The correct way to return the only element from a set
You could grab the iterator:
Element firstEl = set.iterator().next();
You can use an Iterator
to both obtain the only element as well as verify that the collection only contains one element (thereby avoiding the size()
call and the unnecessary list creation):
Iterator<Element> iterator = set.iterator();
if (!iterator.hasNext()) {
throw new RuntimeException("Collection is empty");
}
Element element = iterator.next();
if (iterator.hasNext()) {
throw new RuntimeException("Collection contains more than one item");
}
return element;
You would typically wrap this up in its own method:
public static <E> E getOnlyElement(Iterable<E> iterable) {
Iterator<E> iterator = iterable.iterator();
// The code I mentioned above...
}
Note that this implementation is already part of Google's Guava libraries (which I highly recommend, even if you don't use it for this particular code). More specifically, the method belongs to the Iterables
class:
Element element = Iterables.getOnlyElement(set);
If you're curious about how it is implemented, you can look at the Iterators
class source code (the methods in Iterables
often call methods in Iterators
):
/**
* Returns the single element contained in {@code iterator}.
*
* @throws NoSuchElementException if the iterator is empty
* @throws IllegalArgumentException if the iterator contains multiple
* elements. The state of the iterator is unspecified.
*/
public static <T> T getOnlyElement(Iterator<T> iterator) {
T first = iterator.next();
if (!iterator.hasNext()) {
return first;
}
StringBuilder sb = new StringBuilder();
sb.append("expected one element but was: <" + first);
for (int i = 0; i < 4 && iterator.hasNext(); i++) {
sb.append(", " + iterator.next());
}
if (iterator.hasNext()) {
sb.append(", ...");
}
sb.append('>');
throw new IllegalArgumentException(sb.toString());
}
The best general solution (where you don't know the actual set class) is:
Element first = set.iterator().next();
If the set class is known to be a SortedSet
(e.g. a TreeSet
or ConcurrentSkipListSet
), then a better solution is:
Element first = ((SortedSet) set).first();
In both cases, an exception will be thrown if the set is empty; check the javadocs. The exception can be avoided using Collection.isEmpty()
.
The first solution is O(1)
in time and space for a HashSet
or LinkedHashSet
, but typically worse for other kinds of set.
The second one is O(logN)
in time , and uses no space for TreeSet
or ConcurrentSkipListSet
.
The approach of creating a list from the set contents and then calling List.get(0)
gives a poor solution since the first step is an O(N)
operation, both in time and space.
I failed to notice that N
is actually 1
. But even so, creating an iterator is likely to be less expensive than creating a temporary list.