I don't like answer like "never do" so I'll answer, but gives you some tricks to bypass the risk of freeing the vector without freeing the content.
if I understand well you have a vector of DETAIL pointers:
So you want a method to remove and delete all pointed objects which refer to a certain m_SomeVar: (for now let's imagine it's a free function)
void free_references(int reference, std::vector<DETAIL*> & vector)
std::vector<DETAIL*>::iterator it = vector.begin();
while (it != vector.end())
if ((*it)->nRef == reference)
// erase() makes the original 'it' in an unknown state which can't be used
// erase will return a valid iterator which is, in this case, the following element
it = vector.erase(it);
As I understand in your code, the vector is member of a class. Which is good cause you'll be able to delete everything in the destructor.
However, I would use
std::unique_ptr here to "give" the ownership of the pointer to the unique_ptr container inside the vector. And when the vector memory is free, the
std::unique_ptr smart point make sure that the owned pointed object is freed.