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if I remember correctly the default hashCode() implementation in java of an object of type Object() is to return the memory address of the object. When we create our own classes, I read that we want to override hashCode() so that when we insert them into a hash related collection like HashMap() it will work properly. But why is a memory address bad?

Sure we will EVENTUALLY run out of memory and you'll have collisions, but the only case where I see this being a problem is where you are dealing with TONS of data and have very little memory, and then it would START to affect performance because hash related collections in java resolve collisions by chaining(a bucket will link to a list of values that resolved to the same hashcode/index).

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You're not on the problem. You could start reading this. The problem can't be seen independantly of the equality concept. –  Denys Séguret Apr 12 '13 at 18:06
There is nothing bad about it at all, it needs to be changed sometimes for other reasons. –  Affe Apr 12 '13 at 18:16

3 Answers 3

The default implementation works fine if every object is unique. But if you override equals() then you are implicitly saying that objects with different addresses can be equivalent to each other. In that case you have to also override hashCode().

Think of the String class.

String s1 = new String("foo");
String s2 = new String("foo");

These two strings are equal and so their hash codes must be equal. But they are distinct objects with different addresses.

s1 == s2         // false, different addresses
s1.equals(s2)    // true, same contents

Using their addresses as hash codes would be an error. Therefore, String overrides hashCode() to ensure that equal strings have equal hash codes. This helps meet hashCode()'s contract, which is:

If a.equals(b) is true, then a.hashCode() == b.hashCode().

Bottom line: If you override equals(), also override hashCode().

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thanks, it looks like it all depends on how you define equality then. In the example you provided equality was determined by their string values so using Object()'s hashCode() would be bad because you would have 2 different entries in your hashmap although they are the same. I looked up how Java implemented hashCode() for string and found this: java-bytes.blogspot.com/2009/10/hashcode-of-string-in-java.html; would someone care to explain this or how to override hashCode() in general? All the examples I've seen online look complicated. –  HukeLau_DABA Apr 12 '13 at 18:21
Effective Java by Josh Bloch covers this well and has strategies for implementation. Ides will also generate reasonable implementations for you. For example an Employee class may be uniquely identified by its employee I'd. In which case you will use it do equality and hashing. Josh Bloch suggests using some technique to spread closely related numbers (making the hash more efficient (core java books explain why this is good). If your class is unique across multiple fields (composite key), then each of these should be used in your equality and hash methods –  Romski Apr 12 '13 at 20:59
I believe the "foo" String example isn't precise since Java interns String literals and constants, so s1 == s2 is true even though they are different objects. –  ChaimKut Apr 11 '14 at 13:06
@ChaimKut It doesn't intern them if you explicitly invoke new. –  John Kugelman Apr 11 '14 at 15:14

While you don't use equals method it's OK to not define hashCode, but after that contract of hashCode is to give same result for objects, that equals. You can't be sure it will, so you need to rewrite it yourself


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Exact key objects used while putting objects into hashmap may not be available to access the map later on in your program. So you will end up overriding equals method. When you override equals method you make sure that their hashcodes are also equal, otherwise you cannot retrieve the objects from the hashmap.

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