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I am stuck with a problem of runtime pointer assigning in C++. I have a base class with 2 members thread and threads.

class base {

    struct base_struct {
        int a;
    base_struct thread;
    std::vector<base_struct> threads;

    void fn () {}


derived1 is derived from base and has the same two members (thread and threads) but of different type.

class derived1 : public base {
    struct derived_struct11 : public base_struct {
        int b;
    derived_struct11 thread;
    std::vector<derived_struct11> threads;

    void fn () {


derived2 is also derived from base and has the same two members (thread and threads) but of different type.

class derived2 : public base {
    struct derived_struct22 : public base_struct {
        int c;
    derived_struct22 thread;
    std::vector<derived_struct22> threads;

    void fn () {


Only at runtime can I know whether derived1 or derived2 should be used. So I did it in following way :

base base_obj;
derived1 derived1_obj;
derived2 derived2_obj;

base *ptr ;

In runtime function :

    if (condition == yes)
        ptr = &derived1_obj;

        ptr = &derived2_obj;

Problem is that I can access the functions coreectly with this pointer. But the value of threads (e.g: threads.size() is always shown as that of base class.

I want to know of some better way to implement this.

share|improve this question
This shouldn’t even compile since base::base_struct is private. – Konrad Rudolph May 15 '12 at 10:37
It was just a sample :) – deeps8us May 15 '12 at 11:02
It was a bad sample. It’s very important that you post correct code. This makes helping much easier. – Konrad Rudolph May 15 '12 at 11:16

The direct problem is that data members can't be virtual, so you can't override threads in derived classes. One solution may be to have only one threads in the base class, and store all struct instances in there.

However, you would then run into the problem of slicing: you are storing objects by values in an std::vector<base_struct>. This means that whenever you put an object into it, it will get copied into the vector, using the (generated) copy constructor of base_struct. Which means that the derived part of the original object will be sliced off, and you will only get a base_struct element.

To enable polymorphism you should store only pointers to base_struct in your vector:

std::vector<base_struct*> threads;

Another way would be to provide a virtual getter for threads, which you can then override in derived classes to return the desired collection. However, having several data members with the same name in a class hierarchy is IMO not a good idea. It can confuse people and result in subtle bugs. So I would prefer the first solution unless there is a very pressing reason to keep a separate collection in each class.

share|improve this answer
Thanks guys .. I do have specific reason to keep the same name members in both classes. Will try out other solutions. – deeps8us May 15 '12 at 10:55

One way around would be

base_struct* thread;
std::vector<base_struct*> threads; // <- hmmmmmmm

Then in your derived classes, set the base members appropriately (rather than defining two new members in the derived class - which I think is not what you are looking for anyway)

share|improve this answer

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