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I'm curious what constructs or language features, available in both the current C++ as well as in C++11, can be used to deduce the type of an object. An example:

class Base {

class DerivA
    : public Base {

class DerivB
    : public Base {

void foo(Base* obj) {
    // Identify if `obj` is a `DerivA` or a `DerivB`

This is an oversimplification. It would appear that rather than having a way to identify the type, the best solution is to have overloads of the function for the two derived types and do away with the base class.

My real use case is one where one class is not interested in the exact type of the object (ie. just needs an implementation of Base) and another class needs to know exactly what implementation of Base the first class is using.

This happens in a component-based game entity system. The base would be an EntityState and its derived types are StandingState, DeadState, etc. Class Entity is the one that only needs a generic EntityState object and class EntityRepresentation needs to know exactly what state the entity is in to decide whether to draw the "standing" animation or the "dead" animation, or whatever.

Edit: Of course, if possible, I'd like to implement the game in such a way that not even the entity representation needs to know the type of the entity state. If there's a way to do that, then I'd use it. :) I'll look into the visitor pattern.

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Try a search for RTTI. –  Nemo Jun 22 '11 at 15:39
This would seem like a good fit for the Visitor Pattern. –  Lambdageek Jun 22 '11 at 15:41
You can't do away with the Base class and still use polymorphism normally. –  David Thornley Jun 22 '11 at 15:41
The obvious first attempt would be to add virtual functions, so you don't even need to know the exact type. –  Bo Persson Jun 22 '11 at 15:44
The point of OO is that you should never do actions based on the type of the object. The object should know how to do the action. So rather than trying to detect the type you ask the object to the action foo() in C++ this is achieved via virtual functions. –  Loki Astari Jun 22 '11 at 17:54

9 Answers 9

up vote 6 down vote accepted

You can use dynamic_cast for that:

if(DerivA * derivA = dynamic_cast<DerivA*>(obj)){
    // it is a DerivA
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The classes he showed are not polymorphic, so use of dynamic_cast here invokes UB. –  ildjarn Jun 23 '11 at 19:42

Two ways:

If your classes are polymorphic use, dynamic_cast

or else you can use typeid

Usage of typeid

#include <typeinfo.h>


Usage of dynamic_cast

DerivA& dynamic_cast<DerivA&> (object);
DerivA* dynamic_cast<DerivA*> (object);

there must be least one virtual function in Base class to make dynamic_cast work or you will get compilation errors.

If you try to cast to pointer to a type that is not a type of actual object, the result of the cast will be NULL. For a similar situation in case of references the cast will throw a bad_cast exception.

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Note that typeid will return the exact type of the object. Whereas dynamic_cast will work even if the object is derived from DerivA. To put it another way, dynamic_cast will work if the type is in the object's hierarchy, while typeid tells you exactly and only what you have. –  Nicol Bolas Jun 22 '11 at 23:41

Take a look at the <typeinfo> part of the standard library (e.g. see here.)

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You can use dynamic_cast to identify the type of the derived class object. For example, when you do: DerivedA* p = dynamic_cast<Derived*>(pBase); if p!=NULL condition is satisfied then its an object of DerivedA type.

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The classes he showed are not polymorphic, so use of dynamic_cast here invokes UB. –  ildjarn Jun 23 '11 at 19:43

The problem you described in the last paragraph can be solved using visitor pattern. Have you tried it? It can solve the problem without even knowing the type its operating on.

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Contrary to most of the suggestions, I would not use RTTI directly (either typeinfo or dynamic_cast). There are different things that you can do:

  1. add a function that provides the information you need to draw
  2. use a double dispatch mechanism

The simplest solution is probably 1), just add a virtual method that will tell you in what state the object is, and use that to determine how to animate the object. The problem with this approach is that it requires adding methods to the State classes for each one of the things that will need it: animation, sound, movement calculations...

Using a form of double dispatch like the visitor pattern moves the complexity away from the State hierarchy into the visitors hierarchy, that must contain overloads for each different State (at all levels). The model in the application will be simpler, but usage of that model will become more cumbersome.

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Assuming your types have a virtual method in them, you can use real time type identification (RTTI) of C++ with things like dynamic_cast and typeid

However, a better design might be to implement virtual methods to hide the types completely. For example:

class EntityState {
  virtual void Draw( Entity entity ) = 0;

class DeadState : EntityState {
  virtual void Draw( Entity entity ) {
    //*** render the entity as dead

class AliveState : EntityState {
  virtual void Draw( Entity entity ) {
    //*** render the entity as alive!

class Entity {

  EntityState myEntityState;

  void Draw() {
    myEntityState.Draw( this );

Your entities now can be drawn as either dead or alive without any if-then-else or switch statement code which would need updated if you suddently wanted new states to be added to your entity.

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Ideally, the state shouldn't know or care how and/or if the entity is represented on the screen. I'd like to keep it like that. :) –  Paul Manta Jun 22 '11 at 16:12

Usually better alternative than trying to query the type of the object would be to add a virtual function to the base class:

class Base { public: virtual int Animation() const=0; };
class DerivA : public Base { public: int Animation() const { return 0; } };
class DerivB : public Base { public: int Animation() const { return 1; } };

And then have all the different animations identified by that one integer, maybe having a non-modifiable array of animations:

Animation anim1, anim2, anim3;
Animation *array[5] = { &anim1, &anim2, &anim3 };
void foo(Base *b) {
   int animnum = b->Animation();
   Animation *anim = array[animnum];

That's at least one way to make it work properly.

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See the comment I left on MerickOWA's answer. –  Paul Manta Jun 22 '11 at 16:29
sure, but stuff that is different based on which state derived class you chose should be part of the class hierarchy of the state. If the mechanism for choosing this is somehow different, then use dynamic_cast instead. –  tp1 Jun 22 '11 at 16:34

for inheritence, I would look into static_cast and dynamic_cast. You can use these to determine if a an object is inherited from a class.

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static_cast does not help here, and because the classes he showed are not polymorphic, use of dynamic_cast would invoke UB. –  ildjarn Jun 23 '11 at 19:44

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