Is there any reason why a Java string cannot be tested for equality using its hashCode method? So basically, instead of....

"hello". Equals("hello")

You could use...

"hello".hashCode() == "hello".hashCode()

This would be useful because once a string has calculated it's hashcode then comparing a string would be as efficient as comparing an int as the string caches the hashcode and it is quite likely that the string is in the string pool anyway, if you designed it that way.

  • Your answer lies in the documentation on the equals() and hashcode() methods.
    – skaffman
    Sep 23, 2009 at 12:21
  • 9
    And regarding efficiency: take a close look at the strings that you're comparing. I'll be willing to bet that > 50% differ in their first character, and > 66% differ in their first two characters. So you actually have a very efficient comparison versus hashCode(), which has to walk the entire string. Plus, if you're using strings in the constant pool, equals() first checks identity, which will kick those out right away.
    – kdgregory
    Sep 23, 2009 at 12:30
  • @kdgregory It's true that the worst case scenario is that the strings actually match, which might also be the most common scenario. You've also answered my underlying string performance question, any gains being made by a pooled hashcode is being made already be performing an instance check. Cheers!
    – Andy
    Sep 23, 2009 at 12:47
  • 4
    What I find strange is that the current String implementation caches the hashCode, but does not use it in equals(), even though it would be a quick way to eliminate unequal strings in many cases - a big gain in the (admittedly rare) case where you compare strings with long identical prefixes. Sep 23, 2009 at 13:15

10 Answers 10


Let me give you a counter example. Try this,

public static void main(String[] args) {
    String str1 = "0-42L";
    String str2 = "0-43-";

    System.out.println("String equality: " + str1.equals(str2));
    System.out.println("HashCode eqauality: " + (str1.hashCode() == str2.hashCode()));

The result on my Java,

String equality: false
HashCode eqauality: true
  • Is it a coincidence that these two strings with the hash code collision are so similar? (i.e., the first three characters are the same.) Or are two similar strings also more likely to have a hash code collision?
    – ep4169
    May 9, 2016 at 23:59

because: hashCodes of two objects must be equal if the objects are equal, however, if two objects are unequal, the hashCode can still be equal.

(modified after comment)

  • 5
    +1, hashcodes don't guarantee uniqueness - they only try and provide low collisions
    – orip
    Sep 23, 2009 at 12:19
  • 4
    +1, however one small ammendment. hashCodes of two objects MUST be equal if the objects are equal, this is specified in the contract of hashCode.
    – Falaina
    Sep 23, 2009 at 12:26
  • 2
    Short and correct answer. Also doing something like that just to be as efficient as possible sounds a bit like premature optimization to me.
    – NickDK
    Sep 23, 2009 at 12:30
  • This would be a problem if you were testing against user input for example. If you were testing strings in a controlled environment and could guarantee no collisions (unit tests) then it would be worth it if it gave marked performance improvements but as kdgregory pointed out above it would not. Cheers!
    – Andy
    Sep 23, 2009 at 12:54
  • @andy Theoretically, I guess. But you'd have to verify that your strings did not give hash collisions. And then if later someone changes the program and adds a new string, they'd have to know to check if that creates a hash collision, and if so, they would then have to change all the comparisons. You'd be far better off to create an Enum or otherwise assign your own unique identifier to each string, rather than relying on the hashcodes not having collisions basically out of luck.
    – Jay
    Mar 7, 2014 at 15:53

as many said hashCode does not guaranty uniqueness. in fact, it cannot do that for a very simple reason.

hashCode returns an int, which means there are 2^32 possible values (around 4,000,000,000), but there are surely more than 2^32 possible strings, which means at least two strings have the same hashcode value.

this is called Pigeonhole principle.

  • good answer, could have done with knowing about pigeonhole principle in a recent interview
    – Karl
    Oct 18, 2009 at 21:04
  • Way more than two, if you think about it. If the max length of a string is Integer.MAX_VALUE, i.e. about 2 billion, and there are 2^32 ~= 64k possible char values, then there are (2^32)^(2^31) possible strings vs 2^32 hash values, means there are (2^32)^(2^31) / (2^32) = (2^32)^(2^30) strings for any given hash code. Which comes out to about 10 ^ 9 billion. i.e. a Very Big Number.
    – Jay
    Oct 22, 2012 at 15:31
  • @Jay: "2^32 ~= 64k"? What does ~= mean here?
    – bacar
    Dec 22, 2012 at 10:23
  • "Approximately equal to". The conventional math symbol for that isnot readily entered on most keyboards.
    – Jay
    Dec 25, 2012 at 5:17
  • Two is all you need to demonstrate that it cannot guaranty uniqueness. obviously the number of possible hash collisions for strings is too long to fit into this comment.
    – Omry Yadan
    Jul 21, 2013 at 8:22

Others have pointed out why it won't work. So I'll just add the addendum that the gain would be minimal anyway.

When you compare two strings in Java, the String equals function first checks if they are two references to the same object. If so, it immediately returns true. Then it checks if the lengths are equal. If not, it returns false. Only then does it start comparing character-by-character.

If you're manipulating data in memory, the same-object compare may quickly handle the "same" case, and that's a quick, umm, 4-byte integer compare I think. (Someone correct me if I have the length of an object handle wrong.)

For most unequal strings, I'd bet the length compare quickly finds them not equal. If you're comparing two names of things -- customers, cities, products, whatever -- they'll usually have unequal length. So a simple int compare quickly disposes of them.

