144

Let's say we have a template class Area, which has a member variable T area, a T getArea() and a void setArea(T) member functions.

I can create an Area object of a specific type by typing Area<int>.

Now I have a class Rectangle that inherits the Area class. Since Rectangle itself is not a template, I cannot type Rectangle<int>.

How do I specialize the inherited Area type for Rectangle objects?

EDIT: Sorry, I forgot to clarify - my questions is whether it is possible to inherit Area without specializing it, so it is not inherited as Area of ints but as Area Rectangle can specialize the types for.

3
  • 5
    It's class template, because it's a template from which classes are generated.
    – sbi
    Jan 10, 2012 at 20:48
  • 7
    @sbi I don't intend to start a flame war here, but if Bjarne Stroustrup doesn't draw a distinction between class template and template class (see The C++ Programming Language, 4th ed., section 23.2.1), then you shouldn't either. Sep 5, 2018 at 20:23
  • @MichaelWarner I seem to remember him making the distinction. That was in the 90s, though, on Usenet. Maybe he has given up since. (Or maybe he refers to an instantiated class template as a template class?)
    – sbi
    Sep 10, 2018 at 11:55

6 Answers 6

326

For understanding templates, it's of huge advantage to get the terminology straight because the way you speak about them determines the way to think about them.

Specifically, Area is not a template class, but a class template. That is, it is a template from which classes can be generated. Area<int> is such a class (it's not an object, but of course you can create an object from that class in the same ways you can create objects from any other class). Another such class would be Area<char>. Note that those are completely different classes, which have nothing in common except for the fact that they were generated from the same class template.

Since Area is not a class, you cannot derive the class Rectangle from it. You only can derive a class from another class (or several of them). Since Area<int> is a class, you could, for example, derive Rectangle from it:

class Rectangle:
  public Area<int>
{
  // ...
};

Since Area<int> and Area<char> are different classes, you can even derive from both at the same time (however when accessing members of them, you'll have to deal with ambiguities):

class Rectangle:
  public Area<int>,
  public Area<char>
{
  // ...
};

However you have to specify which classed to derive from when you define Rectangle. This is true no matter whether those classes are generated from a template or not. Two objects of the same class simply cannot have different inheritance hierarchies.

What you can do is to make Rectangle a template as well. If you write

template<typename T> class Rectangle:
  public Area<T>
{
  // ...
};

You have a template Rectangle from which you can get a class Rectangle<int> which derives from Area<int>, and a different class Rectangle<char> which derives from Area<char>.

It may be that you want to have a single type Rectangle so that you can pass all sorts of Rectangle to the same function (which itself doesn't need to know the Area type). Since the Rectangle<T> classes generated by instantiating the template Rectangle are formally independent of each other, it doesn't work that way. However you can make use of multiple inheritance here:

class Rectangle // not inheriting from any Area type
{
  // Area independent interface
};

template<typename T> class SpecificRectangle:
  public Rectangle,
  public Area<T>
{
  // Area dependent stuff
};

void foo(Rectangle&); // A function which works with generic rectangles

int main()
{
  SpecificRectangle<int> intrect;
  foo(intrect);

  SpecificRectangle<char> charrect;
  foo(charrect);
}

If it is important that your generic Rectangle is derived from a generic Area you can do the same trick with Area too:

class Area
{
  // generic Area interface
};

class Rectangle:
  public virtual Area // virtual because of "diamond inheritance"
{
  // generic rectangle interface
};

template<typename T> class SpecificArea:
  public virtual Area
{
  // specific implementation of Area for type T
};

template<typename T> class SpecificRectangle:
  public Rectangle, // maybe this should be virtual as well, in case the hierarchy is extended later
  public SpecificArea<T> // no virtual inheritance needed here
{
  // specific implementation of Rectangle for type T
};
2
  • Note: A template type parameter is part of the class of an object which instantiates that class template. In other words, it's not a component of the class, it's part of the type.
    – KeyC0de
    Oct 2, 2018 at 14:38
  • 1
    " Area is not a template class, but a class template." This is an excellent point. Because Area is not a class; therefore, we cannot declare a pointer to the Area; Area * a_ptr. On the other hand, we can declare a pointer to an instantiated class of the template Area, Area<int> * a_ptr.
    – StupidMe
    Oct 9, 2020 at 19:34
33

Are you just trying to derive from Area<int>? In which case you do this:

class Rectangle : public Area<int>
{
    // ...
};

EDIT: Following the clarification, it seems you're actually trying to make Rectangle a template as well, in which case the following should work:

template <typename T>
class Rectangle : public Area<T>
{
    // ...
};
1
  • Finally!!! I found the solution, I was using class Rectangle : public Area instead of class Rectangle : public Area<T>
    – testing_22
    Jun 6, 2021 at 21:32
11
class Rectangle : public Area<int> {
};
11

Make Rectangle a template and pass the typename on to Area:

template <typename T>
class Rectangle : public Area<T>
{

};
7

Rectangle will have to be a template, otherwise it is just one type. It cannot be a non-template whilst its base magically is. (Its base may be a template instantiation, though you seem to want to maintain the base's functionality as a template.)

7
#include<iostream>

using namespace std;

template<class t> 
class base {
protected:
    t a;
public:
    base(t aa){
        a = aa;
        cout<<"base "<<a<<endl;
    }
};

template <class t> 
class derived: public base<t>{
    public:
        derived(t a): base<t>(a) {
        }
        //Here is the method in derived class 
    void sampleMethod() {
        cout<<"In sample Method"<<endl;
    }
};

int main() {
    derived<int> q(1);
    // calling the methods
    q.sampleMethod();
}
2
  • what if you had methods in the derived class? How would you define them? And most import yet, at least to me, how do you call/use those methods in your main() function?
    – Pototo
    Jun 2, 2017 at 22:44
  • 7
    First, this is a really old question which already has a great answer. Second, please avoid answers (and questions) which are only code. It is useful to include detailed explanations as well.
    – marcman
    Jul 8, 2017 at 20:02

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