This does not compile in C++:

class A

class B : public A


A *a = new B();
B *b = dynamic_cast<B*>(a);
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    I FAQ-ified this question. The answer is brief but I think pretty solid. If anyone thinks this should not be FAQed, let me know in the comments. – John Dibling Nov 20 '10 at 15:40
  • @John: I agree. – sbi Nov 20 '10 at 15:51

Because dynamic_cast can only downcast polymorphic types, so sayeth the Standard.

You can make your class polymoprphic by adding a virtual destructor to the base class. In fact, you probably should anyway (See Footnote). Else if you try to delete a B object through an A pointer, you'll evoke Undefined Behavior.

class A
  virtual ~A() {};

et voila!


There are exceptions to the "rule" about needing a virtual destructor in polymorphic types.
One such exception is when using boost::shared_ptr as pointed out by Steve Jessop in the comments below. For more information about when you need a virtual destructor, read this Herb Sutter article.

  • 1
    "you'll leak resources." -> "you'll get UB." – GManNickG Nov 19 '10 at 16:54
  • @GMan: thx, edited – John Dibling Nov 19 '10 at 17:06
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    @John: (1) if the pointer is stored directly with shared_ptr<base*> ptr(new derived). (2) if there are users of the object that aren't responsible for its memory management, and use it through a base class, whereas whoever is responsible for memory management uses the derived class. Basically the same situations that you might ever have a class which has some virtual functions and some non-virtual functions, but in this case the non-virtual "function" is the operation of deleting it. Not all users of all objects need to delete the object as part of their API to it. – Steve Jessop Nov 20 '10 at 0:09
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    @John: in (1) it's going to delete through derived*. Check the template constructor of shared_ptr. (2) depends on your programming style - if any access to an object always comes with lifecycle management, then all interfaces must include delete, and so polymorphic interfaces need virtual destructors. If there's a type of objects that you see without owning, then protected non-virtual destructor can be appropriate even if there are virtual functions. – Steve Jessop Nov 20 '10 at 14:54
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    You could have a virtual visitor interface, for example, and the loop doing the visiting wouldn't delete the visitor, so delete isn't part of the visitor interface. Normally in C++ you'd use templates for a visitor, but not always. – Steve Jessop Nov 20 '10 at 15:08

As the other stated: The standard says so.

So why does the standard says so?

Because if the type isn't polymorphic it may (or is? Question to the standard gurus) be a plain type. And for plain types there are many assumptions coming from the C backwards compatibility. One of those is that the type only consists of it's members as the developer declared + necessary alignment bytes. So there cannot be any extra (hidden) fields. So there is no way to store in the memory space conserved by A the information that it really is a B.

This is only possible when it is polymorphic as then it is allowed to add such hidden stuff. (In most implementations this is done via the vtable).

  • This is the famous "Don't pay for what you don't use" axiom: If you don't need run-time polymorphism, you don't get it. There is no virtual table ergo no late type RTTI ergo no dynamic_cast. – Paul Michalik Mar 26 '11 at 10:54

From 5.2.7 (Dynamic cast) :

The result of the expression dynamic_cast<T>(v) is the result of converting the expression v to type T.

[ ... multiple lines which refer to other cases ... ]

Otherwise v shall be a pointer to or an lvalue of a polymorphic type (10.3).

From 10.3 (Virtual functions) :

A class that declares or inherits a virtual function is called a polymorphic class.

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