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I've heard in my degree classes that a HashTable will place a new entry into the 'next available' bucket if the new Key entry collides with another.

How would the HashTable still return the correct Value if this collision occurs when calling for one back with the collision key?

I'm assuming that the Keys are String type and the hashCode() returns the default generated by say Java.

If I implement my own hashing function and use it as part of a look-up table (i.e. a HashMap or Dictionary), what strategies exist for dealing with collisions?

Is it done using prime numbers? Information not so clear from Google search..

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8 Answers 8

up vote 36 down vote accepted

Hash tables deal with collisions in one of two ways.

Option 1: By having each bucket contain a linked list of elements that are hashed to that bucket. This is why a bad hash function can make lookups in hash tables very slow.

Option 2: If the hash table entries are all full then the hash table can increase the number of buckets that it has and then redistribute all the elements in the table. The hash function returns an integer and the hash table has to take the result of the hash function and mod it against the size of the table that way it can be sure it will get to bucket. so by increasing the size it will rehash and run the modulo calculations which if you are lucky might send the objects to different buckets.

Java uses both option 1 and 2 in its hash table implementations.

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In the case of the first option, is there any reason a linked list is used instead of an array or even a binary search tree? –  user142019 May 5 '13 at 5:28
the above explanation is high level, I don't think it makes much difference as to linked list vs. array. I think a binary search tree would be overkill. Also I think if you dig into things like ConcurrentHashMap and others there any many low level implement details that can make a performance difference, that the high level explanation above does not account for. –  ams May 6 '13 at 14:11

When you talked about "Hash Table will place a new entry into the 'next available' bucket if the new Key entry collides with another.", you are talking about the Open addressing strategy of Collision resolution of hash table.

There are several strategies for hash table to resolve collision.

First kind of big method require that the keys (or pointers to them) be stored in the table, together with the associated values, which further includes:

  • Separate chaining

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  • Open addressing

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  • Coalesced hashing
  • Cuckoo hashing
  • Robin Hood hashing
  • 2-choice hashing
  • Hopscotch hashing

Another important method to handle collision is by Dynamic resizing, which further has several ways:

  • Resizing by copying all entries
  • Incremental resizing
  • Monotonic keys

EDIT: the above are borrowed from wiki_hash_table, where you should go to have a look to get more info.

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I strongly suggest you to read this blog post which appeared on HackerNews recently: How HashMap works in Java

In short, the answer is

What will happen if two different HashMap key objects have same hashcode?

They will be stored in same bucket but no next node of linked list. And keys equals () method will be used to identify correct key value pair in HashMap.

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HashMaps are very interesting and they go deep! : ) –  AlexW Feb 12 '11 at 21:50

I've heard in my degree classes that a HashTable will place a new entry into the 'next available' bucket if the new Key entry collides with another.

This is actually not true, at least for the Oracle JDK (it is an implementation detail that could vary between different implementations of the API). Instead, each bucket contains a linked list of entries.

then how would the HashTable still return the correct Value if this collision occurs when calling for one back with the collision key?

It uses the equals() to find the actually matching entry.

If I implement my own hashing function and use it as part of a look-up table (i.e. a HashMap or Dictionary), what strategies exist for dealing with collisions?

There are various collision handling strategies with different advantages and disadvantages. Wikipedia's entry on hash tables gives a good overview.

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It's true for both Hashtable and HashMap in jdk 1.6.0_22 by Sun/Oracle. –  Nikita Rybak Feb 12 '11 at 21:42
@Nikita: not sure about Hashtable, and I don't have access to the sources right now, but I am 100% certain HashMap uses chaining and not linear probing in every single version I've ever seen in my debugger. –  Michael Borgwardt Feb 12 '11 at 21:45
@Michael Well, I'm looking at the source of HashMap's public V get(Object key) right now (same version as above). If you do find precise version where those linked lists appear, I'd be interested to know. –  Nikita Rybak Feb 12 '11 at 21:51
@Niki: I'm now looking at the same method, and I see it using a for loop to iterate through a linked list of Entry objects: localEntry = localEntry.next –  Michael Borgwardt Feb 12 '11 at 22:17
@Michael Sorry, it's my mistake. I interpreted code in wrong way. naturally, e = e.next is not ++index. +1 –  Nikita Rybak Feb 12 '11 at 22:28

It will use the equals method to see if the key is present even and especially if there are more than one element in the same bucket.

