that can be done with X<Base> also with X<Deriv>. Is there anything that I could do other than copying the function body of f to a new function void g(X<Deriv>& inst)?

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5 Answers 5

up vote 1 down vote accepted

Why do you think they should be related? Consider the following:

template<typename T>
class X;

class X<Base> {
    int x;

class X<Deriv> {
    double d;

They're definitely not interchangeable. So no, there is no relation between those classes and you can't pass one to a function expecting the other. You'll have to do something like make both types inherit from another common type that exposes the interface you need.

Regarding your comment, you can use type traits and static_assert to do what you would do in Java:

template<typename T>
void f(X<T>& inst) {
    static_assert(std::is_base_of(Base, T)::value, "Template type must subclass Base");

    // body of function...
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Well, in this case there is nothing in X<Deriv> that is not also in X<Base>, the only difference between the two is the difference between Deriv and Base – hfhc2 Apr 6 '12 at 16:11
@hfhc2 yes there is, x is in X<Base> and not in X<Deriv>, and d is not in X<Base> but it is in X<Deriv>. The difference is more than just the type parameter. – Seth Carnegie Apr 6 '12 at 16:36
Well, that is not what I mean to do. In my program I am using a boost graph which has the type adjacency_list <vecS, vecS, bidirectionalS, VertexProperties, EdgeProperties>where the properties are classes holding some parameters. In one function however, I need a graph with different properties which are however derived classes of the original properties. Otherwise the graph class does not change and I see no reason why this should not work. – hfhc2 Apr 6 '12 at 21:16
@hfhc2 that's just how C++'s type system works. A different class is a different class, period. You can think of X<Deriv> and X<Base> as being like A and B. They're not related in any way, and using templates with different types creates completely different and incompatible classes. They are as different as if you did class A { }; class B { }; – Seth Carnegie Apr 7 '12 at 17:08
It occurs to me that in Java I would write the function based on generics, enforcing that the template parameter is a class that extends Base X<? extends Base>. Is it possible to achieve this effect using C++? – hfhc2 Apr 8 '12 at 13:18

You could just continue using templates:

template<class T>
void f(X<T>& inst) {}

will work for both X<Base> and X<Derived>.

The compiler might duplicate the code (if it is not smart enough), but you don't have to.

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The compiler will duplicate the code. If the function is inlined, by means of the inlining, if it is not, it has to generate the two instantiations (the addresses of the specializations must differ) – David Rodríguez - dribeas Apr 6 '12 at 15:57
If nobody is looking (not comparing addresses) the compiler can cheat. Anyway, the main point is that the OP doesn't have create several functions, the compiler can do it for him. – Bo Persson Apr 6 '12 at 16:08

If you need such functionality, then you must template on the type- or overload, as you have said. Alternatively, you might explicitly specialize X such that X<Derived> : X<Base>.

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Could you show me how to change my code to specialize the class and get everything working? – hfhc2 Apr 6 '12 at 15:55

Different instantiations of a template are unrelated types, even if the instantiating template arguments are related. That is, X<A> is not related to X<B> regardless of what the relationship between A and B might be.

Now as of what can be done, it depends on what your template actually is. In some cases you can provide conversions so that the X<Derived> can be converted to a X<Base> for a particular operation. Another alternative is modifying your function to be able to take any X<T> for which T derives from Base (this can be done by creating a template and using SFINAE to disallow calling it with Ts that don't derive from Base. Again, depending on what your template is, you might be able to offer access to the underlying type, in which case the function could take a reference to Base (consider shared_ptr or unique_ptr with the .get() method)

Without a description of what you actually want to get done it is impossible to provide a good alternative.

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It depends. Consider the case where X is std::shared_ptr. It would break type safety if std::shared_ptr<Derived> was derived from std::shared_ptr<Base>, but instead there is an implicit value conversion.

However, since you’re passing by reference to non-const, such a value conversion will not help you you directly.

Other possibilities include inheriting from a common interface, and templating your function.

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Well, the interface is supposed to be Base, if I pass X<Deriv> to f I would like this to be treated as if it were an instance of X<Base> – hfhc2 Apr 7 '12 at 7:35
@hfhc2: to quote myself, that "would break type safety". in general. – Cheers and hth. - Alf Apr 8 '12 at 5:16

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