Best implementation for hashCode method

How do we decide on the best implementation of `hashCode()` method for a collection (assuming that equals method has been overridden correctly) ?

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The best implementation? That is a hard question because it depends on the usage pattern.

A for nearly all cases reasonable good implementation was proposed in Josh Bloch's Effective Java in item 8. The best thing is to look it up there because the author explains there why the approach is good.

A short version

1. Create a `int result` and assign a non-zero value.

2. For every field `f` tested in the `equals()` method, calculate a hash code `c` by:

• If the field f is a `boolean`: calculate `(f ? 0 : 1)`;
• If the field f is a `byte`, `char`, `short` or `int`: calculate `(int)f`;
• If the field f is a `long`: calculate `(int)(f ^ (f >>> 32))`;
• If the field f is a `float`: calculate `Float.floatToIntBits(f)`;
• If the field f is a `double`: calculate `Double.doubleToLongBits(f)` and handle the return value like every long value;
• If the field f is an object: Use the result of the `hashCode()` method or 0 if `f == null`;
• If the field f is an array: see every field as separate element and calculate the hash value in a recursive fashion and combine the values as described next.
3. Combine the hash value `c` with `result`:

``````result = 37 * result + c
``````
4. Return `result`

This should result in a proper distribution of hash values for most use situations.

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Yeah I'm particularly curious about where the number 37 comes from. –  Kip Sep 22 '08 at 17:25
I'm not aware of any proof. The number of 37 is arbitrary, but it should be prime. Why? I'm not really sure but it has to do with modulo arthritics and properties of prime numbers which lead to go distributions. –  dmeister Sep 22 '08 at 23:55
I used item 8 of Josh Bloch's "Effective Java" book. –  dmeister Oct 4 '10 at 14:39
@dma_k The reason for using prime numbers and the method described in this answer is to ensure that the computed hashcode will be unique. When using non-prime numbers, you cannot guarantee this. It does not matter which prime nummer you choose, there is nothing magical about the number 37 (too bad 42 isn't a prime number, eh?) –  Simon André Forsberg Feb 15 '13 at 13:58
@SimonAndréForsberg Well, computed hash code cannot be always unique :) Is a hashcode. However I got the idea: the prime number has only one multiplier, while non-prime has at least two. That creates an extra combination for multiplication operator to result the same hash, i.e. cause collision. –  dma_k Feb 15 '13 at 14:08

It is better to use the functionality provided by Eclipse which does a pretty good job and you can put your efforts and energy in developing the business logic.

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+1 A good practical solution. dmeister's solution is more comprehensive, but I tend to forget to handle nulls when I try to write hashcodes myself. –  Quantum7 Apr 7 '11 at 0:31
+1 Agree with Quantum7, but I would say it's also really good to understand what the Eclipse-generated implementation is doing, and where it gets its implementation details from. –  jwir3 Jan 27 '14 at 21:05

If you're happy with the Effective Java implementation recommended by dmeister, you can use a library call instead of rolling your own:

``````@Override
public int hashCode(){
return Objects.hashCode(this.firstName, this.lastName);
}
``````

This requires either guava (`com.google.common.base.Objects.hashCode(...)`) or JDK7 (`java.util.Objects.hash(...)`) but works the same way.

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Unless one has a good reason not to use these, one should definitely use these in any case. (Formulating it stronger, as it IMHO should be formulated.) The typical arguments for using standard implementations/libraries apply (best practices, well tested, less error prone, etc). –  Kissaki Jan 28 '14 at 13:23
The case to not use a library implementation is when you have implemented a custom Object#equals(Object obj) method. See the Object#hashcode() JavaDoc, "If two objects are equal according to the equals(Object) method, then calling the hashCode method on each of the two objects must produce the same integer result." Using either of these library implementations will generate a"pseudo" memory address hash code which may violate the described requirement. –  justin.hughey Mar 10 '14 at 16:35
@justin.hughey you seem to be confused. The only case you should override `hashCode` is if you have a custom `equals`, and that is precisely what these library methods are designed for. The documentation is quite clear on their behaviour in relation to `equals`. A library implementation does not claim to absolve you from knowing what the characteristics of a correct `hashCode` implementation are - these libraries make it easier for you to implement such a conforming implementation for the majority of cases where `equals` is overriden. –  bacar Mar 11 '14 at 0:06
You're absolutely right. Thank you for pointing that out, I don't know where I was coming from on that one. :) –  justin.hughey Mar 11 '14 at 12:42
For any Android developers looking at the java.util.Objects class, it was only introduced in API 19, so make sure you're running on KitKat or above otherwise you'll get NoClassDefFoundError. –  Andrew Kelly Feb 5 at 5:30

