# Hash table: why size should be prime? [duplicate]

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Why should hash functions use a prime number modulus?

Why is it necessary for a hash table's (the data structure) size to be a prime?

From what I understand, it assures a more even distribution but is there any other reason?

• This is a duplicate of Why should hash functions use a prime number modulus? - the first link in the "Related" section of the sidebar - and I think the accepted answer is very good. – Matthew Slattery Oct 20 '10 at 22:34
• You should accept an answer. – gwg Oct 17 '17 at 1:18
• I just noticed this was marked as a duplicate. That's unfortunate. These are two related but separate questions. This particular question is about usage of prime in hash table capacity. The other is about usage of prime in calculation of an appropriate has value. They're related to each other, but not duplicate. – Samuel Neff Aug 30 '19 at 17:13

## 2 Answers

The only reason is to avoid clustering of values into a small number of buckets (yes, distribution). A more even distributed hashtable will perform more consistently.

If suppose your hashCode function results in the following hashCodes among others {x , 2x, 3x, 4x, 5x, 6x...}, then all these are going to be clustered in just m number of buckets, where m = table_length/GreatestCommonFactor(table_length, x). (It is trivial to verify/derive this). Now you can do one of the following to avoid clustering

1. Make sure that you don't generate too many hashCodes that are multiples of another hashCode like in {x, 2x, 3x, 4x, 5x, 6x...}.But this may be kind of difficult if your hashTable is supposed to have millions of entries.

2. Or simply make m equal to the table_length by making GreatestCommonFactor(table_length, x) equal to 1, i.e by making table_length coprime with x. And if x can be just about any number then make sure that table_length is a prime number.

Update: (from original answer author)

This answer is correct for a common implementation of a hash table, including the Java implementation of the original `Hashtable` as well as the current implementation of .NET's `Dictionary`.

Both the answer and the supposition that capacity should be prime are not accurate for Java's `HashMap` though. The implementation of a `HashMap` is very different and utilizes a table with a size of base 2 to store buckets and uses `n-1 & hash` to calculate which bucket to use as opposed to the more traditional `hash % n` formula.

Java's `HashMap` will force the actual used capacity to be the next largest base 2 number above the requested capacity.

Compare `Hashtable`:

``````int index = (hash & 0x7FFFFFFF) % tab.length
``````

https://github.com/openjdk/jdk/blob/jdk8-b120/jdk/src/share/classes/java/util/Hashtable.java#L364

To `HashMap`:

``````first = tab[(n - 1) & hash]
``````

https://github.com/openjdk/jdk/blob/jdk8-b120/jdk/src/share/classes/java/util/HashMap.java#L569

• Than I guess my understanding was right: Avoid clustering <=> Get a better distribution. Right? Thanks for the reference. – Olivier Lalonde Oct 20 '10 at 17:07
• @Olivier Lalonde, if this answered your question please mark it as the answer. – Samuel Neff Jan 29 '11 at 20:34

Whatever hashfunction you use you get an integer. In order to map that to the hashtable usually you'd `mod` the integer with the size of the hashtable to make that value smaller than the size of the table in order to map it.

return hashVal % tableSize

I'm a bit lost from this point onwards but IIRC if tableSize is even, all entries will be even. Half your hashtable will never be populated.

• That's another good point. And I believe the reason for a prime is it reduces the risk of patterns (for example 10,20,30,40 which will all give 0 if tableSize=10) in the hashVal which might result in a uneven distribution like mentioned by @Sam. – Olivier Lalonde Oct 20 '10 at 17:13
• 347 % 20 is 7, which is not even. – Charlie Skilbeck Oct 20 '10 at 17:54