I did two tests, the first starting with Strings

    String str1 = "old";
    String str2 = str1;
    str1 = "new";

    System.out.println(str1); //new
    System.out.println(str2); //old

The above example indicates that str2 = str1, by value

Now I do the similar operations, but this time with Lists

    List<Integer> list1 = new ArrayList<Integer>();
    List<Integer> list2 = list1;

    System.out.println(list1.size()); //1
    System.out.println(list2.size()); //1

This example indicates that list2 = list1, by reference

I am confused, which Java variables/objects are passed by value and which are passed by reference?

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    None are passed by reference, all are passed by value. – Sotirios Delimanolis Mar 5 '14 at 4:39
  • @SotiriosDelimanolis Why in the second example, list2 updates to have the same size as list1? – onepiece Mar 5 '14 at 4:40
  • @onepiece cuz you are copying references – Dipak Ingole Mar 5 '14 at 4:40
  • Keep in mind Strings are different in that they are immutable! :D – user_loser Mar 5 '14 at 4:52
  • 1
    The difference is that str1 = "new" assigns a new object to a variable; but list1.add(1) modifies an existing object, without creating a new one. – Dawood ibn Kareem Mar 5 '14 at 4:53

In your first code, yes, this line

String str2 = str1;

Assigns str2 to the same String referred by str1, that is, "old". At this point, they are the same object. However, the next line

str1 = "new";

create a new instance of String, and changes the reference of str1 to this new String. As we are changing the reference of str1, the content of str2 are not changed.

Pay attention that Java, Strings are immutable i.e. cannot change state once initialized. Thinking this way, content of "old" may never change. So when you assign "new" to str1, you don't change the value of "old", you create a new String instead.

In other words, this line, in here, is the same as

str1 = new String("new");


However, in the second code,

List<Integer> list2 = list1;

make list2 refer to the same list as list1. As a result, list1 and list2 refer to the same list. Then


adds an element to the list referred by list1. However, as I have said, list1 and list2 refer to same list, both list1 and list2 now have the element 1. There is no new instance created in the method call.


In fact, if you were to do

List<Integer> list1 = new ArrayList<Integer>();
List<Integer> list2 = list1;
list1 = new ArrayList<Integer>();

System.out.println(list1.size()); //1
System.out.println(list2.size()); //0

because list1 = new ArrayList<Integer>(); reassigns list1 to a new list, that no longer refer to the object referred by list2.

After all the assignment operator (i.e. obj1 = obj2) always copy the references, which two references will still refer to the same object instance after the assignment. This is for both String, List, or any other classes (But not primitive types).

However, str1 = "new" will, in most cases, create a new instance of String and then assign the reference to the new String to str1 - this is a special case in the Java lanaguage. This don't apply to any other kind of objects. This is different to any other method call like list1.add(1).

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  • Please correct me if I'm wrong: When setting equal to another object, immutable objects create new instances of themselves, while mutable classes refer to the same thing unless they are instantiated manually (with the keyword new). – onepiece Mar 5 '14 at 4:55
  • No! That's not correct at all, @onepiece. The whole mutable/immutable thing is completely irrelevant. You could replace the String objects in your first code snippet with List objects, and you'd still see the same behaviour. – Dawood ibn Kareem Mar 5 '14 at 4:56
  • 1
    No! You can create that first example using List. It's not about any inherent difference between strings and lists. It's about the difference between the assignment operator (=) and calling a method (like add). – Dawood ibn Kareem Mar 5 '14 at 5:12
  • 2
    @onepiece There are only 2 types. Primitives types and reference types. Don't think of it as String vs List. Both of those are reference types. They work the same way. – Sotirios Delimanolis Mar 5 '14 at 5:12
  • 1
    @luiges90 You can't change the value of the reference of a variable by invoking a method on that variable. David is absolutely right. – Sotirios Delimanolis Mar 5 '14 at 5:42

Your difference is here

str1 = "new";



In the String example, you are changing references. Changing the reference of str1 does not affect any other variables.

In the List example, you are invoking a method, which dereferences the reference and accesses the object. Any variables referencing that same object will see that change.

Here it is

List<Integer> list1 = new ArrayList<Integer>(); // 1
List<Integer> list2 = list1; // 2 
list1.add(1); // 3

looks like this

   1:  list1 ===> object1234
   2:  list1 ===> object1234 <=== list2
   3:  list1 ===> object1234 (internal modification) <=== list2
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  • "Any variables referencing that same object will see that change." But if Java passes by value, list2 should have the value, not reference, of list1. – onepiece Mar 5 '14 at 4:44
  • @onepiece The value is the reference. – Sotirios Delimanolis Mar 5 '14 at 4:45
  • @onepiece See step-by-step. – Sotirios Delimanolis Mar 5 '14 at 4:46
  • This answer is the clearest and most direct. +1 for not mentioning "immutability", or for suggesting that Strings are somehow special. – Dawood ibn Kareem Mar 5 '14 at 5:49

Everything in java is passed by Value.There nothing like pass by refrence in java.Objects reference is passed by value. in ist case ie

String str1="old"
String str2=str1; //here str2 is pointed to str1
str1="new";       // here link of str1 is broken with old and pinted to new location      where as str2 is pointing to same location as earlier.

While in case of list both list are pointing to same memory location so changes are reflected.

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  • Arrays are implicitly passed by reference in java. that is changes made to arrays in functions can reflect the original contents. – Balayesu Chilakalapudi Mar 5 '14 at 4:47

Java is all pass by value. There is no pass by reference with Java. A copy is passed to variables that could be method parameters or regular ordinary variables. Objects such as String literals, Strings, Array references, and ArrayLists will still pass by value.

The thing is if the reference is not re-assigned then whatever happens to the reference variable will happen to the object it references.

Check out this tutorial on this from the people that wrote head first java and other books here: http://www.javaranch.com/campfire/StoryPassBy.jsp

Also with your code, OP, keep in mind that Strings are immutable. This means once the object is created it will not change basically. In your code though the String references are re-assigned while the List reference simply has a method called on it. The List references both point to the exact same ArrayList object; so the method call size() effects both List references since they both point to the same object in heap memory. :D

Happy Coding!

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  • 2
    That last paragraph is a red herring. Even if String objects were not immutable, this particular example would still behave the same way. – Dawood ibn Kareem Mar 5 '14 at 4:55
  • Hi David. I read your comment in a New Zealand accent since you are from there. :D Anyway, you are probably right, without coding this on my machine and checking. This is because there was a re-assignment in with the String references unlike the List references. :D Thank-you for the feedback. I was so bored. :D – user_loser Mar 5 '14 at 4:58
  • @DavidWallace I updated my answer. Thanks for the serious tip. :D – user_loser Mar 5 '14 at 5:02
  • 1
    I don't feel your edit is an improvement. I'm sorry, but I'm completely baffled by that last sentence. I see only one ArrayList object, which is kind of the point of the question. – Dawood ibn Kareem Mar 5 '14 at 5:11
  • Oh right, again. I guess that would not even make sense if there were two java.util.ArrayList() objects. :D Thank-you again Mr. Wallace. :D – user_loser Mar 5 '14 at 5:12

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