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As per my understanding I think:

  1. Its perfectly legal for two objects to have same hashcode.
  2. If two objects are equal (using equals ) then they have same hashcode.
  3. If two object are not equal then they cannot have same hashcode

Am I correct?

Now if am correct, I have following question: HashMap internally uses hashcode of the object. Then if two objects can have same hashcode, then how can the HashMap track which key it uses?

Can someone explain how HashMap internally uses the hashcode of the object?

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For the record: #1 and #2 are correct, #3 is wrong: Two objects that are not equal may have the same hash code. – Joachim Sauer Oct 7 '13 at 15:20
detailed explanation:… – Jayesh Oct 5 '15 at 14:50

12 Answers 12

up vote 198 down vote accepted

A hashmap works like this (this is a little bit simplified, but it illustrates the basic mechanism):

It has a number of "buckets" which it uses to store key-value pairs in. Each bucket has a unique number - that's what identifies the bucket. When you put a key-value pair into the map, the hashmap will look at the hash code of the key, and store the pair in the bucket of which the identifier is the hash code of the key. For example: The hash code of the key is 235 -> the pair is stored in bucket number 235. (Note that one bucket can store more then one key-value pair).

When you lookup a value in the hashmap, by giving it a key, it will first look at the hash code of the key that you gave. The hashmap will then look into the corresponding bucket, and then it will compare the key that you gave with the keys of all pairs in the bucket, by comparing them with equals().

Now you can see how this is very efficient for looking up key-value pairs in a map: by the hash code of the key the hashmap immediately knows in which bucket to look, so that it only has to test against what's in that bucket.

Looking at the above mechanism, you can also see what requirements are necessary on the hashCode() and equals() methods of keys:

  • If two keys are the same (equals() returns true when you compare them), their hashCode() method must return the same number. If keys violate this, then keys that are equal might be stored in different buckets, and the hashmap would not be able to find key-value pairs (because it's going to look in the same bucket).

  • If two keys are different, then it doesn't matter if their hash codes are the same or not. They will be stored in the same bucket if their hash codes are the same, and in this case, the hashmap will use equals() to tell them apart.

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you wrote "and the hashmap would not be able to find key-value pairs (because it's going to look in the same bucket)." Can you explain it is going to look in the same bucket say those two equals objects are t1 and t2 and they are equal and t1 and t2 have hashcodes h1 and h2 respectively .So t1.equals(t2)=true and h1!=h2 So when the hashmap would look for t1 , it will look in the bucket h1 and for t2 in the bucket t2 ? – Geek Jul 19 '12 at 16:14
If two keys are equal but their hashCode() method returns different hash codes, then the equals() and hashCode() methods of the key class violate the contract and you'll get strange results when using those keys in a HashMap. – Jesper Oct 10 '12 at 15:21
Each bucket can have multiple Key Values pairs, which are uses linked list internally. But my confusion is - what is bucket here? What data structure it uses internally? Is there any connection between buckets? – Ankit Sharma Jul 2 '14 at 6:57
@AnkitSharma If you want to really know all the details, lookup the source code of HashMap, which you can find in the file in your JDK installation directory. – Jesper Jul 2 '14 at 7:04
Thanks @Jesper I got the solution - Data structure to store Entry objects is an array named table of type Entry. A particular index location in array is referred as bucket, because it can hold the first element of a LinkedList of Entry objects. – Ankit Sharma Jul 3 '14 at 9:42

Your third assertion is incorrect.

It's perfectly legal for two unequal objects to have the same hash code. It's used by HashMap as a "first pass filter" so that the map can quickly find possible entries with the specified key. The keys with the same hash code are then tested for equality with the specified key.

You wouldn't want a requirement that two unequal objects couldn't have the same hash code, as otherwise that would limit you to 232 possible objects. (It would also mean that different types couldn't even use an object's fields to generate hash codes, as other classes could generate the same hash.)

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how did u arrive at 2^32 possible objects ? – Geek Jul 19 '12 at 15:44
@Geek Object.hashCode() returns int – Philipp Jul 25 '12 at 14:10

You can find excellent information at

To Summarize:

HashMap works on the principle of hashing

put(key, value): HashMap stores both key and value object as Map.Entry. Hashmap applies hashcode(key) to get the bucket. if there is collision ,HashMap uses LinkedList to store object.

get(key): HashMap uses Key Object's hashcode to find out bucket location and then call keys.equals() method to identify correct node in LinkedList and return associated value object for that key in Java HashMap.

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I found the answer provided by Jasper better, I felt the blog is more towards handling interview, than understanding the concept – Narendra N Sep 29 '14 at 12:10
@NarendraN I agree with you. – Abhijit Gaikwad Sep 29 '14 at 17:48

HashMap structure diagram

HashMap is an array of Entry objects.

Consider HashMap as just an array of objects.

