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In one form or another I encounter the following question often (posed, here, in pseudo-code):

String myString = "Hello"
someObject.stringProperty = myString
myString = "World"

Why doesn't someObject.stringProperty now equal "World"?

There seems to be confusion about the role the following statement plays in the explanation of why this is the case:

Strings are Immutable

What do you think?

If you think the statement doesn't apply, I'd ask you this: In a language where strings were mutable, and the assignment operator mutated their actual value (instead of simply changing the reference), would your answer still make sense?


OK, I feel the need to clarify some things:

  1. I'm not confused about how strings, references, or assignments work. I'm perfectly clear on this topic. I'm not asking how strings work. I'm asking "What role does string immutability play in the explaination of string references to developers". We can skip the Ad-Hominem attacks that I must be confused.

  2. I'm looking for a logically rigorous answer for the developer asking the cited question which doesn't contain, or pre-suppose, the immutability of strings.

A categorization of the existing arguments:

  1. String Immutability has nothing to do with it because the references are changing, not the values of the strings This answer pre-supposes the exact fact I'm asking about.

  2. Assignment means assignment of references not assignment of values Again, this pre-supposes the exact fact I'm asking about. There is no reason this must be the case for strings. It simply is the case for strings for performance and other reasons.

share|improve this question
Steve, you seem to be confusing something very integral to the languages that you are working with. The assignment operator ('=') does not change the value of any object (immutable or not); rather, it sets the value of a stored pointer to an object in memory. Regardless of the mutability of an object, using an assignment operator to change the value of a pointer will not, and cannot, change the value of the object. For whatever reason, this seems to be mixed up for you (perhaps you were taught incorrectly), but that is very simply the case. – Itai Ferber Jul 3 '11 at 3:50
Besides, in your hypothetical world, if the assignment operator were to behave that way, the nature of the question were to change, and of course, the answer would be different. But it simply doesn't work that way, and you say so yourself in the question. – Itai Ferber Jul 3 '11 at 3:54
There is no reason it _must_ be the case for strings. It's not only the case for strings, this is how the assignment operator behaves in C# for all types. – Rob Jul 3 '11 at 4:09
@Rob, so? That's not the case in C++ (where you can override the assignment operator). If the C# language designers had decided they didn't want strings to operate that way in the language, they could have done it. – Steve Jul 3 '11 at 4:14
@Steve: Right, but when you override the assignment operator, you can essentially 'break' the expected functionality of the operator. It really has nothing to do with immutability at all. This occurs with mutable objects as well. – Rob Jul 3 '11 at 4:21
up vote 4 down vote accepted

The role played by the statement in the explanation depends on the explanation itself. It could be harmful or useful, depending on the rest of the explanation.

Personally I wouldn't use that statement until fairly late in the explanation (at least these days). The immutability of strings just gets in the way somewhat - as it does with parameter passing explanations. I'd start with an explanation using a mutable class, like this:

House x = new House(Color.Green); // The has a green front door
House y = x;
x = new House(Color.Red);
Console.WriteLine(y.FrontDoorColor); // Still green!

Here I would explain that x and y are like pieces of paper with the addresses of houses on. The assignment in the second line doesn't copy a house - it copies the address of a house. The assignment on the third line doesn't change the color of the front door on the first house - it creates a new house, then rubs out the address on the first piece of paper (x), and writes the new address on. This doesn't change anything about the first house, or the second piece of paper (y).

I'd then produce a second example:

House x = new House(Color.Green); // The has a green front door
House y = x;
x.FrontDoorColor = Color.Red; // Repainting a front door
Console.WriteLine(y.FrontDoorColor); // Red!

This time there's only one house - if I paint the door of a house and you come to see it with the address I'd given you earlier, you'll see the front door is now red.

So far, so good. Now I could go back to the original example and say that it already looks like the first house snippet rather than the second one, so it behaves the same way. I can then say that string immutability means you can't even write code that looks like the second house example but using strings. So string immutability wouldn't have been immediately relevant to the explanation of the existing code, but it would still have appeared in the same answer.

(I'd also have to point out that although references behave like real-world addresses, I'm not claiming that they're the same as "memory addresses" or pointers. They don't have to be. I'm using the term in a strict analogy to the real world, and that's all. It's a downside of the example, but I don't think it does too much harm.)

I might then also talk about value types, and consider what would have happened if House had been a value type - as well as discouraging mutable value types.

