What exactly does immutable mean - that is, what are the consequences of an object being mutable or immutable? In particular, why are Java's Strings immutable?

My understanding is that the StringBuilder type is something like a mutable equivalent to String. When would I use StringBuilder rather than String, and vice-versa?

  • 1
    When you said StringBuilder, didn't you mean the mutable class StringBuffer? String and StringBuffer are more similar in function than are String and StringBuilder. StringBuffer is effectively a mutable string. Commented Dec 9, 2009 at 15:30
  • stackoverflow.com/questions/2971315/…
    – R D
    Commented Aug 14, 2014 at 6:02
  • For a deeper discussion of immutability, including immutability AFTER the constructor has completed and the instance has become available: stackoverflow.com/a/75043881/501113 Commented May 11, 2023 at 21:15

17 Answers 17


Immutable means that once the constructor for an object has completed execution that instance can't be altered.

This is useful as it means you can pass references to the object around, without worrying that someone else is going to change its contents. Especially when dealing with concurrency, there are no locking issues with objects that never change


class Foo
     private final String myvar;

     public Foo(final String initialValue)
         this.myvar = initialValue;

     public String getValue()
         return this.myvar;

Foo doesn't have to worry that the caller to getValue() might change the text in the string.

If you imagine a similar class to Foo, but with a StringBuilder rather than a String as a member, you can see that a caller to getValue() would be able to alter the StringBuilder attribute of a Foo instance.

Also beware of the different kinds of immutability you might find: Eric Lippert wrote a blog article about this. Basically you can have objects whose interface is immutable but behind the scenes actual mutables private state (and therefore can't be shared safely between threads).

  • 3
    I think you should add a one arg constructor to assign value at least once. The point of current code is not clear since there is no value to change really :). Commented Nov 10, 2008 at 23:21
  • 4
    You should make the field readonly. It makes it completely explicit that the field is immutable. Right now it's immutable by convention
    – JaredPar
    Commented Nov 11, 2008 at 0:15
  • 7
    The member myVar should be final for this to be truly immutable.
    – laz
    Commented Jan 9, 2009 at 21:16
  • 13
    You are correct that myVar isn't accessible outside of Foo. However, the presence of final indicates to anyone that may be modifying the class in the future that its value isn't meant to change. I tend to favor being as explicit as possible in such circumstances.
    – laz
    Commented Jan 12, 2009 at 21:41
  • 2
    How about "Reference types cannot be made immutable just by using the final keyword. final only prevents reassignment." from en.wikipedia.org/wiki/Immutable_object Commented Apr 17, 2015 at 17:08

An immutable object is an object where the internal fields (or at least, all the internal fields that affect its external behavior) cannot be changed.

There are a lot of advantages to immutable strings:

Performance: Take the following operation:

String substring = fullstring.substring(x,y);

The underlying C for the substring() method is probably something like this:

// Assume string is stored like this:
struct String { char* characters; unsigned int length; };

// Passing pointers because Java is pass-by-reference
struct String* substring(struct String* in, unsigned int begin, unsigned int end)
    struct String* out = malloc(sizeof(struct String));
    out->characters = in->characters + begin;
    out->length = end - begin;
    return out;

Note that none of the characters have to be copied! If the String object were mutable (the characters could change later) then you would have to copy all the characters, otherwise changes to characters in the substring would be reflected in the other string later.

Concurrency: If the internal structure of an immutable object is valid, it will always be valid. There's no chance that different threads can create an invalid state within that object. Hence, immutable objects are Thread Safe.

Garbage collection: It's much easier for the garbage collector to make logical decisions about immutable objects.

However, there are also downsides to immutability:

Performance: Wait, I thought you said performance was an upside of immutability! Well, it is sometimes, but not always. Take the following code:

foo = foo.substring(0,4) + "a" + foo.substring(5);  // foo is a String
bar.replace(4,5,"a"); // bar is a StringBuilder

The two lines both replace the fourth character with the letter "a". Not only is the second piece of code more readable, it's faster. Look at how you would have to do the underlying code for foo. The substrings are easy, but now because there's already a character at space five and something else might be referencing foo, you can't just change it; you have to copy the whole string (of course some of this functionality is abstracted into functions in the real underlying C, but the point here is to show the code that gets executed all in one place).

struct String* concatenate(struct String* first, struct String* second)
    struct String* new = malloc(sizeof(struct String));
    new->length = first->length + second->length;

    new->characters = malloc(new->length);
    int i;

    for(i = 0; i < first->length; i++)
        new->characters[i] = first->characters[i];

    for(; i - first->length < second->length; i++)
        new->characters[i] = second->characters[i - first->length];

    return new;

// The code that executes
struct String* astring;
char a = 'a';
astring->characters = &a;
astring->length = 1;
foo = concatenate(concatenate(slice(foo,0,4),astring),slice(foo,5,foo->length));

Note that concatenate gets called twice meaning that the entire string has to be looped through! Compare this to the C code for the bar operation:

bar->characters[4] = 'a';

The mutable string operation is obviously much faster.

