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I'm writing a skiplist class in java as an excercise. I've written a class called SkipListInternal<E> which contains the actual skiplist. I've also made a wrapper class called SkipListSet<E> which implement the SortedSet<E> interface and contains an instance of SkipListInternal<E>.

Among other things, SkipListInternal<E> contains a method E find(E e) which returns the element equal to e if it is present, and otherwise returns null.

When writing the boolean contains(Object o) (inherited from Collection<E> via SortedSet<E>) method I noticed that its argument is an Object and not an E. I intended to do something like this, but is not possible due to type erasure:

public class SkipListSet<E> implements SortedSet<E>{
   private SkipListInternal<E> skiplist;


   public boolean contains(Object o){
       if (!(o instanceof E)) return false;
       return skiplist.find((E) o) != null;



Since it can't be done this way, how should I do it?

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4 Answers 4

up vote 8 down vote accepted

Strictly speaking such an implementation would be wrong.

The reason for this is that even if an object is not of type E, it could still return true on an equals() call.

Assume for a second, that you've got a class like this:

public class FakeString {
  private final String value;

  public FakeString(String value) {
    if (value == null) {
      throw new IllegalArgumentException();
    this.value = value;

  public int hashCode() {
    return value.hashCode();

  public boolean equals(Object o) {
    return value.equals(o);

Then this code would print true:

List<String> strings = Arrays.asList("foo", "bar", "baz");
System.out.println(strings.contains(new FakeString("bar")));

And just to clarify: this behaviour is intended and is the reason why contains() takes an Object instead of E. The same is true for remove(), by the way.

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Is it really intended behaviour? The rules for equals require the implementation to be symmetric, but your FakeString breaks that rule. And all built-in SortedSet implementations (TreeSet, the skip-list implementation from java.util.concurrent) uses Comparator/Comparableand does not call equals at all. – Dirk Feb 14 '11 at 12:36
@Dirk, The same problem applies to Comparator/Comparable. – Peter Lawrey Feb 14 '11 at 12:41
@Dirk: The TreeSet documentation even claims that it "[..] fails to obey the general contract of the Set interface." – Joachim Sauer Feb 14 '11 at 12:44
@Dirk: and while my sample violates the equals() contract it's easy to construct a sample with PersonData and PersonStub where the equals() construct is held up and you can still remove a PersonData object from a List<PersonData> using a PersonStub as the argument. – Joachim Sauer Feb 14 '11 at 12:45
Jup. Pretend my initial comment as being "withdrawn" (kept for reference, though :-) Anyhow: the OP wants to implement a SortedSet. As your answer is the current favourite... Maybe you could add a few sentences about using Comparator/Comparable instead of equals in the contains method, as having an O(n) implementation if an O(log n) is possible due to the chosen data structure might be worthwhile. – Dirk Feb 14 '11 at 13:39

Since the contains() is from java.util.Collection, We are supposed to follow the Collection.contains() contract. Because throwing ClassCastException is an optional behavior, it's correct to return false in your code when cast fails. So I think your implementation comply with the contract.

         * Returns true if this collection contains the specified element.
         * More formally, returns true if and only if this collection
         * contains at least one element e such that
         * (o==null ? e==null : o.equals(e)).
         * @param o element whose presence in this collection is to be tested
         * @return <tt>true</tt> if this collection contains the specified
         *         element
         * @throws ClassCastException if the type of the specified element
         *         is incompatible with this collection (optional)
         * @throws NullPointerException if the specified element is null and this
         *         collection does not permit null elements (optional)
         boolean contains(Object o);
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+1 : since the contract specifies that ClassCastException may be thrown if the given object is not of the right type, I would just cast the object to the generic type E. – JB Nizet Feb 14 '11 at 12:57
@JBNizet: If I have a collection of Animal, and I want to ask a collection of Cat whether it contains each of the items therein, there should be no problem with that. When asked if it contains Fido, it would seem more logical for it to simply reply "No, it doesn't", than to throw an exception. – supercat Dec 19 '13 at 23:07

@Joaschim comment is correct for standard collections, however if you want a checked collection I suggest you check what can be added, and not optimise for the lookups of invalid types (unless you want to throw an Exception) You can do something like.

public class SkipListSet<E> implements SortedSet<E>{
   private final Class<E> eClass;
   private final SkipListInternal<E> skiplist;

   public boolean add(Object o) {
    // OR
       if(eClass != o.getClass())
           throw new IllegalArgumentException("Type "+o.getClass()+" is not a "+eClass);

   public boolean contains(Object o){
       // if (!(o instanceof E)) return false; // don't need to optmise for this.
       return skiplist.find((E) o) != null;



BTW: Java has a builtin thread safe ConcurrentSkipListSet and ConcurrentSkipListMap You might find it interesting to read the source for this. ;)

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Thanks for the tip about the built-in classes! I had managed to completely miss those. – Viktor Dahl Feb 14 '11 at 12:50

In order for a sorted set implementation to work, the elements of the set have to have an ordering. This may either be "natural" (i.e., the elements implement Comparable) or "imposed" (by using an explicit Comparator during set construction).

So, the first thing is, that you'd probably rather use the ordering defined for the set elements (after all, you are implementing a SortedSet!) instead of equals in contains for efficiency. I assume, that you are already using an ordering in your internal SkipListInternal<E> -- how'd you maintain the Sorted in SortedSet given only equals?

The fact that contains is actually declared as contains(Object key) in the interface is really unfortunate. I'd do, what the TreeMap implementation does (which is the underlying container for TreeSet, the standard SortedSet from the collections framework):

if (comparator != null)
    return getEntryUsingComparator(key);
if (key == null)
    throw new NullPointerException();
Comparable<? super K> k = (Comparable<? super K>) key;

i.e., cast, assuming the client application using your collection behaves sanely.

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