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I've read that in Java an object of type String can't change. But int and char variables can. Why is it? Can you give me an example?

Thank you. (I am a newer -_- )

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2  
What do you mean, can't change? How about you give us an example of what you're describing? –  user151841 Dec 24 '09 at 2:32
2  
Welcome to SO. I think you'll need to be a bit more descriptive to get a constructive reply. :) –  Pekka 웃 Dec 24 '09 at 2:33
8  
i dont understand why this guys gets a downvote. he's a newbie and simply asking a question. by givieng down vote you are discouraging him. and i can't see what is wrong with the question, its a valid one! –  Suraj Chandran Dec 24 '09 at 2:52
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Yeah...this is a perfectly legit and sensible question. –  Mark Dec 24 '09 at 2:54
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Suraj Chandran is a great man, so is Mark. –  Keating Dec 24 '09 at 6:12

7 Answers 7

up vote 14 down vote accepted

As bzabhi said, strings are immutable in Java. This means that a string object will never change. This does not mean you can not change string variables, just that you cannot change the underlying memory representation of the string. for an example:

String str = "Hello";
str += " World!";

Following the execution of these lines, str will point to a new string in memory. The original "Hello" string still exists in memory, but most likely it will not be there for long. Assuming that there are no extenuating circumstances, nothing will be pointing at the original string, so it will be garbage collected.

I guess the best way to put this would be to say that when line 2 of the example executes, a new string in memory is created from the concatenation of the original string and the string being added to it. The str variable, which is just a reference to a memory location, is then changed to point at the new variable that was just created.

I am not particularly knowledgeable on the point, but, as I understand it, this is what happens with all "non-primitive" values. Anything that at some point derives from Object follows these rules. Primitive values, such as ints, bools, chars, floats and doubles allow the actual value in memory to be changed. So, from this:

int num = 5;
num += 2;

the actual value in memory changes. Rather than creating a new object and changing the reference, this code sample will simply change the value in memory for the num variable.

As for why this is true, it is simply a design decision by the makers of Java. I'm sure someone will comment on why this was made, but that isn't something I know.

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Why? I'm just guessing here, but it's probably because if you were to extend a string you'd have to re-allocate memory anyway. The chars are stored contiguously, and the following char might not be available for use, so it just reallocates a new chunk of memory either way. –  Mark Dec 24 '09 at 3:02
    
i.e. -- it's just more efficient this way (in most cases). Unless you want to allocate huge strings only for potential use. But that's what StringBuffer is for... –  Mark Dec 24 '09 at 3:03
    
(I'd compare int to Integer - they behave in very similar ways. AtomicInteger and StringBuilder, for instance, behave quite differently from Integer/int and String.) –  Tom Hawtin - tackline Dec 24 '09 at 3:04
    
Why? Imagine having to explicitly make a copy every time it is used as an argument or returned. C++ copies implicitly. Although what gets copied depends on type of type. Java goes for an easier model (at least easier for programmers, not implementors of high performance implementations). –  Tom Hawtin - tackline Dec 24 '09 at 3:06
    
why wouldn't immutable model be the easier one for high performance implementations? –  eis Dec 16 '13 at 13:02

int and char can't change either. As with strings, you can put a different value into the same variable, but an integer itself doesn't change. 3 will always be 3; you can't modify it to be 4.

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String is an immutable type (the value inside of it cannot change). The same is true for all primitive types (boolean, byte, char, short, int, long, float, and double).

int    x;
String s;

x = 1;
x = 2;
s = "hello";
s = "world";
x++; // x = x + 1;
x--; // x = x - 1;

As you can see, in no case can you alter the constant value (1, 2, "hello", "world") but you can alter where they are pointing (if you warp your mind a bit and say that an int variable points at a constant int value).

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I'm not sure that it is possible to show (by example) that Strings cannot change. But you can confirm this by reading the description section of Javadoc for the String class, then reading the methods section and noting that there are no methods that can change a String.

EDIT: There are many reasons why Strings are designed to be immutable in Java. The most important reason is that immutable Strings are easier to use correctly than mutable ones. And if you do need the mutable equivalent of a String for some reason, you can use the StringBuilder (or StringBuffer) class.

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It's also worthwhile to note that since strings are immutable, that if they are passed into a method, they can't be modified inside of the method and then have those changes seen outside of the method scope.

public void changeIt(String s) {
    // I can't do anything to s here that changes the value 
    // original string object passed into this method
} 

public void changeIt(SomeObject o) {
    // if SomeObject is mutable, I can do things to it that will 
    // be visible outside of this method call
}
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This little article can probably explain it better than I can: http://www.jchq.net/tutorial/09%5F02Tut.htm

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Strings are immutable in java. Nevertheless, you can still append or prepend values to strings. By values, I mean primitive data types or other strings.

However, a StringBuffer is mutable, i.e. it can be changed in memory (a new memory block doesn't have to be allocated), which makes it quite efficient. Also, consider the following example:

StringBuffer mystringbuffer = new StringBuffer(5000);

for (int i = 0; i<=1000; i++)
{
    mystringbuffer.append ( 'Number ' + i + '\n');
}

System.out.print (mystringbuffer);

Rather than creating one thousand strings, we create a single object (mystringbuffer), which can expand in length. We can also set a recommended starting size (in this case, 5000 bytes), which means that the buffer doesn't have to be continually requesting memory when a new string is appended to it.

While a StringBuffer won't improve efficiency in every situation, if your application uses strings that grow in length, it would be efficient. Code can also be clearer with StringBuffers, because the append method saves you from having to use long assignment statements.

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