I have the following class setup:

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

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

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

  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

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

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.