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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. And I feel dirty converting back to a reference, it just seems wrong.

Is it?

To clarify...

MyType *pObj = ...
MyType &obj = *pObj;

Isn't this 'dirty', since you can (even if only in theory since you'd check it first) dereference a NULL pointer?

EDIT: Oh, and you don't know if the objects were dynamically created or not.

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I'd say you can deference a pointer all you want but I'm not sure what such an act would imply. – Crazy Eddie Aug 9 '10 at 21:52
@John: Could you tell us whether the objects that you're storing pointers to are dynamically allocated? I assumed this was the case, but isn't an absolute need. – Steven Sudit Aug 9 '10 at 22:01
@John: Do not ever put yourself in a position to need to delete anything, it needs to be wrapped up. Use a shared_ptr implementation, a pointer container, or in C++0x a unique_ptr. Also, don't guess optimizations. Store them by value, and if performance becomes a measured problem, stores smart pointers to values instead. – GManNickG Aug 9 '10 at 22:04
@Steve: The only objection I can deduce from his argument is performance is a concern (hence the "really want to pass complex types by value" and finding a "better way" to copy things. Writing code to hack wrong code is not good code, it's a hack. One should fix the class with broken copy-semantics. – GManNickG Aug 9 '10 at 22:31

Ensure that the pointer is not NULL before you try to convert the pointer to a reference, and that the object will remain in scope as long as your reference does (or remain allocated, in reference to the heap), and you'll be okay, and morally clean :)

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How can a dynamically allocated object be in scope? – Billy ONeal Aug 9 '10 at 21:54
Null references are (inconveniently) undefined. – Steven Sudit Aug 9 '10 at 21:55
@Billy: We don't know that they're dynamically allocated, just that we're pointing at them. – Steven Sudit Aug 9 '10 at 21:55
@Billy: Re-read what they wrote. They're using STL containers but they don't want to store it by value in the container, necessitating a copy constructor on insertion. They want a container of (smart) pointers to values that may be dynamically allocated, or may not be (such as a static array, for example). – Steven Sudit Aug 9 '10 at 21:59
Smart pointers can have null destructors. Which is a good thing if you have a vector of smart pointers to objects, but want to store a stack allocated object for some reason. – gnud Aug 9 '10 at 23:38

Initialising a reference with a dereferenced pointer is absolutely fine, nothing wrong with it whatsoever. If p is a pointer, and if dereferencing it is valid (so it's not null, for instance), then *p is the object it points to. You can bind a reference to that object just like you bind a reference to any object. Obviously, you must make sure the reference doesn't outlive the object (like any reference).

So for example, suppose that I am passed a pointer to an array of objects. It could just as well be an iterator pair, or a vector of objects, or a map of objects, but I'll use an array for simplicity. Each object has a function, order, returning an integer. I am to call the bar function once on each object, in order of increasing order value:

void bar(Foo &f) {
    // does something

bool by_order(Foo *lhs, Foo *rhs) {
    return lhs->order() < rhs->order();

void call_bar_in_order(Foo *array, int count) {
    std::vector<Foo*> vec(count);  // vector of pointers
    for (int i = 0; i < count; ++i) vec[i] = &(array[i]);
    std::sort(vec.begin(), vec.end(), by_order);
    for (int i = 0; i < count; ++i) bar(*vec[i]); 

The reference that my example has initialized is a function parameter rather than a variable directly, but I could just have validly done:

for (int i = 0; i < count; ++i) {
    Foo &f = *vec[i];

Obviously a vector<Foo> would be incorrect, since then I would be calling bar on a copy of each object in order, not on each object in order. bar takes a non-const reference, so quite aside from performance or anything else, that clearly would be wrong if bar modifies the input.

A vector of smart pointers, or a boost pointer vector, would also be wrong, since I don't own the objects in the array and certainly must not free them. Sorting the original array might also be disallowed, or for that matter impossible if it's a map rather than an array.

share|improve this answer
Right, sometimes you just want a raw pointer, allowing ownership to be dealt with elsewhere. – Steven Sudit Aug 9 '10 at 23:02
And if the scope of the vector is safely inside some function where the referands are all valid, nobody gets hurt... – Steve Jessop Aug 9 '10 at 23:06

No. How else could you implement operator=? You have to dereference this in order to return a reference to yourself.

