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When testing for equality of String's in Java I have always used equals() because to me this seems to be the most natural method for it. After all, its name already says what it is intended to do. However, a colleague of mine recently told me had been taught to use compareTo() == 0 instead of equals(). This feels unnatural (as compareTo() is meant to provide an ordering and not compare for equality) and even somewhat dangerous (because compareTo() == 0 does not necessarily imply equality in all cases, even though I know it does for String's) to me.

He did not know why he was taught to use compareTo() instead of equals() for String's, and I could also not find any reason why. Is this really a matter of personal taste, or is there any real reason for either method?

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Strictly speaking at a micro-optimization level, which we should never prematurely speak at, .equalsIgnoreCase() is the fastest comparison if it is appropriate, otherwise .equals() is what you want. – Jarrod Roberson Sep 29 '11 at 4:40

17 Answers 17

up vote 64 down vote accepted

A difference is that "foo".equals((String)null) returns false while "foo".compareTo((String)null) == 0 throws a NullPointerException. So they are not always interchangeable even for Strings.

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I think you should also mention this. equals computes the hashcode. The hashcode of two different strings, although rare, can be the same. But when using compareTo(), it checks the strings character by character. So in this case two string will return true if and only if their actual contents are equal. – Ashwin Jun 6 '12 at 5:23
Why do you think that equals computes the hashcode? You can see that this is not the case: docjar.com/html/api/java/lang/String.java.html (line 1013). – waxwing Jun 6 '12 at 9:04
you are right. I thought that equals and hashcode go hand in hand(equals checks whether both have the same hash code). Then why is it necessary to override both these methods if you decide to override any one of them. – Ashwin Jun 7 '12 at 7:35
It is necessary to override hashcode when we override equals because if the class uses hash-based collections, including HashMap, HashSet, and Hashtable the class wont function properly – varunthacker Jul 6 '12 at 15:29
@Ashwin It is necessary because if .equals returns true, the hashcodes should also be equal. However if hashcodes are equal it doesn't imply .equals should return true – Alan May 13 '15 at 0:22

When comparing for equality you should use equals(), because it expresses your intent in a clear way.

compareTo() has the additional drawback that it only works on objects that implement the Comparable interface.

This applies in general, not only for Strings.

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The 2 main differences are that:

  1. equals will take any Object as a parameter, but compareTo will only take Strings.
  2. equals only tells you whether they're equal or not, but compareTo gives information on how the Strings compare lexicographically.

I took a look at the String class code, and the algorithm within compareTo and equals looks basically the same. I believe his opinion was just a matter of taste, and I agree with you -- if all you need to know is the equality of the Strings and not which one comes first lexicographically, then I would use equals.

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compareTo has do do more work if the strings have different lengths. equals can just return false, while compareTo must always examine enough characters to find the sorting order.

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compareTo() not only applies to Strings but also any other object because compareTo<T> takes a generic argument T. String is one of the classes that has implemented the compareTo() method by implementing the Comparable interface.(compareTo() is a method fo the comparable Interface). So any class is free to implement the Comparable interface.

But compareTo() gives the ordering of objects, used typically in sorting objects in ascending or descending order while equals() will only talk about the equality and say whether they are equal or not.

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In String Context:
compareTo: Compares two strings lexicographically.
equals: Compares this string to the specified object.

compareTo compares two strings by their characters (at same index) and returns an integer (positive or negative) accordingly.

String s1 = "ab";
String s2 = "ab";
String s3 = "qb";
s1.compareTo(s2); // is 0
s1.compareTo(s3); // is -16
s3.compareTo(s1); // is 16
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equals() should be the method of choice in the case of the OP.

