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So I have three classes like

class Base {
   virtual int foo() { return 1; }
class Child: public Base {
   virtual int foo() { return 2; }
class SecondChild: public Base {
   virtual int foo() { return 3; }

I was originally storing these in a vector

std::vector<Base> myList;

where the list could be made up of either Child or SecondChild but my problem was if I wanted to run


it would always use Base::foo regardless of which of the two derived classes I use initially to create the object. This makes sense to me but I found if I replaced std::vector with std::vector<std::unique_ptr<Base>> it would run the derived foo function. This is the behavior I want but I don't understand why this works.

So my question is, what is different about std::unique_ptr<Base> that allows me to do this, and is this bad practice? I looked at the documentation and I don't understand most of it

marked as duplicate by Neil Butterworth, Praetorian c++ Apr 22 at 21:35

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  • Nothing to do with unique_ptr itself, vector<Base*> would work too, but you'd need to manually delete the objects when disposing of them. Your question is basically about object slicing. – Praetorian Apr 22 at 21:34
  • " I looked at the documentation and I don't understand most of it" - you don't learn a programming language by reading "the documentation", you learn it by reading a tutorial textbook. – Neil Butterworth Apr 22 at 21:34
  • 1
    vector<Base> stores Base objects as it copies the element when pushing it back. At this time derived object becomes Base - copies only the base part. This is called "slicing". However vector<unique_ptr<Base>> stores pointers to the original derived objects so virtual functions of the derived objects are called. – Alexey Voytenko Apr 22 at 21:40

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