Note though that I'd still store the items in the STL container by value -- unless your object is huge, overhead of heap allocations is going to mean you're using more storage, and are less efficient, than you would be if you just stored the item by value.

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@Billy: You're probably right about the overhead. Having said that, there are occasionally objects that cannot be copied. – Steven Sudit Aug 9 '10 at 22:01
Wouldn't the overhead depend on what type of container you are using? For instance, a std::vector reserves memory in chunks and doesn't do a separate allocation for every element you add to it. A std::set or std::map implementation could very well perform a separate allocation for each element, and thus incur the overhead you speak of. Or perhaps there is something else I'm not considering. Please elaborate. – A. Levy Aug 9 '10 at 22:10
@A. Levy: A vector will reallocate as needed, copying instances from the old buffer to the new. But, yes, it'll allocate a contiguous range and use placement new to instantiate copies in these locations. A map will likely need a single block for each node, but then again, it's not likely to ever copy a node. – Steven Sudit Aug 9 '10 at 23:03
@Steven: Unless you copy the map itself. – Billy ONeal Aug 9 '10 at 23:12
It also means you class has to have an empty/default ctor. That can mean writing extra code just to allow you to put them in containers, when an object in this state is invalid. Just seems messy. – Mr. Boy Aug 10 '10 at 7:45

My answer doesn't directly address your initial concern, but it appears you encounter this problem because you have an STL container that stores pointer types.

Boost provides the ptr_container library to address these types of situations. For instance, a ptr_vector internally stores pointers to types, but returns references through its interface. Note that this implies that the container owns the pointer to the instance and will manage its deletion.

Here is a quick example to demonstrate this notion.

#include <string>
#include <boost/ptr_container/ptr_vector.hpp>

void foo()
    boost::ptr_vector<std::string> strings;

    strings.push_back(new std::string("hello world!"));
    strings.push_back(new std::string());

    const std::string& helloWorld(strings[0]);
    std::string& empty(strings[1]);
share|improve this answer
Nice. The smart pointer is effectively built in, but the container offers reference semantics. – Steven Sudit Aug 9 '10 at 23:50

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::vector<int&> or 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):

#include <iostream>
#include <vector>

// 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 main()
    int x = 5;
    std::vector<int*> pointers_to_ints;

    // 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.
    add_to_vector(pointers_to_ints, x);

    // get the pointer to x out of the container
    int* pointer_to_x = pointers_to_ints[0];

    // 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. Sure, pointers_to_vectors uses a dynamically-allocated array internally (and delete[]s 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 int*[] is delete[]-ed, but the int*s are not deleted.

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).

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If you want the container to actually contain objects that are dynamically allocated, you shouldn't be using raw pointers. Use unique_ptr or whatever similar type is appropriate.

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unique_ptr is only available in C++0x, which can be prohibitive. – Billy ONeal Aug 9 '10 at 21:55
@Billy: "or whatever similar type is appropriate". We have auto_ptr right now, but Boost offers a few better alternatives. – Steven Sudit Aug 9 '10 at 21:56
@Steven: auto_ptr cannot be stored inside STL containers. – Billy ONeal Aug 9 '10 at 21:57
@Bill: Please take that as a "ferinstance". There are many perfectly good smart pointers available in old C++ if you use Boost. Here's a nice summary: codesynthesis.com/~boris/blog/2010/05/24/… – Steven Sudit Aug 9 '10 at 23:53

There's nothing wrong with it, but please be aware that on machine-code level a reference is usually the same as a pointer. So, usually the pointer isn't really dereferenced (no memory access) when assigned to a reference. So in real life the reference can be 0 and the crash occurs when using the reference - what can happen much later than its assignemt.

Of course what happens exactly heavily depends on compiler version and hardware platform as well as compiler options and the exact usage of the reference.

Officially the behaviour of dereferencing a 0-Pointer is undefined and thus anything can happen. This anything includes that it may crash immediately, but also that it may crash much later or never.

So always make sure that you never assign a 0-Pointer to a reference - bugs likes this are very hard to find.

Edit: Made the "usually" italic and added paragraph about official "undefined" behaviour.

share|improve this answer
Hmm, does the C++ standard require references to be implemented as direct pointers? – Steven Sudit Aug 9 '10 at 23:55
No, but most compiler usually do so. So often derefencering a 0-Pointer and assigning it to a reference is possible in practice and may lead to strange crashes at other locations. I update my answer to state this more clearly. – IanH Aug 10 '10 at 7:33

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