8

I think my question is quite simple, however I couldn't find the solution so I decided to ask here. What i need is to make a HashMap with a custom Key type like this:

HashMap<Pair<Integer, Integer>, StrategyPoint> myMap = new HashMap<Pair<Integer, Integer>, StrategyPoint> ();

However I am missing something here, because the HashMap stops working properly. First the Key becomes not unique and a different instances of Pair with same values can be found in the keySet. Also the contains key function does not work the way I suppose it to :).

I clearly miss something and more likely I should somehow define a way to compare my instances from my Pair class. However I tried implementing Comparable with compareTo in my Pair class and it still don't work. Any suggestions?

My original code is kinda messy and unfriendly to read, so I made an example just to illustrate my problem here.

Here is the code:

HashMap<Pair<Integer, Integer>, StrategyPoint> myMap = new HashMap<Pair<Integer, Integer>, StrategyPoint> ();
    Pair<Integer, Integer> myPair = new Pair<Integer, Integer>(2,2);
    StrategyPoint myPoint= new StrategyPoint(2, 2, 5, 5, false);
    myMap.put(myPair, myPoint);


    Pair<Integer, Integer> searcher = new Pair<Integer, Integer> (0,0);
    searcher.setFirst(2);
    searcher.setSecond(2);
    System.out.println(myMap.containsKey(searcher));
    System.out.println(myMap.containsKey(myPair));

The result from execution is:

false

true

I have debug it and the searcher instance is being populated properly, however it seems the HashMap refuse to find it in its keySet.

14

You must implement properly equals and hashCode on the Pair class.

The HashMap uses these methods to differentiate and hash the key class.

5

You need to override equals in the class Pair. The implementation of this method defines how two objects of Pair are considered equal.

And whenever you override equals you must always override hashcode.

Here is what can go wrong when you override equals but not hashcode (from Effective Java, Second Ed.):

Two distinct instances may be logically equal according to a class’s equals method, but to Object’s hashCode method, they’re just two objects with nothing much in common. Therefore Object’s hashCode method returns two seemingly random numbers instead of two equal numbers as required by the contract.

Because the hashcodes for two logically equal instances become unequal, if you try to search for one while another is in the collection, you will end up looking in the wrong hash bucket which results in null.

There is a set of rules that implementation of equals must conform to. Another set of rules for overriding hashcode.

  • -1: Your answer is late, and incomplete. The two other ones are correct already. – JB Nizet Feb 23 '13 at 10:02
  • 4
    Late is not less useful. – Nishant Shreshth Feb 23 '13 at 10:17
  • 1
    At the time of the downvote, you completely forgot about hashCode, which made your answer plain wrong (and thus not useful). Don't try to rewrite history. I removed my downvote, since the answer is now fixed. – JB Nizet Feb 23 '13 at 10:24
  • aye aye, sir - I hear the command, I understand it and will comply with the order :) – Nishant Shreshth Feb 23 '13 at 10:36
2

Your Pair class need to implement hashCode() and equals() according to the contract specified in the Javadoc for Object.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.