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As there is some confusion about which algorithm Java's HashMap is using (in the Sun/Oracle/OpenJDK implementation), here the relevant source code snippets (from OpenJDK, 1.6.0_20, on Ubuntu):

 * Returns the entry associated with the specified key in the
 * HashMap.  Returns null if the HashMap contains no mapping
 * for the key.
final Entry<K,V> getEntry(Object key) {
    int hash = (key == null) ? 0 : hash(key.hashCode());
    for (Entry<K,V> e = table[indexFor(hash, table.length)];
         e != null;
         e = e.next) {
        Object k;
        if (e.hash == hash &&
            ((k = e.key) == key || (key != null && key.equals(k))))
            return e;
    return null;

This method (cite is from lines 355 to 371) is called when looking up an entry in the table, for example from get(), containsKey() and some others. The for loop here goes through the linked list formed by the entry objects.

Here the code for the entry objects (lines 691-705 + 759):

static class Entry<K,V> implements Map.Entry<K,V> {
    final K key;
    V value;
    Entry<K,V> next;
    final int hash;

     * Creates new entry.
    Entry(int h, K k, V v, Entry<K,V> n) {
        value = v;
        next = n;
        key = k;
        hash = h;

  // (methods left away, they are straight-forward implementations of Map.Entry)


Right after this comes the addEntry() method:

 * Adds a new entry with the specified key, value and hash code to
 * the specified bucket.  It is the responsibility of this
 * method to resize the table if appropriate.
 * Subclass overrides this to alter the behavior of put method.
void addEntry(int hash, K key, V value, int bucketIndex) {
    Entry<K,V> e = table[bucketIndex];
    table[bucketIndex] = new Entry<K,V>(hash, key, value, e);
    if (size++ >= threshold)
        resize(2 * table.length);

This adds the new Entry on the front of the bucket, with a link to the old first entry (or null, if no such one). Similarily, the removeEntryForKey() method goes through the list and takes care of deleting only one entry, letting the rest of the list intact.

So, here is a linked entry list for each bucket, and I very doubt that this changed from _20 to _22, since it was like this from 1.2 on.

(This code is (c) 1997-2007 Sun Microsystems, and available under GPL, but for copying better use the original file, contained in src.zip in each JDK from Sun/Oracle, and also in OpenJDK.)

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I marked this as community wiki, since it doesn't really is a answer, more a bit of discussion to the other answers. In comments simply isn't enough space for such code citations. –  Paŭlo Ebermann Feb 12 '11 at 22:37

here's a very simple hash table implementation in java. in only implements put() and get(), but you can easily add whatever you like. it relies on java's hashCode() method that is implemented by all objects. you could easily create your own interface,

interface Hashable {
  int getHash();

and force it to be implemented by the keys if you like.

public class Hashtable<K, V> {
    private static class Entry<K,V> {
        private final K key;
        private final V val;

        Entry(K key, V val) {
            this.key = key;
            this.val = val;

    private static int BUCKET_COUNT = 13;

    private List<Entry>[] buckets = new List[BUCKET_COUNT];

    public Hashtable() {
        for (int i = 0, l = buckets.length; i < l; i++) {
            buckets[i] = new ArrayList<Entry<K,V>>();

    public V get(K key) {
        int b = key.hashCode() % BUCKET_COUNT;
        List<Entry> entries = buckets[b];
        for (Entry e: entries) {
            if (e.key.equals(key)) {
                return e.val;
        return null;

    public void put(K key, V val) {
        int b = key.hashCode() % BUCKET_COUNT;
        List<Entry> entries = buckets[b];
        entries.add(new Entry<K,V>(key, val));
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There are various methods for collision resolution.Some of them are Separate Chaining,Open addressing,Robin Hood hashing,Cuckoo Hashing etc.

Java uses Separate Chaining for resolving collisions in Hash tables.Here is a great link to how it happens: http://javapapers.com/core-java/java-hashtable/

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