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I got to know about run-time type information in c++. This can be accomplished with typeid keyword in c++.

int main()
        //these two where user-defined class
        Complex x;
        Point3D y;

        const type_info& s = typeid(x);

        cout<<typeid(y).name()<<endl; //works...(1)
        cout<<s.name()<<endl;         //works...(2)

        Complex * tp = new s[10];     //does not work...(3)

As marked in the code, I was successful in printing out types of the data objects as in (1) and (2).

Now I wish to allocate memory by using type_info/typeid. Could anyone do this? Is it even possible. I do not have any virtual functions.

Can such a feat be accomplished by any other way. I do not want to use virtual functions as it has a negative effect on code vectorization.

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Google: factory pattern –  sehe Sep 27 '12 at 14:29
What are you trying to accomplish? The obvious way to create an array of ten Complex objects is with new Complex[10];; why do you want something else? –  Pete Becker Sep 27 '12 at 14:31
use decltype found in c++11. It sounds like the type of the value will always be known at compile time. auto tp = new decltype(x)[10]; No, this wont work in runtime systems, but depending on the application, you won't need to. –  willkill07 Sep 27 '12 at 15:07
how about if (typeid(y).hash_code == ) .... new y[]... else .. new x[] –  user1316208 Sep 27 '12 at 15:35

4 Answers 4

up vote 0 down vote accepted

No, this is not possible. What you are looking for is a factory.

Here is an example of such a factory. Suppose you have these types:

class point_t

class complex_t : public point_t

class point3d_t : public point_t

You can define the following factory:

typedef point_t* (*makeptr)();

class point_factory
   static point_t* make_complex()
      return new complex_t();

   static point_t* make_point3d()
      return new point3d_t();
   static std::map<std::string, makeptr> _map;
   static void init()
      _map.insert(make_pair(typeid(complex_t).name(), &point_factory::make_complex));
      _map.insert(make_pair(typeid(point3d_t).name(), &point_factory::make_point3d));
   static point_t* make_point(const type_info& type)
      std::map<std::string, makeptr>::iterator pos = _map.find(type.name());
      if(pos != _map.end())
         return (*(pos->second))();
      return NULL;

std::map<std::string, makeptr> point_factory::_map;

And use it like this:

point_t* p = point_factory::make_point(typeid(point3d_t));
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the thing is that, i wud hav multiple user defined types. thtz i need a dynamic way of memory allocation –  mkuse Sep 27 '12 at 14:34
@user1703586, than your users should define a factory for their type, and register that factory somehow so that you may call it. –  StoryTeller Sep 27 '12 at 14:35
more info/code on factories? is there an implementation of factory u knw of which wud be helpful for me? –  mkuse Sep 27 '12 at 14:42

If you do not have any virtual functions, you don't have RTTI, so typeid(x).name() is always Complex, and you can simply write

Complex *tp = new Complex[10];
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If the code was in a templated function you could probably do something similar to that. But after looking at the docs for type_info, I don't think it will work for what you want.


Now C# can do what you want using reflection. But since you native C++ has no reflection you are out of luck.

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anyway of using Reflections in C++??? –  mkuse Sep 27 '12 at 14:42
No. If you're using C++11, you can, however, access to quite a lot of compile-time type information. E.g. it's possible to check whether a class has a method with specific name, accepting specific types as arguments. –  user283145 Sep 28 '12 at 9:25

In your code s is not a type, it is a reference to an object. A type is syntactic construct, that exists only during compilation, and when the program is compiled to native code, most if not all type information is lost!

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ya i knw (3) is wrong. the idea is that i want to allocate memory based on the data type which is obtained with typeid() –  mkuse Sep 27 '12 at 14:35
Well, RTTI is real-time type information, so your statement is wrong. Without it, you'll have no dynamic polymorphism. –  Anton Guryanov Sep 27 '12 at 14:36
I think, @AntonGuryanov, that you misunderstood what I meant by type. In native code, there are no types. Types exist only during compilation so that the compiler can associate methods with objects, allocate proper stack frames and call proper constructors. –  StoryTeller Sep 27 '12 at 14:42
n btw is it possible to typecast void* into run-time type info? –  mkuse Sep 27 '12 at 14:45
You're right, types exist only during compilation, but type information is saved in the native code. I just wanted to correct that. –  Anton Guryanov Sep 27 '12 at 14:45

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