Maybe I'm misunderstanding how inheritance works here, but here's my problem:

I have a class Option, and a class RoomOption that derives from it. I have another class Room which holds a vector of shared_ptrs. In main I add a RoomOption to that vector. Then, using typeid() I check the type, and it tells me its an Option. From what I've read, typeid is supposed to return derived types, and shared_ptrs dont cause slicing, so I'm not sure what I'm doing wrong.

Here's the code:


vector<shared_ptr<Option> > options;
void addOption(shared_ptr<Option>);
shared_ptr<Option> getOption(int);


void Room::addOption(shared_ptr<Option> option){

shared_ptr<Option> Room::getOption(int i){
    return options[i];


shared_ptr<Room> outside(new Room(0, "", ""));
outside->addOption(shared_ptr<RoomOption>(new RoomOption(0, "Go inside", hallway)));
//This line prints "class std::tr1::shared_ptr<class Option>

It occurs to me that maybe when adding or getting an Option, the RoomOption is casted as an Option due to the return/argument type. If that's the case then how am I supposed to store a vector of more than one type? Or am I getting this all wrong? =\

  • 3
    You're asking for the typeid of the shared pointer. Try to get the typeid of the thing the shared pointer contains. – Mat Jul 14 '12 at 13:10
  • use a dynamic_cast to check for types. Besides that your getting the typeid of the shared_ptr – Sebastian Hoffmann Jul 14 '12 at 13:12

First of all yor getting the typeid of the shared_ptr.

Then you should use dynamic_cast instead of typeid. E.g:

if (dynamic_cast<RoomOption*>(player->getRoom()->getOption(0).get()) != 0){
    cout << "Its a RoomOption!" << endl;
| improve this answer | |
  • That worked! Thanks for the example. It's strangely difficult to find a simple example of how to check types with dynamic cast O.o – Jean Finley Jul 14 '12 at 13:20
  • Notice though that a dynmic_cast is considered as a very expensive operation (since your code needs to lookup RTTI informations). Therefore, you shouldnt use it to frequently in time sensitive code. – Sebastian Hoffmann Jul 14 '12 at 13:22

The typeid works differently for polymorphic (for classes having at least one virtual function) and non-polymorphic types :

  • If the type is polymorphic, the corresponding typeinfo structure which represents it is determined at run-time (the vtable pointer is commonly used for that purpose, but this is an implementation detail)

  • If the type isn't polymorphic, the corresponding typeinfo structure is determined at compile time

In your case, you actually have a polymorphic class Option, but shared_ptr<Option> itsef isn't polymorphic at all. It basically is a container holding an Option*. There is absolutely no inheritance relation between Option and shared_ptr<Option>.

If you want to get the real type, you first need to extract the real pointer from its container using Option* shared_ptr<Option>::get() :

Option * myPtr = player->getRoom()->getOption(0).get();
cout << typeid(*myPtr).name(); << endl;

Or alternatively (it is exactly the same thing) :

Option& myPtr = *player->getRoom()->getOption(0);
cout << typeid(myPtr).name(); << endl;
| improve this answer | |
  • I would remove the reference to the vtable pointer, it's a confusing implementation detail. – Matthieu M. Jul 14 '12 at 14:47
  • Note: you may also simply use operator* to get a reference to the underlying Option directly, rather than first using get and then using * on the pointer. – Matthieu M. Jul 14 '12 at 15:48
  • 1
    I wanted to make it clear that the real pointer was stored in the shared_ptr<> instance. Using a reference could let the OP think that shared_ptr<> is a pointer, whereas it's only a container trying to mimic the behavior of a pointer (and that's why typeid() was not working for him). I'll add this as an alternative. – Frédéric Terrazzoni Jul 14 '12 at 15:54

The type of object a shared_ptr<Option> points to is part of its value, not its type. So this line of code is broken:


You want this:


Or perhaps:


What typeid does is tell you the actual type of the thing you passed to it. You passed it a shared_ptr<Option>. It doesn't look inside the object to see what it contains.

| improve this answer | |
  • Thanks. Still returns "Option*" though. – Jean Finley Jul 14 '12 at 13:16

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