In Conclusion: In most cases, you want an immutable string. But if you need to do a lot of appending and inserting into a string, you need the mutability for speed. If you want the concurrency safety and garbage collection benefits with it the key is to keep your mutable objects local to a method:

// This will have awful performance if you don't use mutable strings
String join(String[] strings, String separator)
    StringBuilder mutable;
    boolean first = true;

    for(int i = 0; i < strings.length; i++)
        if(first) first = false;
        else mutable.append(separator);


    return mutable.toString();

Since the mutable object is a local reference, you don't have to worry about concurrency safety (only one thread ever touches it). And since it isn't referenced anywhere else, it is only allocated on the stack, so it is deallocated as soon as the function call is finished (you don't have to worry about garbage collection). And you get all the performance benefits of both mutability and immutability.

  • What is necessary is not that the fields be immutable, but rather that the object's defined observable state be immutable; an object which holds a reference to another object as a means of encapsulating state contained therein can only be immutable if all encapsulated aspects of state which it exposes to the outside world are likewise immutable. Note that it is neither necessary nor sufficient that fields be of immutable types. What matters is visible state.
    – supercat
    Commented Jan 6, 2014 at 21:19
  • 9
    Passing pointers because Java is pass-by-reference Isn't java "pass-by-value?" Commented Oct 2, 2014 at 1:31
  • @CristianGutu yes you are right JAVA is "Pass by Value" not "Pass by REFERENCE" Commented May 16, 2017 at 7:15
  • 3
    Reference is passed as the value !!
    – devv
    Commented Jan 15, 2019 at 1:47

Actually String is not immutable if you use the wikipedia definition suggested above.

String's state does change post construction. Take a look at the hashcode() method. String caches the hashcode value in a local field but does not calculate it until the first call of hashcode(). This lazy evaluation of hashcode places String in an interesting position as an immutable object whose state changes, but it cannot be observed to have changed without using reflection.

So maybe the definition of immutable should be an object that cannot be observed to have changed.

If the state changes in an immutable object after it has been created but no-one can see it (without reflection) is the object still immutable?

  • 1
    Good idea - an object that cannot be observed to have changed, as well as, no way to change it from the outside. The private field for hashCode() is an internal change that is not material to the externally visible state of the object.
    – mparaz
    Commented Feb 22, 2009 at 15:55
  • 2
    Actually it can be observed to have changed if you use reflection. See more at Sedgewick's Strings are mutable if you allow reflection.
    – Miguel
    Commented Jul 4, 2013 at 8:42

Immutable objects are objects that can't be changed programmatically. They're especially good for multi-threaded environments or other environments where more than one process is able to alter (mutate) the values in an object.

Just to clarify, however, StringBuilder is actually a mutable object, not an immutable one. A regular java String is immutable (meaning that once it's been created you cannot change the underlying string without changing the object).

For example, let's say that I have a class called ColoredString that has a String value and a String color:

public class ColoredString {

    private String color;
    private String string;

    public ColoredString(String color, String string) {
        this.color  = color;
        this.string = string;

    public String getColor()  { return this.color;  }
    public String getString() { return this.string; }

    public void setColor(String newColor) {
        this.color = newColor;


In this example, the ColoredString is said to be mutable because you can change (mutate) one of its key properties without creating a new ColoredString class. The reason why this may be bad is, for example, let's say you have a GUI application which has multiple threads and you are using ColoredStrings to print data to the window. If you have an instance of ColoredString which was created as

new ColoredString("Blue", "This is a blue string!");

Then you would expect the string to always be "Blue". If another thread, however, got ahold of this instance and called


You would suddenly, and probably unexpectedly, now have a "Red" string when you wanted a "Blue" one. Because of this, immutable objects are almost always preferred when passing instances of objects around. When you have a case where mutable objects are really necessary, then you would typically guard the objet by only passing copies out from your specific field of control.

To recap, in Java, java.lang.String is an immutable object (it cannot be changed once it's created) and java.lang.StringBuilder is a mutable object because it can be changed without creating a new instance.

