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Imagine I have such class hierarchy:

A : Base
B : Base
C : B

I want to be able to retrive a string type from Base object (I need string, not enum). I want also to be able to compare object type to A type for example:

Object *object = new A();
if (object->type() == A::typename())

For now I'm planing to add a static function to each class:

static string typename() {return "Different name for each class";}

and then I will have to reimplement Base function virtual string type() for every derived class:

A: virtual string type() {return typename();} //A::typename
B: virtual string type() {return typename();} //B::typename

I think such design looks ugly. Is there some better way to achieve my goal?

Why I need this: I'm developing a game. There is a tile map. Each tile has an array of objects on it. Some objects can be placed over the others. So i want to check if it is allow to put the object at the specific tile. For example: if tile has object with type "pot" then the flower can be put there.

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Are you aware of the type_id object? (cplusplus.com/reference/std/typeinfo/type_info) –  Constantinius Mar 15 '12 at 12:50
What exactly are you trying to achieve ? If you want a specific behavior for each class implement a base method which will be overridden by each inheriting class and implement its specific behvior. Testing for "instance of" is not what OOP is about. –  giorashc Mar 15 '12 at 12:52
If you're in need of information regarding an object's type beyond what you know via the pointer or reference through which you are accessing it, your OOP design may need to be reviewed. –  San Jacinto Mar 15 '12 at 12:54
@giorashc: Please see me edit –  Andrew Mar 15 '12 at 12:59
Have a look at the visitor pattern. –  P3trus Mar 15 '12 at 13:12

2 Answers 2

up vote 3 down vote accepted

You can achieve the same thing with dynamic_cast. Your classes are polymorphic anyway.

Note that this is at least a code smell. You shouldn't need to find the actual type of classes in a well-thought design. What underlying problem are you trying to solve?

Also, typename is a keyword in C++, you should name your method differently.

EDIT: A possible better solution for this would be to have a list of pairs of objects that can be stacked, and have virtual methods:

class Object
   virtual bool canStack(const std::string& baseObject) = 0;

class Flower
   virtual bool canStack(const std::string& baseObject)
       if ( baseObject == "pot" ) 
           return true;
       return false;

Now I see why you'd want the get name.

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Thanks for the answer. Please see my edit –  Andrew Mar 15 '12 at 12:58
Luchian: I prefer to store string constants as constants actually. Also because there will be a lot of types in the game and i don't want to rely upon i don't make a mistake typing "pot" –  Andrew Mar 15 '12 at 13:16
@Andrew if you have a collection of admissible combinations, it will be a lot easier to maintain. –  Luchian Grigore Mar 15 '12 at 13:17

I was searching for a comfortable way of doing this for days. Here's how I did it finally. The solution is pragmatic, compiles fast and is portable and works without RTTI. However it uses #define, which C++ folks try to avoid often. Maybe someone can turn that code into one that uses templates, which I would also be interested in.

Basically, the pointer to a static method is used for comparison with the one returned by "other" object in "static bool IsTypeOf(_TypeCheckBase& other)" so as to provide a type-check. In addition you can get the name of the object.

#define TYPE_CHECK_IMPL(T)  \
   static bool IsTypeOf(_TypeCheckBase& other) { \
                    return other.GetType() == (unsigned int)&IsTypeOf; } \
   virtual unsigned int GetType() { \
                    return (unsigned int)&IsTypeOf; } \
   public: virtual const string& GetTypeName() { \
                    static string typeName = #T; \
                    return typeName; }

#define TYPE_CHECK_DECL(T) \
   typedef T _TypeCheckBase;\

class root

class A: public root

class AA: public A

class B: public root

No you can do the following:

inline void prn(std::string txt, bool val)
    cout << txt << ": " << (val ? "true":"false") << endl;

#define CMP(foo,bar)  prn(#foo "\tis type of " #bar " TypeName:\"" + bar.GetTypeName() + "\"", foo::IsTypeOf(bar));

int main(void)

    A a; AA aa;
    B b;

    cout << endl;




The main methods you use here are:

  • bool Foo::IsTypeOf(bar) with Foo being a class type and bar being an object, derived directly or indirectly from your root class type.

  • string bar.GetTypeName()

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