The worst case for performance is going to be two long, identical, but not the same object strings. Then it has to do the object handle compare, false, keep checking. The length compare, true, keep checking. Then character by character through the entire length of the string to verify that yes indeed they are equal all the way to the end.

  • Good answer. This would have benefitted from mention of the intern method which makes the strict equality check more likely to matter.
    – Spina
    Oct 22, 2012 at 13:47
  • @Spina Valid point. If both strings are String literals, then yes, their objects will compare equal. If they are read from a database or user input, then you could intern them so their objects would compare equal. Whether this is of value depends how often you compare the strings.
    – Jay
    Oct 22, 2012 at 15:35
  • There are some cases where one would be likely to perform many comparisons against long strings that may be almost identical, and in such cases, pre-checking hash codes may be useful. In such cases, however, the code using the strings is free to check the hash code before testing equality.
    – supercat
    Nov 12, 2013 at 2:36
  • @supercat For this to help, you would have to calculate the hash codes once and cache them, and you would have to be doing comparisons against the same string multiple times. It's more work to calculate the hash codes for two string than to compare two strings: you have to examine every character in a string to compute the hash code, and do some arithmetic on top of that. So if you only compare a given string once, you'd be doing more work to calculate the hash than it would take to just do the compare, and then if the hash comes out equal, you still have to do the compare, so it's ...
    – Jay
    Nov 14, 2013 at 20:44
  • ... lose/lose. If you do compare the same string multiple times, and you are comparing it against other strings of equal length that are the same for the first some-number of characters, then calculating the hash could help. Frankly, that's the sort of optimization that is highly dependent on implementation details and the combination of data that you happen to have. You'd really have to study the details to see if it would help or hurt. BTW the current implementation of java.lang.String does cache hash-codes the first time they are requested, so you wouldn't need to cache them yourself.
    – Jay
    Nov 14, 2013 at 20:48

You can get the effect you want using String.intern() (which is implemented using a hash table.)

You can compare the return values of intern() using the == operator. If they refer to the same string then the original strings were equivalent (i.e. equals() would have returned true), and it requires only a pointer comparison (which has the same cost as an int comparison.)

String a = "Hello";
String b = "Hel" + "lo";

System.out.println(a == b);

String a2 = a.intern();
String b2 = b.intern();

System.out.println(a2 == b2);



The hashCode value isn't unique, which means the Strings may not actually match. To improve performance, often implementations of equals will perform a hashCode check before performing more laborious checks.


Very simple reason: risk of collisions... A hash code will have a lot less possible values than a string. It depends a bit of the kind of hash you generate but let's take a very simple example, where you would add the ordinal values of letters, multiplied with it's position: a=1, b=2, etc. Thus, 'hello' would translate to: h: 8x1=8, e: 5x2=10, l: 12x3=36, l: 12x4=48, o: 15x5=75. 8+10+36+48+75=177.

Are there other string values that could end as 177 hashed? Of course! Plenty of options. Feel free to calculate a few.

Still, this hashing method used a simple method. Java and .NET use a more complex hashing algorithm with a lot smaller chance of such collisions. But still, there's a chance that two different strings will result in the same hash value, thus this method is less reliable.

  • zzzda would also equal 177. (1x26, 2x26, 3x26, 4x4, 5x1) Sep 23, 2009 at 12:27

Two different String can easily generate same hash Code or different hash Code. If u want a equality test hash Code won't give an unique result. When we use String class it will return different value of hash Code. So String buffer class should be apply to have same hash Code for every concated object.


Is there any reason why a Java string cannot be tested for equality using its hashCode method?

Equality check is never done with hashCode() method be it String or any other object in Java.

The purpose of hashCode() is totally different and certainly not related to equality checks.

Here is the excerpt from the java.lang.Object's equals() Javadoc

Note that it is generally necessary to override the hashCode method whenever this method is overridden, so as to maintain the general contract for the hashCode method, which states that equal objects must have equal hash codes.

The real essence of overridden hashCode() can be experienced when you are dealing with Hash based collections like HashSet, HashMap or HashTable in Java.

For strings always use equals() method to check if two strings are equal. Why? Because java.lang.String has overridden java.lang.Object's equals() to compare strings by value instead of referential equality using == operator.

Note: Referential equality check using == is not same as hashCode() comparison.


There is no reason not to use hashCode as you describe.

However, you must be aware of collisions. There is a chance - a small chance admittedly - that two different strings do hash to the same value. Consider doing a hashCode at first, and if equal also do the full comparison using the equals().

  • So in other words, there is a reason to not use hashcode as he describes?
    – matt b
    Sep 23, 2009 at 12:45
  • so there's no reason to dismiss it out of hand, only a warning to do additional checks in some circumstances
    – Will
    Sep 23, 2009 at 13:09
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    So if you still have to do the equals test, why bother? You've just written twice as much code to get to the same place.
    – Jay
    Sep 23, 2009 at 13:12
  • if the assumption is that the strings are unlikely to be similiar, you'd get the efficiency that the asker queried.
    – Will
    Sep 23, 2009 at 14:54
  • I should say that back when I was writing demo apps for early j2me phones, for the manufacturers, and performance even of this kind of thing really mattered, using hashCode() to cheapen comparisons is the kind of thing we did all the time. You need profiling to back it up, but its worth exploring in the most performance-critical code.
    – Will
    Sep 23, 2009 at 14:56

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