  • You should make the fields readonly. Right now your class is immutable by convention. There is no indication to future developers tha the immutable is intentional. Making the fields readonly will help clarify your intention to a future dev
    – JaredPar
    Commented Nov 11, 2008 at 0:16
  • @JaredPar - Actually, the class is not immutable at all... it's an example of a mutable class to demonstrate why it may be an issue.
    – Jason Coco
    Commented Nov 11, 2008 at 1:04
  • 1
    @JaredPar - Oh, that's totally okay :) I was gonna rewrite it a bit to be more clear, but Douglas's is already well written and seems to be the favorite, so I'll just leave mine as another example; but somebody did actually edit it to make the properties final which I thought was amusing :)
    – Jason Coco
    Commented Nov 11, 2008 at 2:52
  1. In large applications its common for string literals to occupy large bits of memory. So to efficiently handle the memory, the JVM allocates an area called "String constant pool".(Note that in memory even an unreferenced String carries around a char[], an int for its length, and another for its hashCode. For a number, by contrast, a maximum of eight immediate bytes is required)
  2. When complier comes across a String literal it checks the pool to see if there is an identical literal already present. And if one is found, the reference to the new literal is directed to the existing String, and no new 'String literal object' is created(the existing String simply gets an additional reference).
  3. Hence : String mutability saves memory...
  4. But when any of the variables change value, Actually - it's only their reference that's changed, not the value in memory(hence it will not affect the other variables referencing it) as seen below....

String s1 = "Old string";

//s1 variable, refers to string in memory
        reference                 |     MEMORY       |
        variables                 |                  |

           [s1]   --------------->|   "Old String"   |

String s2 = s1;

//s2 refers to same string as s1
                                  |                  |
           [s1]   --------------->|   "Old String"   |
           [s2]   ------------------------^

s1 = "New String";

//s1 deletes reference to old string and points to the newly created one
           [s1]   -----|--------->|   "New String"   |
                       |          |                  |
                       |~~~~~~~~~X|   "Old String"   |
           [s2]   ------------------------^

The original string 'in memory' didn't change, but the reference variable was changed so that it refers to the new string. And if we didn't have s2, "Old String" would still be in the memory but we'll not be able to access it...


"immutable" means you cannot change value. If you have an instance of String class, any method you call which seems to modify the value, will actually create another String.

String foo = "Hello";
<-- foo here still has the same value "Hello"

To preserve changes you should do something like this foo = foo.sustring(3);

Immutable vs mutable can be funny when you work with collections. Think about what will happen if you use mutable object as a key for map and then change the value (tip: think about equals and hashCode).



It might be a bit late but in order to understand what an immutable object is, consider the following example from the new Java 8 Date and Time API (java.time). As you probably know all date objects from Java 8 are immutable so in the following example

LocalDate date = LocalDate.of(2014, 3, 18); 



This prints the same year as the initial date because the plusYears(2) returns a new object so the old date is still unchanged because it's an immutable object. Once created you cannot further modify it and the date variable still points to it.

So, that code example should capture and use the new object instantiated and returned by that call to plusYears.

LocalDate date = LocalDate.of(2014, 3, 18); 
LocalDate dateAfterTwoYears = date.plusYears(2);

date.toString()… 2014-03-18

dateAfterTwoYears.toString()… 2016-03-18


I really like the explaination from SCJP Sun Certified Programmer for Java 5 Study Guide.

To make Java more memory efficient, the JVM sets aside a special area of memory called the "String constant pool." When the compiler encounters a String literal, it checks the pool to see if an identical String already exists. If a match is found, the reference to the new literal is directed to the existing String, and no new String literal object is created.

  • It should be able to do this with any identical immutable objects, but I suppose that would take too much runtime.
    – Zan Lynx
    Commented Nov 11, 2008 at 3:00

Objects which are immutable can not have their state changed after they have been created.

There are three main reasons to use immutable objects whenever you can, all of which will help to reduce the number of bugs you introduce in your code:

  • It is much easier to reason about how your program works when you know that an object's state cannot be changed by another method
  • Immutable objects are automatically thread safe (assuming they are published safely) so will never be the cause of those hard-to-pin-down multithreading bugs
  • Immutable objects will always have the same Hash code, so they can be used as the keys in a HashMap (or similar). If the hash code of an element in a hash table was to change, the table entry would then effectively be lost, since attempts to find it in the table would end up looking in the wrong place. This is the main reason that String objects are immutable - they are frequently used as HashMap keys.

There are also some other optimisations you might be able to make in code when you know that the state of an object is immutable - caching the calculated hash, for example - but these are optimisations and therefore not nearly so interesting.


One meaning has to do with how the value is stored in the computer, For a .Net string for example, it means that the string in memory cannot be changed, When you think you're changing it, you are in fact creating a new string in memory and pointing the existing variable (which is just a pointer to the actual collection of characters somewhere else) to the new string.

