The way I see it, you have several options when someone calls
pop and the queue is empty.
One is actually blocking. This of course only works when you have the hope that someone else will put something in the queue while you are blocked and waiting (i.e. multithreaded code.) As you have mentioned, there are also problems when the queue is shutting down.
Another is throwing an exception when there is nothing to pop. However, some people have legitimate (and sometimes ill-founded) apprehensions about using exceptions in C++.
Another method I like and recommend (if you don't want to throw) is returning an
optional<T> object, i.e. a wrapper for
T that can be empty.
It was supposed to be part of C++14, but it seems that it has been pushed into its own technical specification, which means that I don't know when it will be standardized. Let's forget this fact however, and see how one can use it:
// I've omitted proper "queue" class stuff for brevity,
// and assumed the underlying queue has an STL-like interface
std::optional<Object> pop ()
There are of course locking and other details that are omitted. You would use the above like this:
auto x = q.pop ();
LOG ("Failed to pop an item.");
USE (*x); // *x is an Object
Since your objects do support moving, this will be quite an efficient implementation. Also, I'd suggest naming the above method
try_pop or something similar, in order to better indicate what it actually does.
optional is not part of the C++ language yet, you can see whether your compiler happens to implement it already (it's not a complicated piece of code!) Or you can use Boost.Optional. Or you can implement it yourself, or use other implementations that ought to be available around the web somewhere.
All in all, if it was my code, I'd write a
pop method that blocks if necessary and returns an
Object, and throws only when the queue is being shutdown (i.e. there won't be any more objects coming.) And I would also implement a
try_pop that returns an
optional<Object> for when you don't want your code to block or to deal with exceptions.