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If a method has a local variable i:

int i = 10;

and then I assign a new value:

i = 11;

Will this allocate a new memory location? Or just replace the original value?

Does this mean that primitives are immutable?

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It will not create new place in memory. –  Maroun Maroun Aug 3 '13 at 20:39
It will replace the original. Java primitives are not objects. Integer (and other primitive wrapper classes) are immutable. –  Luiggi Mendoza Aug 3 '13 at 20:40
@BrianRoach no he didn't. By your logic, Strings are mutable: String str = "test"; str = "newStr";. To answer OP's question, they are in-fact immutable. If you consider i++, that is really: i = i + 1. Which you can see takes the value of i, adds one and reassigns i to this new value. –  user1181445 Aug 3 '13 at 20:48
I don't actually think this is a bad question... not sure why there are so many downvotes. –  arshajii Aug 3 '13 at 20:58
@BrianRoach I too have been doing research into the ballmer curve –  user1181445 Aug 3 '13 at 21:43

4 Answers 4

up vote 24 down vote accepted

Will this allocate a new memory location? Or just replace the original value?

Java does not really make any guarantees that variables will correspond to memory locations; for example, your method might be optimized in such a way that i is stored in a register — or might not even be stored at all, if the compiler can see that you never actually use its value, or if it can trace through the code and use the appropriate values directly.

But setting that aside . . . if we take the abstraction here to be that a local variable denotes a memory location on the call stack, then i = 11 will simply modify the value at that memory location. It will not need to use a new memory location, because the variable i was the only thing referring to the old location.

Does this mean that primitives are immutable?

Yes and no: yes, primitives are immutable, but no, that's not because of the above.

When we say that something is mutable, we mean that it can be mutated: changed while still having the same identity. For example, when you grow out your hair, you are mutating yourself: you're still you, but one of your attributes is different.

In the case of primitives, all of their attributes are fully determined by their identity; 1 always means 1, no matter what, and 1 + 1 is always 2. You can't change that.

If a given int variable has the value 1, you can change it to have the value 2 instead, but that's a total change of identity: it no longer has the same value it had before. That's like changing me to point to someone else instead of to me: it doesn't actually change me, it just changes me.

With objects, of course, you can often do both:

StringBuilder sb = new StringBuilder("foo");
sb.append("bar"); // mutate the object identified by sb
sb = new StringBuilder(); // change sb to identify a different object
sb = null; // change sb not to identify any object at all

In common parlance, both of these will be described as "changing sb", because people will use "sb" both to refer the variable (which contains a reference) and to the object that it refers to (when it refers to one). This sort of looseness is fine, as long as you remember the distinction when it matters.

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+1 for making it personal –  akf Aug 4 '13 at 15:29
I grew hair, but sorry I'm a changed man! –  nawfal Jan 2 '14 at 11:10

Immutable means that each time the value of and object has changed a new reference is created for it on stack. You can't talk about immutability in case of primitive types,only the Wrapper Classes are immutable. Java uses copy_by_value not by reference.

It makes no difference if you're passing primitive or reference variables, you are always passing a copy of the bits in the variable. So for a primitive variable, you're passing a copy of the bits representing the value and if you're passing an object reference variable, you're passing a copy of the bits representing the reference to an object.

For example, if you pass an int variable with the value of 3, you're passing a copy of the bits representing 3.

Once a primitive has been declared, its primitive type can never change, although its value can change.

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@Maroun Maroun I just tried the following: int i = 10; int j = i; syso(i); // 10 syso(j); // 10 i = 11; syso(i) // 11 syso(j) // 10 So if i does not create a new place in memory, then how can the value of j be the same? –  fYre Aug 3 '13 at 21:00
In case of primitive type when you assign the value of i to j,the bits corresponding to the value of i are copied ,you are not assigning the reference of i because you can't talk about reference in case of primitive types. –  Java Panter Aug 3 '13 at 21:05

This isn't a full answer, but it is a way to prove the immutability of primitive-type values.

If primitive values (literals) are mutable, then the following code would work fine:

int i = 10; // assigned i the literal value of 10
5 = i; // reassign the value of 5 to equal 10
System.out.println(5); // prints 10

Of course, this isn't true.

The integer values, such as 5, 10 and 11 are already stored in the memory. When you set a variable equal to one of them: it changes the value in the memory-slot where i is.

You can see this here through the bytecode for the following code:

public void test(){
    int i = 10;
    i = 11;
    i = 10;


// access flags 0x1
public test()V
  BIPUSH 10 // retrieve literal value 10
  ISTORE 1  // store it in value at stack 1: i
  BIPUSH 11 // same, but for literal value 11
  BIPUSH 10 // repeat of first set. Still references the same literal 10. 
  LOCALVARIABLE this LTest; L0 L4 0

As you can see in the bytecode (hopefully) it references the literal value (example: 10) and then stores it in the slot for variable i. When you change the value of i, you are just changing which value is stored in that slot. The values themselves aren't changing, the location of them is.

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Yes, they are immutable. They're totally unchangeable.

There's a nice explanation buried in here. It's for Go, but it's the same thing in Java. Or any other language in the C family.

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No, it isn't. Primitives are immutable, variables aren't. –  nes1983 Aug 3 '13 at 21:10
I misread the answer ;) my bad.. late hour. –  Maroun Maroun Aug 3 '13 at 21:14

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