When using C++ STL containers, under what conditions must reference values be accessed? For example are any references invalidated after the next function call to the container?
{
std::vector<int> vector;
vector.push_back (1);
vector.push_back (2);
vector.push_back (3);
vector[0] = 10; //modifies 0'th element
int& ref = vector[0];
ref = 10; //modifies 0'th element
vector.push_back (4);
ref = 20; //modifies 0'th element???
vector.clear ();
ref = 30; //clearly obsurd
}
I understand that in most implementations of the stl this would work, but I'm interested in what the standard declaration requires.
--edit: Im interested becuase I wanted to try out the STXXL (http://stxxl.sourceforge.net/) library for c++, but I realised that the references returned by the containers were not persistent over multiple reads, and hence not compatible without making changes (however superficial) to my existing stl code. An example:
{
std::vector<int> vector;
vector.push_back (1);
vector.push_back (2);
int& refA = vector[0];
int& refB = vector[1]; //refA is not gaurenteed to be valid anymore
}
I just wanted to know if this meant that STXXL containers where not 100% compatible, or indeed if I had been using STL containers in an unsafe/implementation dependant way the whole time.
reference,const_reference,pointerandconst_pointerwhich are set to corresponding typedefs from the underlying allocator. It seems as though the standards committee initially wanted to set up an abstraction for refs and pointers so that even these things could be "managed" by a container (in the way that iterators already are) using proxies, but stopped partway though -- the standard mandates that the type ofallocator<T>::pointerbeT*etc., making the typedefs themselves ultimately pointless I think. – j_random_hacker Sep 8 at 18:14