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why not:

public native long hashCode();

instead of:

public native int hashCode();

for higher chance of achieving unique hash codes?

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3  
This might make more sense with 64-bit JDKs, however even today a long hashCode would make too little difference. Hashcode don't have to be unique and 32-bit int is fine provided you have significantly less than 4 billion entries. –  Peter Lawrey Nov 12 '10 at 16:25

3 Answers 3

up vote 14 down vote accepted

Because the maximum length of an array is Integer.MAX_VALUE.

Since the prime use of hashCode() is to determine which slot to insert an object into in the backing array of a HashMap/Hashtable, a hashcode > Integer.MAX_VALUE would not be able to be stored in the array.

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Valid point. I'm not sure that it's documented in spec, but HashMap from Sun JDK cannot have table bigger than 1 << 30 (~ Integer.MAX_VALUE / 2) –  Roman Nov 12 '10 at 15:47
5  
-1: The backing array is almost always much smaller, so it needs to be scaled down anyway. Scaling down from 64 bit would not really be a problem. Besides, hashCode() is allowed return negative values... –  Michael Borgwardt Nov 12 '10 at 16:19
    
thanks for the answer matt b, it totally makes sense now –  dimitrisli Nov 13 '10 at 0:15

Anyway, the hash code value will be used to determine a number of row in a table which is relatively small value.

In HashMap, for instance, the default table contains 256 rows only 16 rows (Sun JDK 1.6.0_17). This means that the row number is determined in the way like this:

int rowNumber = obj.hashCode() % rowsCount;

So, the real distribution is from 0 to rowsCount.

UPD: I remember the implementation of ConcurrentHashMap. In a nutshell, ConcurrentHashMap contains many relatively small tables. At first the hashCode function is used to determine the table number, and after that the same function is used to determine a row in the selected table.

This approach removes the limitation of array size (and even allows to build distributed hash table).

So, I incline to the conclusion that hashCode returns int because it covers the vast majority of use cases.

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This isn't quite accurate, as the size of the table can be different than the default value, either as the table grows or if different arguments for initialCapacity are passed to the HashMap constructor. –  matt b Nov 12 '10 at 15:46
    
And what is not accurate? :) Nobody argues that the table can have bigger size the default. –  Roman Nov 12 '10 at 15:49
    
you need to remove the highest bit (now the rowNumber can be negative) (obj.hashCode &0x7fffffff)%rowCount. Since mod operation is like 30 cpu clocks (bitwise and is 1), the number of entries is kept a power-of-2 and the operation is just (obj.hashCode & (array.length-1)) –  bestsss Feb 15 '11 at 11:08

I'd assume it's a balance of computation cost vs. hash range. Hashcodes are so frequently referenced that pushing around twice as much data every time you need a hash would be expensive, especially if you consider more common use cases -

for example - if you create a small hash with 10, or 100, or 1000 values, the difference in the number of hash collisions you're going to see will be extremely negligible. For larger hashes, ... well, think of how big a hash will need to be for 10**32 values to start having frequent collisions, and whether that's even possible to do in a JVM given the amount of memory you'd need.

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