Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

This question already has an answer here:

I know that String in .NET is a subclass of Object, and that Objects in .NET are reference type. Therefore, the following code puzzles me a little. Can you help me understand the difference? Thanks

I declared a class called MyInt:

class MyInt
{
    int i;

    public int number
    {
        get { return i; }
        set { i = value; }
    }

    public override string ToString()
    {
        return Convert.ToString(i);
    }
}

Then the following code:

MyInt a = new MyInt();
MyInt b = new MyInt();
a.number = 5;
b.number = 7;
b = a;
a.number = 9;

Console.WriteLine(a.ToString());
Console.WriteLine(b.ToString());

Yields:

9  
9

Which I understand because this is an Object = Reference Type and so a and b now reference the same object on the heap.

But what happens here?

 string a1;
 string b1;
 a1 = "Hello";
 b1 = "Goodbye";
 b1 = a1;
 a1 = "Wazzup?";

 Console.WriteLine(a1);
 Console.WriteLine(b1);

This yields:

Wazzup?
Hello

Is String an object who is treated differently?

share|improve this question

marked as duplicate by delnan, Scott Chamberlain, Erik Philips, Ed Chapel, Elliott Frisch Mar 3 '14 at 1:17

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

    
It's not treated differently, you just don't understand what reference type means. Try the second snippet with any other reference type, even Object (use the hash code to differentiate them), and you'll find the same behavior. The first would also work with any reference type, only you can't even write it in the first place with all immutable types (again, string isn't special). – delnan Aug 15 '13 at 20:48
1  
Why .NET String is immutable? – I4V Aug 15 '13 at 20:53
    
I like the answer in this question about the same thing everyone asks when they start learning .Net – randcd Aug 15 '13 at 20:55
    
Equals is also treated different with string – Paparazzi Aug 15 '13 at 20:57
    
Hi delnan, did as you asked, but still seems like it won't solve the mystery here...Added Hash codes and got the following (same hash codes..) 9 9 46104728 46104728 Wazzup? Hello 46104728 46104728 – user2687326 Aug 15 '13 at 21:00
up vote 6 down vote accepted

First, we create two string variables. Right now, they reference nothing because they are not initialized:

string a1;
string b1;

Next, a string with the value "Hello" is created and a reference to that space in memory is returned. a1 is set to that reference:

a1 = "Hello"; // a1 points to a place in memory with a string containing "Hello"

Next, a string with the value "Goodbye" is created, b1 is set to reference to that.

b1 = "Goodbye";

Next we do:

b1 = a1;

This assignment will copy the value of the reference over. Now, b1 points to the string a1 points to, and "Goodbye" is unreachable. Since strings are always allocated on the heap, the garbage collector will eventually stop by and clean up the memory "Goodbye" was using, as nothing refers to it anymore.*

* Edit: Technically this probably isn't true, as string constants would be interned and thus rooted by the interned table - but let's just say these strings came from a database or something.

Next, a string with the value "Wazzup?" is created, a1 is set to a reference to that:

a1 = "Wazzup?";

The "Hello" string is still being referenced by the b1 variable, so it's safe. With all that in mind:

// Prints "Wazzup" because we just set a1 to a reference to that string
Console.WriteLine(a1);

//Prints "Hello" because b1 still has its value it had copied over from a1
Console.WriteLine(b1);

Hope this clarifies things.

share|improve this answer
    
Thanks, that really clears things up. Regarding the other line of code I understood that as well, following your explanation - the reference is always kept and the number is an internal property of that object, this is why they print the same (9,9). I think I got it. Thanks again! – user2687326 Aug 15 '13 at 21:16
    
Curious on the downvote. I'm pretty sure this is how everything works, but there's always someone with some pedantic detail I overlooked. – Mike Christensen Aug 15 '13 at 21:18
    
@user2687326 - I think you're on the right track. The thing to keep in mind is a1 and b1 just hold references to places in memory. Those references are copied by value upon assignment. So changing the value of a1 does not magically change other variables that happen to point to the same thing. – Mike Christensen Aug 15 '13 at 21:22

Just remember that changing value of String always create new instance of String class.

For example

string test1 = "Test"; // point to memory address "1023"
test1 = "New test"; 
// Now new instance was created and variable point to another memory address
share|improve this answer
    
Changing a string variable does not create an instance of String class. A string with the character sequence "New test" will be created before the program starts because that sequence appears as a string literal. The statement test1 = "New test"; will store a reference to that pre-existing sequence into test1. Although test1 will no longer refer to whatever it used to refer to, other string variables may continue to refer to it. – supercat Aug 15 '13 at 21:15
    
@supercat A string with the character sequence "New test" will be created - sorry don't understand. If string is a Class, then what you mean by creating string? I understand it as creating instance of class(String) – Fabio Aug 16 '13 at 11:32
    
One may think of every assembly as containing a special piece of code which runs before anything else in the assembly, which says internal String constant_strings[] = {"Test", "New Test", ...}, which is the only thing anywhere that is allowed to define string constants. Your code above would be rendered as test1 = constant_strings[0]; test1 = constant_strings[1]; Loading the assembly creates constant_strings [note that the object doesn't actually appear in any usable namespace] and all strings therein. Your code simply copies references out of the constant_strings[] object. – supercat Aug 16 '13 at 15:04
    
@supercat thanks, that i understand. But what happened when test1 = "Test" + "New test". From your explaination as I understand then new string(instance) will be created from concat of constant_strings[0]` and constant_strings[1]. And test1 will refer to that new object. Isn't? – Fabio Aug 16 '13 at 16:51
    
In that particular scenario, the compiler will recognize that the concatenation of two string constants is a string constant. If the statement were instead test1 = "Test" + test1; the concatenation operation would generate a new string, but the assignment operator would simply store a reference to that string into test1. Although the statement, taken as a whole, would create a string, it would be the concatenation operator rather than the assignment which was responsible for the string's creation. – supercat Aug 16 '13 at 18:18

Not the answer you're looking for? Browse other questions tagged or ask your own question.