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I need to store references to instances of derived classes in C++. I considered using a vector of shared_ptrs to the base class (for it needs to hold different types of derived classes), however, it's important that the container holds the original pointers, which is not the case with vectors (or other stl containers), if I'm not mistaken. Is there a way to do this in native C++, or do I have to use special containers like Boost's ptr_vector?

EDIT: This is my test code:

class Foo
    Foo() {}
    virtual ~Foo() {}
    virtual void set_x(int i) = 0;

class Bar : public Foo
    Bar() {}

    void set_x(int i)
        this->x = i;

    int x;

int main()
    Bar bar;

    // ptr
    std::cout << &bar << "\n";

    std::vector<Foo*> foos;

    // different ptr value
    std::cout << &foos[0] << "\n";


    // however, changes are made
    std::cout << bar.x;

    return 0;

Thanks in advance,


share|improve this question
Would vector<T*> (a vector of pointers to your objects) not work for you? – JoshD Sep 27 '10 at 3:10
it's not clear to me why a container of shared_ptr will not work for you. – Sam Miller Sep 27 '10 at 3:13
I tried that, but when I add the pointer of an instance via vector.push_back(&instance), the pointer in the vector differs from the original one. – jena Sep 27 '10 at 3:14
Could you provide code for this? That doesn't sound right. That's as if you did v.push_back(3) and you didn't end up with 3 in the vector. – JoshD Sep 27 '10 at 3:16
OK, although the pointer values differ one from another (i.e. the pointer of an instance from the pointer of it in the container), changes to an element in the container are reflected in the original instance. It seems I haven't fully figured out something... – jena Sep 27 '10 at 3:25
up vote 1 down vote accepted

In your example above, what you are printing out is the address of the pointer not the value of the pointer.

Instead of:

// different ptr value
std::cout << &foos[0] << "\n";


// different ptr value
std::cout << foos[0] << "\n";

Aside from that your vector<Foo*> will work just fine.

share|improve this answer
This is depressing... You are right, of course. Thanks for pointing that out, I should really consider some sleep. Thanks to all for your help - I apologize for this voidness. – jena Sep 27 '10 at 3:43
I'm glad I could help. If it was a good solution, could you please mark it as the accepted answer? – JoshD Sep 27 '10 at 3:45

You can create a std::vector<foo*>, which will hold any pointers to foo that you hand to it. It won't make any attempt to delete those pointers on destruction, which may or may not be what you want, but it will hold exactly the values you pass in.

You can also create an std::vector< shared_ptr<foo> >, which will hold pointers that will be released once there are no dangling copies of the shared_ptr floating around. Those will also hold the "original" foo* you passed in; you can get it again by using the shared_ptr::get() method.

The only time you wouldn't see exactly the same pointer as your derived object is if you're using multiple inheritance of classes, and your base classes include data. Because a foo* would end up, in that case, pointing to the "foo" part of the data, which wouldn't necessarily be at the "root" of the object.

share|improve this answer
I do not use multiple inheritance, but the base class contains data. Might this be the reason for elements in the vector to have different pointers from the originals? – jena Sep 27 '10 at 3:32
Didn't see your example the first time; the other answer already hit the meat of your problem, which was that you were getting the address of the VECTOR data and not the pointer itself. Sleep is an important part of development. :) – SomeCallMeTim Sep 27 '10 at 4:18

If you use shared_ptr as your container member, the pointer in each member will retain access to the original object instance. You can get a copy of a shared_ptr at any point after container housekeeping, but the original object will still be its target.

For a simpler solution you might use boost::ptr_vector, provided none of your pointers occur twice in the container - that scenario would introduce tricky resource management complexity and point you back to shared_ptr.

share|improve this answer
Do shared_ptr make sense with types that are not allocated on the heap? – jena Sep 27 '10 at 3:27
Nope. In that case when the variable goes out of scope, your shared_ptr will point to junk on the stack, maybe even inaccessible memory after stackframe unwind. – Steve Townsend Sep 27 '10 at 3:29

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