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I have the following class setup:

class A {
public:
  virtual void show() { // "show A" }
}

class B : A {
public:
  void show() override { // "show B"}
}

class MainClass {
public:
  MainClass(const A &myA) : myPolymorphicClass(std::make_shared<A>(myA)) {}
  void doShow() {
    myPolymorphicClass.show();
  }

private:
  std::shared_ptr<A> myPolymorphicClass;
}

int main {
   A myA;
   B myB;
   MainClass myAClass(myA);
   myClass.doShow(); // Will print "show A"

   MainClass myBClass(myB);
   myClass.doShow(); // Will also print "show A"
}

I want the corresponding show() to be called, but it's not quite working. I know it's because I'm doing make_shared of A which will point towards A's show() rather than B's, but if I do make_shared of B then I'll have the opposite problem. How can I setup this class so I get the polymorphic behavior I want?

Also I'm pretty sure I could get this working with raw pointers, but I'm really trying to get this to work with smart pointers.

Many thanks!

  • You would have the same problem with raw pointers. You need a virtual cloning function. – molbdnilo Mar 26 at 15:06
1

Your problem is with

MainClass(const A &myA) : myPolymorphicClass(std::make_shared<A>(myA)) {}

Here, you use std::make_shared<A>(myA) which means no matter what myA referse to, you are only going to create the A part of it in the pointer, which means you will always call the A version of the function because all you have is an A. What you need is a template like

template <typename T>
MainClass(const T &myA) : myPolymorphicClass(std::make_shared<T>(myA)) {}

And now you will create a pointer to the derived class, and that will get stored in myPolymorphicClass. If you want to can even add some SFINAE to the template to constrain T to being derived from A like

template <typename T, std::enable_if_t<std::is_base_of_v<A,T>, bool> = true>
MainClass(const T &myA) : myPolymorphicClass(std::make_shared<T>(myA)) {}

You can see all of this working in this live example

| improve this answer | |
  • There is still issue with B b; A& ref = b; MainClass m(ref);. clone seems the only viable solution. – Jarod42 Mar 26 at 16:48
  • Fantastic, this is exactly what I needed. I didn't really consider templates for a few reasons. 1) I didn't know how to limit template types to subclasses of A. and 2) I didn't want to have to specify the template type when created an instance of MainClass. Your answer solved both of these issues though with SFINAE for #1 and the apparent template type deduction that's happening in #2. Many thanks! – rmsantos Mar 26 at 19:04

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