To know whether or not my answer would still be relevant in a language with mutable strings, we'd need to know more about how string literals behaved. A language which was the same as C# in every way other than the mutability of strings would be an awful language, as you could write:

// Hypothetical bad language
string x = "dog";
Console.WriteLine("dog"); // Prints cat!

That clearly wouldn't be desirable, so presumably the behaviour of string literals would have to change. You also talk about possible changes to the meaning of the assignment operator, etc... it's hard to make concrete statements about a hypothetical language without knowing exactly how it behaves.

share|improve this answer

It is because the equals sign in computer programming is more of an assignment operator than an "mathematical equality" condition. That the string is immutable has nothing to do with it. This is all about the equals sign being a "assignment" operator rather than a mathematical equivalence constraint.

This means that A = B; and B = C; does not imply that A = C;

instead it means

A has been set to reference the value of B, so B's value is now A's value. B has been set to reference the value of C, so C's value is now B's value, but A's value remains unchanged

If strings were not immutable

String myString = "Hello";
myString.replace(3, "p"); // replace starting at char #3 (the second 'l')
System.out.println(myString); // would print "Help"

But since Strings are immutable;

String myString = "Hello";
myString.replace(3, "p"); // returns a new string "help" which is not assigned to anything
// since the newly returned string was not assigned to anything, it was garbage collected
System.out.println(myString); // would print "Hello"
share|improve this answer
Steve, in your last assignment, you change myString's reference to that of "World" by using an equals sign. By doing so, it would have no impact on what had previously already occurred, which was someObject.stringProperty being set to myString's previous value. The equals sign is an assignment operator, not a mathematical equivalence operator. – Edwin Buck Jul 3 '11 at 3:28
I'm not confused about how strings work. I'm asking about the role the statement: "Strings are Immutable" plays in a valid answer as to why this is the case. – Steve Jul 3 '11 at 3:30
It doesn't play a role in this case, because immutability of strings isn't even required for what you are looking at. Immutability of strings has to do with changing a String's value after it is created, and the above example never does that, it just assigns the same immutable strings to a couple of different variables. I am thinking you are confusing immutability with constant. Immutable means the value cannot be changed while constant means the reference cannot be reassigned. – Edwin Buck Jul 3 '11 at 3:33
You're claiming it doesn't have a role because it is the case. The example above only doesn't do that because it is the case that strings are immutable. – Steve Jul 3 '11 at 3:37
I have added an example which would have two different outcomes depending on immutability. You'll see that assignment doesn't have anything to do with it. – Edwin Buck Jul 3 '11 at 3:42

The explanation is that this example has nothing to do with immutability.

You have two variables originally containing the same value, which for a string means they are pointing to the same object in memory. You then change the value of one of the variables and point it to another object in memory.

It is no different than saying

int a = 4;
int b = a;
a = 5; 


string x = "Foo";
string y = x;
x = "Bar";


Foo foo = new Foo() { Bar = 42 };
Foo otherFoo = foo;
foo = new Foo() { Bar = 17; }

The variables momentarily reference the same thing. They are not otherwise inextricably linked for all time. As soon as you point one to something else, their commonality ends.

share|improve this answer
You didn't address the final paragraph. – Steve Jul 3 '11 at 3:27
@Steve, if the variable held the value as in the actual string, then it's the same thing. Two distinct variables holding the same value. Changing the value of one does not change the value of the other. Whether that value is the actual value of the object (like an integer), or the value of a reference, it's the same. – Anthony Pegram Jul 3 '11 at 3:30
If, internally to the language/system all strings were implemented as linked-lists of chars (instead of immutable null-terminated arrays), and the reference to the head node always remained the same, such that the value of the string could be mutated.... then..... ? – Steve Jul 3 '11 at 3:32
What are you asking? In a hypothetical world where the rules were different, then by definition things could be different. In such a hypothetical world, you could mutate strings and keep multiple variables each holding the same value even after overwriting one of them. You could have integers and strings and Foos linked for all of time. If you change the rules, anything is possible. However, in the world of C#, and in the example presented, the fact remains: immutability has nothing at all to do with the explanation. – Anthony Pegram Jul 3 '11 at 3:40
I'm afraid you are simply incorrect. If you don't understand the idea that you have two independent variables, and a change to one will not impact the other, you're just lost. Immutability has nothing, and I definitely mean nothing, to do with this. – Anthony Pegram Jul 3 '11 at 3:45

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