I have the following base template class.

template<typename T>
class Base {
    void do_something() {

It is intended to be used as a curiously recurring template pattern. It should be inherited like class B : public Base<B>. It must not be inherited like class B : public Base<SomeoneElse>. I want to statically enforce this requirement. If someone uses this wrong, I expect an error in the compiling phase.

What I'm doing is putting a static_cast<T const&>(*this) in do_something(). This way the class inheriting the template is or inherits from the class provided as the template parameter. Sorry for the confusing expression. In plain English, it requires B is or inherits from SomeoneElse in class B : public Base<SomeoneElse>.

I don't know if it's the optimal way to achieve this. Looks gross to me.

However I want to do more. I want to ensure B is SomeoneElse itself. How can I do that?

  • The static_cast doesn't enforce anything; it merely causes undefined behavior if *this is not actually a T. – T.C. May 14 '15 at 8:03
  • @T.C. It does static checks. The one you are talking about should be reinterpret_cast. – Hot.PxL May 14 '15 at 8:23
  • It checks only that T is derived from Base<T>, not *this is a T. i.e., given class Bar : public Base<Bar> {}; class Foo : public Base<Bar> {}; , your check won't catch anything. – T.C. May 14 '15 at 8:31

Make the constructor (or destructor) of Base private, and then make T a friend. This way the only thing that can construct/destruct a Base<T> is a T.

  • Please refer to stackoverflow.com/questions/702650/…. It seems you can't friend a template parameter. – Hot.PxL May 14 '15 at 8:31
  • @Hot.PxL The top-voted answer in that question explains how to do it at the end (friend T;, not friend class T;). – T.C. May 14 '15 at 8:33
  • You are right. But is there any way to do this where C++11 is not available? – Hot.PxL May 14 '15 at 8:40
  • I guess I can work around C++11 issue. Thanks! – Hot.PxL May 14 '15 at 8:42

If your class contains some code that says:

T* pT = 0;
Base *pB = pT;

Then there will be a compiler error if T is not assignment-compatible with Base.

This kind of check is formalised in C++11 so you don't have to write it by hand and can get helpful error messages:

#include <type_traits>

template<typename T>
class Base {

    void do_something() 
            std::is_base_of<Base, T>::value,
            "T must be derived from Base");

class B : public Base<B> { };

int main()
    B b;

As to ensuring that Base's type parameter is exactly the class that is deriving from it, that seems conceptually flawed. A class that is acting as a base class can't "talk about" the type that is inheriting it. It may be inherited more than once via multiple inheritance, or not at all.

  • I guess it only satisfies one side of the equation. I also want to make sure that B is exactly SomeoneElse. – Hot.PxL May 14 '15 at 9:00
  • This fails in all cases on clang3.6 it complains that the derived class is incomplete during the static_assert. – Richard Hodges May 14 '15 at 9:10
  • @RichardHodges May depend where you put the static_assert. I've added a complete example that seems fine on MSVC 2013. Will try it on latest clang when I get a chance. – Daniel Earwicker May 14 '15 at 9:27
  • @DanielEarwicker yes, it works when you put the static_assert in a function. – Richard Hodges May 14 '15 at 9:37

Two good answers so far. Here is another which uses the idiom of generating custom access keys to certain methods (in this case a constructor). It provides an absolute guarantee of correct use while not exposing private methods in the base to the derived.

It can also be used to control access to other methods in the base class on a case-by-case basis.

template<class Derived>
struct Base
    // make constructor private
    Base() = default;
    // This key is protected - so visible only to derived classes
    class creation_key{
        // declare as friend to the derived class
        friend Derived;
        // make constructor private - only the Derived may create a key
        creation_key() = default;

    // allow derived class to construct me with a key

    // other methods available to the derived class go here

    // the rest of this class is private, even to the derived class
    // (good encapsulation)

struct D1 : Base<D1>
    // provide the key
    : Base<D1>(creation_key())


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