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I want to count all the instances of derivers from my class, I'm trying to do it like so:

.h file:

#ifndef _Parant
#define _Parant


class Parant
    virtual ~Parant();
    static void PrintInstances();

    static void AddInstance(const char* typeName);
    static std::map<const char*, int> InstanceCounter;


.cpp file:

#include "Parant.h"
#include <typeinfo>
#include <iostream>

using namespace std;



std::map<const char*, int> Parant::InstanceCounter;

void Parant::AddInstance(const char* typeName)

void Parant::PrintInstances()
    for(map<const char*,int>::iterator i = InstanceCounter.begin(); i != InstanceCounter.end(); i++)
        cout << " typename: " << i -> first << " ;;" ;
        cout << " count: " << i -> second << endl ;


I have two inheritors that look like this (the cpp contains empty implementations):

#pragma once
#include "parant.h"
class ChildA :
    public Parant
    virtual ~ChildA(void);

and this is the main function:

int main()
    ChildA a;
    ChildB b;
    ChildA a1;


The result I get is:

 typename: .PAVParant@@ ;; count: 3

Why doesn't it work?

I changed it to


of course it still doesn't work, though now I understand why... can I get it to work?

share|improve this question
just a small detail, Parant should probably be Parent? – Anycorn Sep 19 '10 at 17:41
thank you :-) . some more charachters for the sake of stackoverflow – AK_ Sep 19 '10 at 17:57
I suspect one way or another, the Child has to tell the Parent what it is. – UncleBens Sep 19 '10 at 18:01
up vote 5 down vote accepted

typeid(*this) in a constructor just yields the constructor's class (you had it typeid(this) but that's wrong anyway since it will just give you the type_info of a pointer). That's considered the dynamic type of the object during construction.

Another difference there is that virtual functions called during construction won't end up in the derived class, but in the class where the call is made during construction.

share|improve this answer
ive added stuff in the edit. can i get it to work? – AK_ Sep 19 '10 at 17:55
@Hellfrost: It's clear from the answer that typeid won't work as expected in the constructor. I guess the only way is to separately call another function after the object has been created. – casablanca Sep 19 '10 at 18:01

Johannes explains why this doesn't work.

As a possible workaround, you can pass a pointer to the derived class instance to the Parent constructor using the initialization list:

struct ChildA : Parent 
    ChildA() : Parent(this) { }

However, in the Parent constructor, if you dereference this pointer, typeid will still tell you that its dynamic type is Parent. You can, however, make the Parent constructor a template:

struct Parent
    template <typename T>
    Parent(T* x)

    // ...

This constructor template will be instantiated for each derived class type, and T will be the correct type of the derived class.

This approach becomes more difficult with multiple levels of inheritance and it requires that you pass the this pointer to the base class constructor explicitly, but it's one way to "solve" the problem.

share|improve this answer
ive copied exactly what you offered, why does it wants this: ChildA::ChildA(void) : Parant(*this) . to compile – AK_ Sep 19 '10 at 18:39
@Hellfrost: If your Child class looks exactly like that and the Parent constructor looks exactly like that, there should be no errors; are you sure your Parent constructor takes a T* and not a T? – James McNellis Sep 19 '10 at 20:32
I feel, Passing unconstructed this pointer from derived constructor to base constructor is dangerous. What do you say ? – bjskishore123 Sep 20 '10 at 3:14
@bjskishore123: It's not inherently wrong. Some compilers (Visual C++, for example) will issue a warning about it because obviously it is potentially unsafe. As long as the base class does not expect that the pointer refers to a constructed object, there's no problem. – James McNellis Sep 20 '10 at 3:18

You need to call the AddInstance from the child class constructors for the "this" pointer to be of child class type. But that imposes on each child class that they have to implement this "interface" of yours.

C++ doesn't support reflection like Java so this can't be done easily in a generic fashion.

share|improve this answer
boost does something similar with macros, so it is possible. anyhow the this pointer is pointing at the correct object with the correct v_table pointer so this should be possible – AK_ Sep 19 '10 at 18:05

You can make it work by passing class name from derived class like below.

class Parent
   Parent(const char* pClassName) //Gets called for every derived object with
   {                              //corresponding derived class name as parameter.
       AddInstance(pClassName);  //Instance count will be incremented here.

class ChildA: public Parent
      : Parent("ChildA") //Pass the child class name to Parent.
class ChildB: public Parent
      : Parent("ChildB")

Rest of the code remains same as what you provided.

share|improve this answer

Does this suffice your need? Uses CRTP

map<string, int> m;

template<class T> struct Base{
        m[typeid(T).name()]++;    // potentially unsafe

struct Derived : Base<Derived>{

struct AnotherDerived : Base<AnotherDerived>{

int main(){
    Derived d1, d2;
    AnotherDerived d11, d21;
share|improve this answer

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