I am having confusion in hashing:

When we use Hashtable/HashMap (key,value), first I understood the internal data structure is an array (already allocated in memory).

Java hashcode() method has an int return type, so I think this hash value will be used as an index for the array and in this case, we should have 2 power 32 entries in the array in RAM, which is not what actually happens.

So does Java create an index from the hashcode() which is smaller range?


As the guys pointed out below and from the documentation: http://grepcode.com/file/repository.grepcode.com/java/root/jdk/openjdk/6-b14/java/util/HashMap.java

HashMap is an array. The hashcode() is rehashed again but still integer and the index in the array becomes: h & (length-1); so if the length of the array is 2^n then I think the index takes the first n bit from re-hashed value.

  • The standard Java API does not have a HashTable type. Did you mean Hashtable? – Lew Bloch Sep 29 '17 at 21:54
  • @LewBloch yes Hashtable – Mosab Shaheen Sep 30 '17 at 5:16
  • "In java hashcode() method has an int return type, so in theory we should have 2 power 32 (i.e. 4 Giga entries) already reserved for the array in RAM" - I don't see your reasoning here. – Jon Skeet Sep 30 '17 at 8:04
  • @JonSkeet Hi. Pls check the update above. – Mosab Shaheen Sep 30 '17 at 8:16
  • The update doesn't explain why you thought that the internal array would have to be size 2^32 in the first place. Your "so in theory" suggests a logical step that you haven't explained (and which is incorrect). – Jon Skeet Sep 30 '17 at 8:22

Generally the base data structure will indeed be an array.

The methods that need to find an entry (or empty gap in the case of adding a new object) will reduce the hash code to something that fits the size of the array (generally by modulo), and use this as an index into that array.

Of course this makes the chance of collisions more likely, since many objects could have a hash code that reduces to the same index (possible anyway since multiple objects might have exactly the same hash code, but now much more likely). There are different strategies for dealing with this, generally either by using a linked-list-like structure or a mechanism for picking another slot if the first slot that matched was occupied by a non-equal key.

Since this adds cost, the more often such collisions happen the slower things become and in the worse case lookup would in fact be O(n) (and slow as O(n) goes, too).

Increasing the size of the internal store will generally improve this though, especially if it is not to a multiple of the previous size (so the operation that reduced the hash code to find an index won't take a bunch of items colliding on the same index and then give them all the same index again). Some mechanisms will increase the internal size before absolutely necessary (while there is some empty space remaining) in certain cases (certain percentage, certain number of collisions with objects that don't have the same full hash code, etc.)

This means that unless the hash codes are very bad (most obviously, if they are in fact all exactly the same), the order of operation stays at O(1).

  • Thanks Jon for replying. Let's take Java hashcode() method as an example. This method returns int. Does this mean that the HashMap (that will use this method) will make an array of 2 power 32 entries (4 Giga entries) in RAM . If not so why the return type is int, is seems better to make it byte/short type. – Mosab Shaheen Sep 29 '17 at 17:26
  • It'll start off at a smaller size, but get larger as needed. Going for 4billion possible values both gives a large maximum size and also makes it less likely that when modulo down to a smaller size that two items keep colliding each time. – Jon Hanna Sep 29 '17 at 21:58
  • This seams reasonable, Jon +1 – Mosab Shaheen Sep 30 '17 at 8:13

The structure for a Java HashMap is not just an array. It is an array, but not of 2^31 entries (int is a signed type!), but of some smaller number of buckets, by default 16 initially. The Javadocs for HashMap explain that.

When the number of entries exceeds a certain fraction (the "load factor) of the capacity, the array grows to a larger size.

Each element of the array does not hold only one entry. Each element of the array holds a structure (currently a red-black tree, formerly a list) of entries. Each entry of the structure has a hash code that transforms internally to the same bucket position in the array.

Have you read the docs on this type? http://docs.oracle.com/javase/8/docs/api/java/util/HashMap.html

You really should.

  • Thanks Lew. So in case the HashMap used number of buckets less than 2^31 that means the int hash value returned from hashcode() method will be re-hashed again to fit the range e.g. 16 by default, please correct me if I am wrong? If this is the case what is the currently used way/algorithm for re-hashing that int hash value into smaller one(is it the simple modulo )? – Mosab Shaheen Sep 30 '17 at 5:48
  • @MosabShaheen Why don't you just read the documentation and source code of HashMap? It's free, and bundled with your JDK. – JB Nizet Sep 30 '17 at 6:02
  • @JBNizet thanks. The hashcode() is rehashed again but still int and the index in the array becomes: h & (length-1); so if the length of the array is 2^n then I think the index takes the first n bit from re-hashed value. grepcode.com/file/repository.grepcode.com/java/root/jdk/openjdk/… – Mosab Shaheen Sep 30 '17 at 7:52
  • This seams reasonable, Lew +1 – Mosab Shaheen Sep 30 '17 at 8:14

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