Have a look what this Object is:

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

Each Entry object represents a key-value pair. The field next refers to another Entry object if a bucket has more than one Entry.

Sometimes it might happen that hash codes for 2 different objects are the same. In this case, two objects will be saved in one bucket and will be presented as a linked list. The entry point is the more recently added object. This object refers to another object with the next field and so on. The last entry refers to null.

When you create a HashMap with the default constructor

HashMap hashMap = new HashMap();

The array is created with size 16 and default 0.75 load balance.

Adding a new key-value pair

  1. Calculate hashcode for the key
  2. Calculate position hash % (arrayLength-1) where element should be placed (bucket number)
  3. If you try to add a value with a key which has already been saved in HashMap, then value gets overwritten.
  4. Otherwise element is added to the bucket.

If the bucket already has at least one element, a new one gets added and placed in the first position in the bucket. Its next field refers to the old element.


  1. Calculate hashcode for the given key
  2. Calculate bucket number hash % (arrayLength-1)
  3. Get a reference to the first Entry object in the bucket and by means of equals method iterate over all entries in the given bucket. Eventually we will find correct Entry. If desired element is not found, return null
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The hashcode determines which bucket for the hashmap to check. If there is more than one object in the bucket then a linear search is done to find which item in the bucket equals the desired item (using the equals()) method.

In other words, if you have a perfect hashcode then hashmap access is constant, you will never have to iterate through a bucket (technically you would also have to have MAX_INT buckets, the Java implementation may share a few hash codes in the same bucket to cut down on space requirements). If you have the worst hashcode (always returns the same number) then your hashmap access becomes linear since you have to search through every item in the map (they're all in the same bucket) to get what you want.

Most of the time a well written hashcode isn't perfect but is unique enough to give you more or less constant access.

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You're mistaken on point three. Two entries can have the same hash code but not be equal. Take a look at the implementation of HashMap.get from the OpenJdk. You can see that it checks that the hashes are equal and the keys are equal. Were point three true, then it would be unnecessary to check that the keys are equal. The hash code is compared before the key because the former is a more efficient comparison.

If you're interested in learning a little more about this, take a look at the Wikipedia article on Open Addressing collision resolution, which I believe is the mechanism that the OpenJdk implementation uses. That mechanism is subtly different than the "bucket" approach one of the other answers mentions.

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HashMap use 2 data structure:

  • Hash

    Use hash value to group elements into slots, control by hash() method of HashMap,

  • linked list (singly)

    Each slot is a singly linked list, their key has the same hash value,
    the slot index is control by indexFor() method of HashMap,

Find value:

First find the slot by hash value, then loop each element in the slot until found or end,

Add value:

First find the slot by hash value,
then try find the value:
* if found, then replace the value,
* if not found, then add a new one to begining of the slot,


Capacity is slot size, as element count increase, capacity is larger but liner to element count, and finally equals to size (Integer.MAX_VALUE),

linked list length:

As element count increase, length is liner to a small constant value, and finally equals to 1,


put / get, has O(1) speed, because slot is access via index, and linked list length is very small,


The slot size increase as element count increase,
but it's empty element are null, so not much space is taking,


When resize capacity, it also need to do rehash, this might take a while,

And I wrote a simple test class:

import java.util.HashMap;

public class HashMapUnderstand {
public static void main(String[] args) {

public static void test() {
    int size = 16; // slot size
    Integer[] keys = { 1, 10, 16, 100, 1000, 10000, 2000000, 100000000 };
    HashMap<Integer, Object> map = new HashMap<Integer, Object>();

    for (Integer key : keys) {
        int hash = hash(key.hashCode());
        int i = indexFor(hash, size); 

        map.put(key, "[" + hash + " : " + i + "]");

    for (Integer key : map.keySet()) {
        System.out.printf("key: %11s, [inner hash : slot index]: %s,\n", key, map.get(key));

static int hash(int h) {
    h ^= (h >>> 20) ^ (h >>> 12);
    return h ^ (h >>> 7) ^ (h >>> 4);

static int indexFor(int h, int length) {
    return h & (length - 1);
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This is a Most Confusing Question for many of us in Interviews.But its not that complex.

We know

  • HashMap stores key-value pair in Map.Entry (we all know)

  • HashMap works on hashing algorithm and uses hashCode() and equals() method in put() and get() methods. (even we know this)

  • When we call put method by passing key-value pair, HashMap uses Key **hashCode()** with hashing to **find out the index** to store the key-value pair. (this is important)

  • The Entry is **stored in the LinkedList**, so if there are already existing entry, it uses **equals() method to check if the passed key already exists** (even this is important)

  • if yes it overwrites the value else it creates a new entry and store this key-value Entry.

