5

There is that peculiar interface which is documented as such (extracts only):

Marker interface used by List implementations to indicate that they support fast (generally constant time) random access. The primary purpose of this interface is to allow generic algorithms to alter their behavior to provide good performance when applied to either random or sequential access lists.

The listed implementations are (as of JDK 8):

ArrayList, AttributeList, CopyOnWriteArrayList, RoleList, RoleUnresolvedList, Stack, Vector

Two of which (the latter two, in fact) are obsolete in any code you would produce today.

Now, as a word of warning, my research has been so NOT extensive that I am asking this question out of a whim. Is there any use case at this point in time where one would see the need to use this interface, or even implement it?

3

This marker interface could be useful for algorithm implementors. Lists which implement this interface can be handled differently from the lists without random access.

For example, "if the list is random-access, use binary search, otherwise use linear search."

One example is Guava's Lists.transform:

public static <F, T> List<T> transform(
        List<F> fromList, Function<? super F, ? extends T> function) {
   return (fromList instanceof RandomAccess)
       ? new TransformingRandomAccessList<F, T>(fromList, function)
       : new TransformingSequentialList<F, T>(fromList, function);
}
1

Having a quick look at the OpenJDK's java.util.Collections code this is still used and useful.

For example the Collections.binarySearch method uses this marking interface to chose between two implementations.

public static <T> int binarySearch(List<? extends Comparable<? super T>> list, T key) {
     if (list instanceof RandomAccess || list.size()<BINARYSEARCH_THRESHOLD)
         return Collections.indexedBinarySearch(list, key);
     else
         return Collections.iteratorBinarySearch(list, key);
 }
0

The documentation gives a good example of how to use this interface: as an indicator. I could imagine such a usecase: You have a list and don't know if it behaves faster by iterating or by randomly accessing:

void process(List<E> items) {
    if (items instanceof RandomAccess)
        for (int i = 0; i < items.size(); i++) System.out.println(items.get(i));
    else
        for (E item : items) System.out.println(item);
}
1
  • This is just restating the first quote in code. I'd be interested to know of concrete, non-toy examples. – Andy Turner Mar 19 '15 at 22:09

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