# Hash code non-zero initial value - note: I am not asking about primes

This is kind of an academic point, but I feel I don't fully understand hash codes if I don't understand why this is recommended by books such as Effective Java and many SO questions.

Suppose:

``````public sealed class Point
{

//constructor ommited

//equals ommited

public override int GetHashcode()
{
int hash = 17; //why should the initial value be non-zero?
unchecked
{
hash = hash * 31 + x; //do not tell me why I should use primes - that is not the question
hash = hash * 31 + y;
return hash;
}
}
}
``````

Now, supposedly, the reason for the initial value is that it reduces collisions where one of the components is zero.

I'm strugling to find any example where this helps.

Here is one example of a collision, but having an initial value makes no odds.

``````x   y   Hash Without initial value     Hash With initial value
0   31  31                             16368
1   0   31                             16368
``````

Ideally, I'm looking for a concrete example where the initial value prevents a collision.

My theorum on why an initial value can never make a difference

``````//Given a prime p, initial value i, fields a,b,c, calculate hash h
h = i;
h = h*p + a;
h = h*p + b;
h = h*p + c;
``````

Therefore:

``````h = ((i*p + a)*p + b)*p + c
= (ipp + ap + b   )*p + c
= ippp + app + bp + c
``````

Therefore the inital value `i` will effect all hash codes in the same way by producing a constant value, in this case `i*p`3.

-
–  assylias Nov 19 '12 at 15:27
@assylias thanks, but I'm not querying the wisdom of the prime, I'm querying the wisdom of having an arbitary initial value, the `17` here. And I get the word arbitary from Effective Java. –  weston Nov 19 '12 at 15:30
I'm not sure I understand your implementation. I'd multiply x and y by two different prime numbers (that would indeed avoid trivial collisions since prime_1*y is never equal to prime_2*x). I suspect having 17 is a way to avoid that some particular collisions happen more often than other (i.e. it affects the distribution of the collisions). So indeed your two cases that generate collisions still do that, but adding 17 (or some other prime number) may make them less likely –  NotAUser Nov 19 '12 at 15:31
This seems to be a pretty thorough explanation: computinglife.wordpress.com/2008/11/20/… –  Jesse C. Slicer Nov 19 '12 at 15:34
@Ramhound: point is purely used for illustrative purposes, i think we can all agree the main point of the question is what is the benefit of a prime seed value in a custom hash code, which is definitely applicable for both .NET and Java... –  James Michael Hare Nov 19 '12 at 15:42

The initial value must be a prime number. Why? Because say you are hashing to get an index for an array of length = 20: [object.getHash()%20] is the index of the array where you will want to store your object. If you had used an even number: half of the addresses of your data structure would never be used...this is why you need to use an initial value: to minimize collisions...and maximize data structure usage

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OK, give me an example where the initial value saves a collision then. –  weston Nov 19 '12 at 15:31
in your algorithm with initial hash = 0, (0,1) and (0,21) would both hash to index 1 in an array of 20 having an initial value renders very hard to find a collision –  doctor killer Nov 19 '12 at 15:38
@weston: Not sure about the prime in particular for the seed value, but it's definitely better for it to be non-zero so you don't reduce the first hash component to just `x`. –  James Michael Hare Nov 19 '12 at 15:38
@doctorkiller The initial value doesn't help in that example either. –  weston Nov 19 '12 at 15:57
@JamesMichaelHare This is all I hear, it is better, but can anyone give me a concrete example of a case where it helps? –  weston Nov 19 '12 at 15:58

Using prime numbers have shown via experiment and testing that have good properties for hash functions.
Also hard-coded numbers you see in existing libraries e.g. `31` in `Java` have been found during testing that they are good options. As far as I know there is no some proof behind the choices of these "magic" numbers.They were selected only after field testing

Update:
If you use zero as initial value then your hash will be affected by member variables also zero.
E.g. `hash = hash * 31 + x;` will be `0` if `x` is `0` and your initial value is also `0`.
Then you end up with `y` which could be `0` as well or a number that could happen to be very common in your application domain and end up with collisions

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Thanks, but the question is about the need for a non-zero initial value, not the use of primes. –  weston Nov 19 '12 at 18:11
@weston:1)The initial value you use is prime 2)If the initial value was zero here:`hash = hash * 31 + x;` you would get `hash=x` –  Cratylus Nov 19 '12 at 20:43
Yes, so? `x` is a valid hash. My query is, we're told this reduces collisions. Under what circumstances? I believe I have shown this does not. See my theorum. –  weston Nov 19 '12 at 20:54
@weston:Update answer –  Cratylus Nov 19 '12 at 21:14
thanks, but who cares if the hash can clash with objects of different type. When would that be a problem? Do you store multiple types in one hashmap/dictionary? Besides, people who implement this will just use the same initial value over and over, beause they don't appreciate what it does and don't change it each object type, so negating that argument somewhat. –  weston Nov 19 '12 at 21:25
• use a proper initial value that distinguishes even more so that the chance of a `Point` and a `Line` returning the same hash becomes smaller.