First make sure that equals is implemented correctly. From an IBM DeveloperWorks article:

• Symmetry: For two references, a and b, a.equals(b) if and only if b.equals(a)
• Reflexivity: For all non-null references, a.equals(a)
• Transitivity: If a.equals(b) and b.equals(c), then a.equals(c)

Then make sure that their relation with hashCode respects the contact (from the same article):

• Consistency with hashCode(): Two equal objects must have the same hashCode() value

Finally a good hash function should strive to approach the ideal hash function.

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if equals() returns true for two objects, then hashCode() should return the same value. If equals() returns false, then hashCode() should return different values

I can not agree with you. If two objects has the same hashcode it DOSEN'T have to mean that their are equal.

If A equlas B then A.hashcode must be equal to B.hascode

but

if A.hashcode equals B.hascode it does not mean that A must equals B

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perfect..thanks for pointing out that.. –  Omnipotent Sep 22 '08 at 8:55
If `(A != B) and (A.hashcode() == B.hashcode())`, that's what we call hash function collision. It's because hash function's codomain is always finite, while it's domain is usually not. The bigger the codomain is, the less often the collision should occur. Good hash function's should return different hashes for different objects with greatest possibility achievable given particular codomain size. It can rarely be fully guaranteed though. –  Krzysztof Jabłoński Apr 29 '13 at 8:45

If you use eclipse, you can generate `equals()` and `hashCode()` using:

Source -> Generate hashCode() and equals().

Using this function you can decide which fields you want to use for equality and hash code calculation, and Eclipse generates the corresponding methods.

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There's a good implementation of the Effective Java's `hashcode()` and `equals()` logic in Apache Commons Lang. Checkout HashCodeBuilder and EqualsBuilder.

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The downside of this API is you pay the cost of object construction every time you call equals and hashcode (unless your object is immutable and you precompute the hash), which can be a lot in certain cases. –  James McMahon Feb 4 '12 at 1:35

If I understand your question correctly, you have a custom collection class (i.e. a new class that extends from the Collection interface) and you want to implement the hashCode() method.

If your collection class extends AbstractList, then you don't have to worry about it, there is already an implementation of equals() and hashCode() that works by iterating through all the objects and adding their hashCodes() together.

``````   public int hashCode() {
int hashCode = 1;
Iterator i = iterator();
while (i.hasNext()) {
Object obj = i.next();
hashCode = 31*hashCode + (obj==null ? 0 : obj.hashCode());
}
return hashCode;
}
``````

Now if what you want is the best way to calculate the hash code for a specific class, I normally use the ^ (bitwise exclusive or) operator to process all fields that I use in the equals method:

``````public int hashCode(){
return intMember ^ (stringField != null ? stringField.hashCode() : 0);
}
``````
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@about8 : there is a pretty serious bug there.

``````Zam obj1 = new Zam("foo", "bar", "baz");
Zam obj2 = new Zam("fo", "obar", "baz");
``````

same hashcode

you probably want something like

``````public int hashCode() {
return (getFoo().hashCode() + getBar().hashCode()).toString().hashCode();
``````

(can you get hashCode directly from int in Java these days? I think it does some autocasting.. if that's the case, skip the toString, it's ugly.)

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I looked at the question twice but didn't find a bug there... –  Huppie Sep 22 '08 at 7:25
the bug is in the long answer by about8.blogspot.com -- getting the hashcode from a concatenation of strings leaves you with a hash function that is the same for any combination of strings that add up to the same string. –  SquareCog Sep 22 '08 at 13:53
So this is meta-discussion and not related to the question at all? ;-) –  Huppie Sep 22 '08 at 17:40
It's a correction to a proposed answer that has a fairly significant flaw. –  SquareCog Sep 22 '08 at 22:13

Just a quick note for completing other more detailed answer (in term of code):