Looking at the implementation of equals() and compareTo() in java.lang.String on grepcode, we can easily see that equals is better if we are just concerned with the equality of two Strings:


1012  public boolean equals(Object anObject) {
1013 if (this == anObject) {
1014 return true;
1015 }
1016 if (anObject instanceof String) {
1017 String anotherString = (String)anObject;
1018 int n = count;
1019 if (n == anotherString.count) {
1020 char v1[] = value;
1021 char v2[] = anotherString.value;
1022 int i = offset;
1023 int j = anotherString.offset;
1024 while (n-- != 0) {
1025 if (v1[i++] != v2[j++])
1026 return false;
1027 }
1028 return true;
1029 }
1030 }
1031 return false;
1032 }

and compareTo():

1174  public int compareTo(String anotherString) {
1175 int len1 = count;
1176 int len2 = anotherString.count;
1177 int n = Math.min(len1, len2);
1178 char v1[] = value;
1179 char v2[] = anotherString.value;
1180 int i = offset;
1181 int j = anotherString.offset;
1183 if (i == j) {
1184 int k = i;
1185 int lim = n + i;
1186 while (k < lim) {
1187 char c1 = v1[k];
1188 char c2 = v2[k];
1189 if (c1 != c2) {
1190 return c1 - c2;
1191 }
1192 k++;
1193 }
1194 } else {
1195 while (n-- != 0) {
1196 char c1 = v1[i++];
1197 char c2 = v2[j++];
1198 if (c1 != c2) {
1199 return c1 - c2;
1200 }
1201 }
1202 }
1203 return len1 - len2;
1204 }

When one of the strings is a prefix of another, the performance of compareTo() is worse as it still needs to determine the lexicographical ordering while equals() won't worry any more and return false immediately.

In my opinion, we should use these two as they were intended:

  • equals() to check for equality, and
  • compareTo() to find the lexical ordering.
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It appears that both methods pretty much do the same thing, but the compareTo() method takes in a String, not an Object, and adds some extra functionality on top of the normal equals() method. If all you care about is equality, then the equals() method is the best choice, simply because it makes more sense to the next programmer that takes a look at your code. The time difference between the two different functions shouldn't matter unless you're looping over some huge amount of items. The compareTo() is really useful when you need to know the order of Strings in a collection or when you need to know the difference in length between strings that start with the same sequence of characters.

source: http://java.sun.com/javase/6/docs/api/java/lang/String.html

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String.equals() requires invoking instanceof operator while compareTo() requires not. My collegue has noted large performance dropdown caused by excessive numbers of instanceof calls in equals() method, however my test has proved compareTo() to be only slightly faster.

I was using, however, java 1.6. On other versions (or other JDK vendors) the difference could be larger.

The test compared each-to-each string in 1000 element arrays, repeated 10 times.

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I guess you must have used very short strings, all of the same length and with high diversity at the first character to get a result where compareTo() is faster than equals()? But for most sets of real world data equals() is much faster than compareTo() == 0. equals() shines if the strings have a common prefix but different lengths or if they are actually the same object. – x4u Jun 3 '11 at 12:08
Well, my test was against hypotesis that instanceof is performance killer, so the strings were short indeed. – Danubian Sailor Jun 3 '11 at 12:25
If your string are random and mostly differ in length then the more obvious choice should be equals() method over compareTo() as in most of the cases it will immediately return false if they are not equal in length. – sactiw Jan 18 '14 at 13:07

There are certain things which you need to keep in mind while overriding compareTo in Java e.g. Compareto must be consistent with equals and subtraction should not be used for comparing integer fields as they can overflow. check Things to remember while overriding Comparator in Java for details.

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  1. equals can take any Object as a parameter but compareTo can only take String.

  2. when cometo null,compareTo will throw a exception

  3. when you want to know where the diff happen,you can use compareTo.

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compareTo can take any object as argument. As @apurva jadhav said above, comparable takes a generic argument. If you implement comaparable as Comparable<String>, then you are allowed to use only strings. – Gaurav Kumar Mar 30 '15 at 18:54

This is an experiment in necromancy :-)

Most answers compare performance and API differences. They miss the fundamental point that the two operations simply have different semantics.

Your intuition is correct. x.equals(y) is not interchangeable with x.compareTo(y) == 0. The first compares identity, while the other compares the notion of 'size'. It is true that in many cases, especially with primitive types, these two co-align.