String s1="Hi";
String s2=s1;

System.out.println(s2); //Hi  (if String was mutable output would be: Bye)
System.out.println(s1); //Bye

s1="Hi" : an object s1 was created with "Hi" value in it.

s2=s1 : an object s2 is created with reference to s1 object.

s1="Bye" : the previous s1 object's value doesn't change because s1 has String type and String type is an immutable type, instead compiler create a new String object with "Bye" value and s1 referenced to it. here when we print s2 value, the result will be "Hi" not "Bye" because s2 referenced to previous s1 object which had "Hi" value.

  • can you add a little explaination please ?
    – minigeek
    Commented Jun 1, 2017 at 7:44

Immutable means that once the object is created, non of its members will change. String is immutable since you can not change its content. For example:

String s1 = "  abc  ";
String s2 = s1.trim();

In the code above, the string s1 did not change, another object (s2) was created using s1.


Immutable simply mean unchangeable or unmodifiable. Once string object is created its data or state can't be changed

Consider bellow example,

class Testimmutablestring{  
  public static void main(String args[]){  
    String s="Future";  
    s.concat(" World");//concat() method appends the string at the end  
    System.out.println(s);//will print Future because strings are immutable objects  

Let's get idea considering bellow diagram,

enter image description here

In this diagram, you can see new object created as "Future World". But not change "Future".Because String is immutable. s, still refer to "Future". If you need to call "Future World",

String s="Future";  
s=s.concat(" World");  
System.out.println(s);//print Future World

Why are string objects immutable in java?

Because Java uses the concept of string literal. Suppose there are 5 reference variables, all refers to one object "Future".If one reference variable changes the value of the object, it will be affected to all the reference variables. That is why string objects are immutable in java.


Once instanciated, cannot be altered. Consider a class that an instance of might be used as the key for a hashtable or similar. Check out Java best practices.


As the accepted answer doesn't answer all the questions. I'm forced to give an answer after 11 years and 6 months.

Can somebody clarify what is meant by immutable?

Hope you meant immutable object (because we could think about immutable reference).

An object is immutable: iff once created, they always represent the same value (doesn't have any method that change the value).

Why is a String immutable?

Respect the above definition which could be checked by looking into the Sting.java source code.

What are the advantages/disadvantages of the immutable objects? immutable types are :

  • safer from bugs.

  • easier to understand.

  • and more ready for change.

Why should a mutable object such as StringBuilder be preferred over String and vice-verse?

Narrowing the question Why do we need the mutable StringBuilder in programming? A common use for it is to concatenate a large number of strings together, like this:

String s = "";
for (int i = 0; i < n; ++i) {
    s = s + n;

Using immutable strings, this makes a lot of temporary copies — the first number of the string ("0") is actually copied n times in the course of building up the final string, the second number is copied n-1 times, and so on. It actually costs O(n2) time just to do all that copying, even though we only concatenated n elements.

StringBuilder is designed to minimize this copying. It uses a simple but clever internal data structure to avoid doing any copying at all until the very end, when you ask for the final String with a toString() call:

StringBuilder sb = new StringBuilder();
for (int i = 0; i < n; ++i) {
String s = sb.toString();

Getting good performance is one reason why we use mutable objects. Another is convenient sharing: two parts of your program can communicate more conveniently by sharing a common mutable data structure.

More could be found here : https://web.mit.edu/6.005/www/fa15/classes/09-immutability/#useful_immutable_types


Immutable Objects

An object is considered immutable if its state cannot change after it is constructed. Maximum reliance on immutable objects is widely accepted as a sound strategy for creating simple, reliable code.

Immutable objects are particularly useful in concurrent applications. Since they cannot change state, they cannot be corrupted by thread interference or observed in an inconsistent state.

Programmers are often reluctant to employ immutable objects, because they worry about the cost of creating a new object as opposed to updating an object in place. The impact of object creation is often overestimated, and can be offset by some of the efficiencies associated with immutable objects. These include decreased overhead due to garbage collection, and the elimination of code needed to protect mutable objects from corruption.

The following subsections take a class whose instances are mutable and derives a class with immutable instances from it. In so doing, they give general rules for this kind of conversion and demonstrate some of the advantages of immutable objects.



An immutable object is the one you cannot modify after you create it. A typical example are string literals.

A D programming language, which becomes increasingly popular, has a notion of "immutability" through "invariant" keyword. Check this Dr.Dobb's article about it - http://dobbscodetalk.com/index.php?option=com_myblog&show=Invariant-Strings.html&Itemid=29 . It explains the problem perfectly.


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