If I consider the question how-do-i-create-a-hash-table-in-java and especially the jGuru FAQ entry, I believe some other criteria upon which a hash code could be judged are:

• synchronization (does the algo support concurrent access or not) ?
• fail safe iteration (does the algo detect a collection which changes during iteration)
• null value (does the hash code support null value in the collection)
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weird that such important aspects were not upvoted. –  Eugene Sep 11 '12 at 8:20

When combining hash values, I usually use the combining method that's used in the boost c++ library, namely:

``````seed ^= hasher(v) + 0x9e3779b9 + (seed<<6) + (seed>>2);
``````

This does a fairly good job of ensuring an even distribution. For some discussion of how this formula works, see the StackOverflow post: Magic numbers in boost::hash_combine

There's a good discussion of different hash functions at: http://burtleburtle.net/bob/hash/doobs.html

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As you specifically asked for collections, I'd like to add an aspect that the other answers haven't mentioned yet: A HashMap doesn't expect their keys to change their hashcode once they are added to the collection. Would defeat the whole purpose...

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any hashing method that evenly distributes the hash value over the possible range is a good implementation. See effective java ( http://books.google.com.au/books?id=ZZOiqZQIbRMC&dq=effective+java&pg=PP1&ots=UZMZ2siN25&sig=kR0n73DHJOn-D77qGj0wOxAxiZw&hl=en&sa=X&oi=book_result&resnum=1&ct=result ) , there is a good tip in there for hashcode implementation (item 9 i think...).

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I prefer using utility methods fromm Google Collections lib from class Objects that helps me to keep my code clean. Very often `equals` and `hashcode` methods are made from IDE's template, so their are not clean to read.

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Use the reflection methods on Apache Commons EqualsBuilder and HashCodeBuilder.

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If you are going to use this be aware that reflection is expensive. I honestly wouldn't use this for anything besides throw away code. –  James McMahon Feb 4 '12 at 1:31

Although this is linked to `Android` documentation, it will work for Java in general. My answer is an extension of dmeister's Answer with just code that is much easier to read and understand.

The documentation also provides a great `equals` implementation

``````@Override
public int hashCode() {

int result = 17;

// Include a hash for each field.
result = 31 * result + (booleanField ? 1 : 0);

result = 31 * result + byteField;
result = 31 * result + charField;
result = 31 * result + shortField;
result = 31 * result + intField;

result = 31 * result + (int)(longField ^ (longField >>> 32));

result = 31 * result + Float.floatToIntBits(floatField);

long doubleFieldBits = Double.doubleToLongBits(doubleField);
result = 31 * result + (int)(doubleFieldBits ^ (doubleFieldBits >>> 32));

result = 31 * result + Arrays.hashCode(arrayField);

result = 31 * result + referenceField.hashCode();
result = 31 * result +
(nullableReferenceField == null
? 0
: nullableReferenceField.hashCode());

return result;

}
``````
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For a simple class it is often easiest to implement hashCode() based on the class fields which are checked by the equals() implementation.

``````public class Zam {
private String foo;
private String bar;
private String somethingElse;

public boolean equals(Object obj) {
if (this == obj) {
return true;
}

if (obj == null) {
return false;
}

if (getClass() != obj.getClass()) {
return false;
}

Zam otherObj = (Zam)obj;

if ((getFoo() == null && otherObj.getFoo() == null) || (getFoo() != null && getFoo().equals(otherObj.getFoo()))) {
if ((getBar() == null && otherObj. getBar() == null) || (getBar() != null && getBar().equals(otherObj. getBar()))) {
return true;
}
}

return false;
}

public int hashCode() {
return (getFoo() + getBar()).hashCode();
}

public String getFoo() {
return foo;
}

public String getBar() {
return bar;
}
}
``````

The most important thing is to keep hashCode() and equals() consistent: if equals() returns true for two objects, then hashCode() should return the same value. If equals() returns false, then hashCode() should return different values.

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Like SquareCog have already noticed. If hashcode is generated once from concatenation of two strings it is extremely easy to generate masses of collisions: `("abc"+""=="ab"+"c"=="a"+"bc"==""+"abc")`. It is severe flaw. It would be better to evaluate hashcode for both fields and then calculate linear combination of them (preferably using primes as coefficients). –  Krzysztof Jabłoński Apr 30 '13 at 6:34