  • When we call get method by passing Key, again it uses the hashCode() to find the index in the array and then use equals() method to find the correct Entry and return it’s value. (now this is obvious)


enter image description here

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Hash map works on the principle of hashing

HashMap get(Key k) method calls hashCode method on the key object and applies returned hashValue to its own static hash function to find a bucket location(backing array) where keys and values are stored in form of a nested class called Entry (Map.Entry) . So you have concluded that from the previous line that Both key and value is stored in the bucket as a form of Entry object . So thinking that Only value is stored in the bucket is not correct and will not give a good impression on the interviewer .

  • Whenever we call get( Key k ) method on the HashMap object . First it checks that whether key is null or not . Note that there can only be one null key in HashMap .

If key is null , then Null keys always map to hash 0, thus index 0.

If key is not null then , it will call hashfunction on the key object , see line 4 in above method i.e. key.hashCode() ,so after key.hashCode() returns hashValue , line 4 looks like

            int hash = hash(hashValue)

and now ,it applies returned hashValue into its own hashing function .

We might wonder why we are calculating the hashvalue again using hash(hashValue). Answer is It defends against poor quality hash functions.

Now final hashvalue is used to find the bucket location at which the Entry object is stored . Entry object stores in the bucket like this (hash,key,value,bucketindex)

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import java.util.HashMap;

public class Students  {
    String name;
    int age;

    Students(String name, int age ){ = name;

    public int hashCode() {
        final int prime = 31;
        int result = 1;
        result = prime * result + age;
        result = prime * result + ((name == null) ? 0 : name.hashCode());
        return result;

    public boolean equals(Object obj) {
        if (this == obj)
            return true;
        if (obj == null)
            return false;
        if (getClass() != obj.getClass())
            return false;
        Students other = (Students) obj;
        if (age != other.age)
            return false;
        if (name == null) {
            if ( != null)
                return false;
        } else if (!name.equals(
            return false;
        return true;

    public static void main(String[] args) {

        Students S1 = new Students("taj",22);
        Students S2 = new Students("taj",21);


        HashMap<Students,String > HM = new HashMap<Students,String > (); 
        HM.put(S1, "tajinder");
        HM.put(S2, "tajinder");


__ hash __


__ hash __


__ hash __

__ hash __


So here we see that if both the objects S1 and S2 have different content, then we are pretty sure that our overridden Hashcode method will generate different Hashcode(116232,11601) for both objects. NOW since there are different hash codes, so it won't even bother to call EQUALS method. Because a different Hashcode GUARANTEES DIFFERENT content in an object.

    public static void main(String[] args) {

        Students S1 = new Students("taj",21);
        Students S2 = new Students("taj",21);


        HashMap<Students,String > HM = new HashMap<Students,String > (); 
        HM.put(S1, "tajinder");
        HM.put(S2, "tajinder");

Now lets change out main method a little bit. Output after this change is 

__ hash __


__ hash __


__ hash __

__ hash __

__ eq __

We can clearly see that equal method is called. Here is print statement __eq__, since we have same hashcode, then content of objects MAY or MAY not be similar. So program internally  calls Equal method to verify this. 

If hashcode is different , equal method will not get called. 
if hashcode is same, equal method will get called.

Thanks , hope it helps. 
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:Good demo of the code – decent guy May 7 '14 at 17:44

In a summerized form of How hashMap works in java?

HashMap works on principle of hashing, we have put() and get() method for storing and retrieving object form HashMap .When we pass an both key and value to put() method to store on HashMap , it uses key object hashcode() method to calculate hashcode and they by applying hashing on that hashcode it identifies bucket location for storing value object. While retrieving it uses key object equals method to find out correct key value pair and return value object associated with that key. HashMap uses linked list in case of collision and object will be stored in next node of linked list. Also HashMap stores both key+value tuple in every node of linked list.

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I will not get into the details of how HashMap works, but will give an example so we can remember how HashMap works by relating it to reality.

We have Key, Value ,HashCode and bucket.

For sometime, we will relate each of them with the following:

  • Bucket -> A Society
  • HashCode -> Society's address(unique always)
  • Value -> A House in the Society
  • Key -> House address.

Using Map.get(key) :

Stevie wants to get to his friend's(Josse) house who lives in a villa in a VIP society, let it be JavaLovers Society. Josse's address is his SSN(which is different for everyone). There's an index maintained in which we find out the Society's name based on SSN. This index can be considered to be an algorithm to find out the HashCode.

  • SSN Society's Name
  • 92313(Josse's) -- JavaLovers
  • 13214 -- AngularJSLovers
  • 98080 -- JavaLovers
  • 53808 -- BiologyLovers

  1. This SSN(key) first gives us a HashCode(from the index table) which is nothing but Society's name.
  2. Now, mulitple houses can be in the same society, so the HashCode can be common.
  3. Suppose, the Society is common for two houses, how are we going to identify which house we are going to, yes, by using the (SSN)key which is nothing but the House address

Using Map.put(key,Value)

This finds a suitable society for this Value by finding the HashCode and then the value is stored.

I hope this helps and this is open for modifications.

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