I'd much prefer to use references everywhere but the moment you use an STL container you have to use pointers unless you really want to pass complex types by value.
Just to be clear: STL containers were designed to support certain semantics ("value semantics"), such as "items in the container can be copied around." Since references aren't rebindable, they don't support value semantics (i.e., try creating a
std::list<double&>). You are correct that you cannot put references in STL containers.
Generally, if you're using references instead of plain objects you're either using base classes and want to avoid slicing, or you're trying to avoid copying. And, yes, this means that if you want to store the items in an STL container, then you're going to need to use pointers to avoid slicing and/or copying.
And, yes, the following is legit (although in this case, not very useful):
// note signature, inside this function, i is an int&
// normally I would pass a const reference, but you can't add
// a "const* int" to a "std::vector<int*>"
void add_to_vector(std::vector<int*>& v, int& i)
int x = 5;
// x is passed by reference
// NOTE: this line could have simply been "pointers_to_ints.push_back(&x)"
// I simply wanted to demonstrate (in the body of add_to_vector) that
// taking the address of a reference returns the address of the object the
// reference refers to.
// get the pointer to x out of the container
int* pointer_to_x = pointers_to_ints;
// dereference the pointer and initialize a reference with it
int& ref_to_x = *pointer_to_x;
// use the reference to change the original value (in this case, to change x)
ref_to_x = 42;
// show that x changed
std::cout << x << '\n';
Oh, and you don't know if the objects were dynamically created or not.
That's not important. In the above sample,
x is on the stack and we store a pointer to
x in the
pointers_to_vectors uses a dynamically-allocated array internally (and
deletes that array when the
vector goes out of scope), but that array holds the pointers, not the pointed-to things. When
pointers_to_ints falls out of scope, the internal
delete-ed, but the
int*s are not
This, in fact, makes using pointers with STL containers hard, because the STL containers won't manage the lifetime of the pointed-to objects. You may want to look at Boost's pointer containers library. Otherwise, you'll either (1) want to use STL containers of smart pointers (like
boost:shared_ptr which is legal for STL containers) or (2) manage the lifetime of the pointed-to objects some other way. You may already be doing (2).