The general case is this:

If x and y are identical, they share the same 'size': if x.equals(y) is true => x.compareTo(y) is 0.

However, if x and y share the same size, it does not mean they are identical.

if x.compareTo(y) is 0 does not necessarily mean x.equals(y) is true.

A compelling example where identity differs from size would be complex numbers. Assume that the comparison is done by their absolute value. So given two complex numbers: Z1 = a1 + b1*i and Z2 = a2 + b2*i:

Z1.equals(z2) returns true if and only if a1 = a2 and b1 = b2.

However Z1.compareTo(Z2) returns 0 for and infinite number of (a1,b1) and (a2,b2) pairs as long as they satisfy the condition a1^2 + b1^2 == a2^2 + b2^2.

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x.equals(y) does not mean Identity, it means Equality. Identity is compared using x == y for user-defined types in Java. – Fernando Pelliccioni Oct 21 '14 at 21:56

Equals can be more efficient then compareTo.

If the length of the character sequences in String doesn't match there is no way the Strings are equal so rejection can be much faster.

Moreover if it is same object (identity equality rather then logical equality), it will also be more efficient.

If they also implemented hashCode caching it could be even faster to reject non-equals in case their hashCode's doesn't match.

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Equals -

1- Override the GetHashCode method to allow a type to work correctly in a hash table.

2- Do not throw an exception in the implementation of an Equals method. Instead, return false for a null argument.


  x.Equals(x) returns true.

  x.Equals(y) returns the same value as y.Equals(x).

  (x.Equals(y) && y.Equals(z)) returns true if and only if x.Equals(z) returns true.

Successive invocations of x.Equals(y) return the same value as long as the object referenced by x and y are not modified.

x.Equals(null) returns false.

4- For some kinds of objects, it is desirable to have Equals test for value equality instead of referential equality. Such implementations of Equals return true if the two objects have the same value, even if they are not the same instance.

For Example -

   Object obj1 = new Object();
   Object obj2 = new Object();
   obj1 = obj2; 

Output :-


while compareTo -

Compares the current instance with another object of the same type and returns an integer that indicates whether the current instance precedes, follows, or occurs in the same position in the sort order as the other object.

It returns -

Less than zero - This instance precedes obj in the sort order. Zero - This instance occurs in the same position in the sort order as obj. Greater than zero - This instance follows obj in the sort order.

It can throw ArgumentException if object is not the same type as instance.

For example you can visit here.

So I suggest better to use Equals in place of compareTo.

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  • equals: required for checking equality and restricting duplicates. Many classes of Java Library use this in case they wanted to find duplicates. e.g. HashSet.add(ob1) will only add if that doesn't exist. So if you are extending some classes like this then override equals().

  • compareTo: required for ordering of element. Again for stable sorting you require equality, so there is a return 0.

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"equals" compare objects and return true or false and "compare to" return 0 if is true or an number [> 0] or [< 0] if is false here an example:

<!-- language: lang-java -->
//Objects Integer
Integer num1 = 1;
Integer num2 = 1;
//New Value
num2 = 3;//set value


num1.equals(num2) =true
num1.compareTo(num2) =0
num1.equals(num2) =false
num1.compareTo(num2) =-1

Documentation Compare to: https://docs.oracle.com/javase/7/docs/api/java/lang/Comparable.html

Documentation Equals : https://docs.oracle.com/javase/7/docs/api/java/lang/Object.html#equals(java.lang.Object)

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equals() can be more efficient then compareTo().

A very important difference between compareTo and equals:

"myString".compareTo(null);  //Throws java.lang.NullPointerException
"myString".equals(null);     //Returns false

equals() checks if two objects are the same or not and returns a boolean.

compareTo() (from interface Comparable) returns an integer. It checks which of the two objects is "less than", "equal to" or "greater than" the other. Not all objects can be logically ordered, so a compareTo() method doesn't always make sense.

Note that equals() doesn't define the ordering between objects, which compareTo() does.

Now I advise you to review the source code of both methods to conclude that equals is preferable over compareTo that involves some Math calculations.

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