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Why are the methods contains() and indexOf() in the Java collections framework defined using o.equals(e) and not e.equals(o) (where o is the argument of the methods and e is the element in the collection)?

Anyone know the reasons of that?

share|improve this question
You really need to clarify this question. What do you mean by e and 0? – aioobe May 27 '10 at 15:40
Note that the fact that o.equals(e) appears in the API specification does not constrain any implementations to actually implement it that way. They only have to produce the same answer as that would produce. Because equals() is contractually required to be reflexive, they're free to actually implement it in either direction. – Kevin Bourrillion May 28 '10 at 1:25
up vote 14 down vote accepted

Because o is known not be null, but e isn't necessarily. Take this example from the code for LinkedList:

for (Entry e =; e != header; e = {
    if (o.equals(e.element))
        return index;

In this example, doing it this way round avoids the need to protect against e.element being null for every item in the collection. Here's the full code that takes account of o being null:

if (o == null) {
    for (Entry e =; e != header; e = {
        if (e.element == null)
            return index;
} else {
    for (Entry e =; e != header; e = {
        if (o.equals(e.element))
            return index;
share|improve this answer
Both e and o can be null (at least in some collections). – Joachim Sauer May 27 '10 at 15:56
Yes, but that's already been catered for by the time you reach the loop. That's why I say o is known not to be null. – David M May 27 '10 at 15:58
Have edited the answer to make this clearer. – David M May 27 '10 at 15:59
I understood the question to be about the definition of the methods and not so much about the implementation, but looking back at it it could equally well be the other way around ... – Joachim Sauer May 27 '10 at 16:00
The definition also caters for o being null before it gets to .equals.... – David M May 27 '10 at 16:04

The difference between using x.equals(y) and y.equals(x) is the following:

If x is null, y.equals(x) would simply return false whyle x.equals(y) would result in a NullPointerException.

share|improve this answer
The way the methods are defined in the Javadoc ensures that equals() is never called with a null argument and is never called on a null reference. – Joachim Sauer May 27 '10 at 15:57
How can the documentation ensure that I wont call equals() with a null argument? – aioobe May 27 '10 at 16:28

Assume you have a collection of friendly objects, e.g.

class Friendly {
    final int i;
    Friendly( int i ) { this.i = i; }
    public boolean equals( Object o ) {
        return o != null && o instanceof Friendly && ((Friendly)o).i == this.i;

java.util.Collection c = new java.util.ArrayList();
for( int i = 0; i < 10; i++ )
    c.add( new Friendly(i) );

and you want to insert an unfriendly object, which is never to be found in a collection by contains:

class Unfriendly extends Friendly {
    Unfriendly( int i ) { super(i); }
    public boolean equals( Object o ) { return false; }

If contains called e.equals(o) then your sinister plan would fail, as the friendly elements already in the collection get to decide whether an unfriendly object equals to them or not. By calling o.equals(e) it is the unfriendly object passed to contains which gets to decide what it wants to be equal to, allowing you to make use of the method overriding facility.

System.out.println("contains friendly? " + c.contains(new Friendly(1)));
#> contains friendly? true
System.out.println("contains unfriendly? " + c.contains(new Unfriendly(1)));
#> contains unfriendly? false

contains friendly? is true because we are using ArrayList; had we been using HashSet or anything hashed, it becomes necessary to specify a hashCode method too.

Notice that although the contract for contains requires the use of the equals method, some implementations may not conform to this, such as org.eclipse.emf.common.util.BasicEList, wasting your time by having you figure that out.

In this case you have to do the comparison yourself, e.g.

boolean contained = false;
for( Object e : c )
    if( o.equals(e) ) { contained = true; break; }
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