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I have been using unordered_map<int, myObject> with myObject* pointers to the objects in the unordered map. This has worked for a while, but I recently dicovered that I wrongly assumed that the memory location of myObject added to the unordered map would always remain the same.

I can solve the problem by using unordered_map<int, myObject*> and new and delete when adding and removing elements from the unordered map.

Since I have quite some code I would not want to add new and delete every place in the code where I am modifying the unordered map, I would rather try to overload the unordered_map::operator[] and unordered_map::erase() such that the usage of new and delete would happen transparently and I would not have to change my existing code. unordered_map::operator[] could then return a reference to the myObject itself rather than the pointer.

I have tried to inherit unordered_map but I am not sure how I should add the template argument list:

using namespace std;

template<class _Kty,
class _Ty,
class _Hasher = hash<_Kty>,
class _Keyeq = equal_to<_Kty>,
class _Alloc = allocator<pair<const _Kty, _Ty> > >
class  my_unordered_map : public unordered_map<_Umap_traits<_Kty, _Ty,
_Uhash_compare<_Kty, _Hasher, _Keyeq>, _Alloc, false> >


But I am getting errors such as:

error C2976: 'std::unordered_map' : too few template arguments
error C2955: 'std::unordered_map' : use of class template requires template argument list

Then I realized it might be possible to add a specialization to std when using the myObject* type with unordered_map, but I am not sure if it is even possible to overload the operator[] with a specialization.

I apprechiate any help I could get, thank you!


I have now created a template <class mapped_type> class with an unordered_map<int, mapped_type*> as an internal structure. The operator[] was fairly straightforward to include:

template <class mapped_type> class MyMap {
    std::unordered_map<int, mapped_type*> internal_map;

    mapped_type& operator[](int&& _Keyval)
    {   // find element matching _Keyval or insert with default mapped
        mapped_type*& ptr = internal_map[_Keyval];
        if (ptr == nullptr) ptr = new mapped_type();
        return *ptr;

void erase(const int& _Keyval)
{   // erase and count all that match _Keyval
    mapped_type* ptr = internal_map[_Keyval];
    if (ptr) delete ptr;

void clear()
{   // erase all

Now the problem is the erase methods (default methods are included in std::_Hash). I do not really need an iterator so I guess the best way might be to use the operator[] method first to find the entry and then use delete before removing it from the internal_map, or do you have any other ideas that might be more suitable?

Edit: Added suggestion for erase. This makes sense right?

share|improve this question
What about using a value-semantics wrapper of myObject? Something similar to unique_ptr<myObject> but with automatic creation of a myObject in the default ctor. Or you could use a std::map, its insert function does not invalidate references. – dyp Jan 11 '14 at 17:03
Thank you for the comment, I was not aware that the std::map did not invalidate the references. I have updated my question now and I will first try to solve it in the suggested manner. – user1723676 Jan 11 '14 at 19:19
You're changing a copy of the pointer stored in the map. You'd have to use something like mapped_type*& ptr = internal_map[_Keyval]; – dyp Jan 11 '14 at 19:38
That is true, thank you! :) – user1723676 Jan 11 '14 at 19:43
"I recently dicovered that I wrongly assumed that the memory location of myObject added to the unordered map would always remain the same." You were correct, and are now mistaken: operations that modify an unordered_map can invalidate iterators, but not pointers or references to elements (with the obvious exception of erased elements). The elements themselves will never move. – Casey Jan 11 '14 at 20:28

1 Answer 1

To inherit from std::unordered_map it is sufficient to use

template <class T,class V> 
class MyMap : public unordered_map<T, V>

if its ok for you to use the std allocator and hash function. But beware, that there isn't a virtual destructor in the standard containers.

Anyway, what you want to do in the end sounds to me like you want to have an intrusive container. If so, then there is this related SO question.

share|improve this answer
Inheriting from standard containers is not such a great idea – n.m. Jan 11 '14 at 16:52
@n.m. added a disclaimer. – Sebastian Dressler Jan 11 '14 at 16:55
Thank you for your suggestion, I have now updated my question, it seems like I will be able to solve the problem this way. – user1723676 Jan 11 '14 at 19:20

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