Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

The error I get from the compiler is "The left hand side of an assignment must be a variable". My use case is deep copying, but is not really relevant.

In C++, one can assign to *this.

The question is not how to circumvent assignment to this. It's very simple, but rather what rationale is there behind the decision not to make this a variable.

Are the reasons technical or conceptual?

My guess so far - the possibility of rebuilding an Object in a random method is error-prone (conceptual), but technically possible.

EDIT Please restrain from variations of "because java specs say so". I would like to know the reason for the decision

share|improve this question
Just because in C++ it is possible to alter this, it doesn't mean you should to it. Creating a new variable would do the same, without causing any mess. –  Sibbo Nov 2 '11 at 11:49
Why the downvote? Is there anything unconstructive? –  kostja Nov 2 '11 at 11:50
I wonder what the semantics of this = xy; should be. What do you think it should do? –  Hanno Binder Nov 2 '11 at 12:18
@Hanno provided xy is of the right type, the reference of this would be set to xy, making the "original" object gc-eligible –  kostja Nov 2 '11 at 12:24
Altering all other references to this object throughout the application at the same time? - Note that if this actually was a variable it would be private to each object and assigning a value to it would not be visible to the environment. –  Hanno Binder Nov 2 '11 at 12:28

6 Answers 6

up vote 6 down vote accepted

In C++, one can assign to *this

Yes, but you can't do this = something in C++, which I actually believe is a closer match for what you're asking about on the Java side here.

[...] what rationale is there behind the decision not to make this a variable.

I would say clarity / readability.

this was chosen to be a reserved word, probably since it's not passed as an explicit argument to a method. Using it as an ordinary parameter and being able to reassign a new value to it, would mess up readability severely.

In fact, many people argue that you shouldn't change argument-variables at all, for this very reason.

Are the reasons technical or conceptual?

Mostly conceptual I would presume. A few technical quirks would arise though. If you could reassign a value to this, you could completely hide instance variables behind local variables for example.

My guess so far - the possibility of rebuilding an Object in a random method is error-prone (conceptual), but technically possible.

I'm not sure I understand this statement fully, but yes, error prone is probably the primary reason behind the decision to make it a keyword and not a variable.

share|improve this answer
Clearest answer so far. Thank you –  kostja Nov 2 '11 at 11:59
You're welcome. Thanks for a good question! :) –  aioobe Nov 2 '11 at 12:00

Are the reasons technical or conceptual?

IMO, conceptual.

The this keyword is a short hand for "the reference to the object whose method you are currently executing". You can't change what that object is. It simply makes no sense in the Java execution model.

Since it makes no sense for this to change, there is no sense in making it a variable.

(Note that in C++ you are assigning to *this, not this. And in Java there is no * operator and no real equivalent to it.)

If you take the view that you could change the target object for a method in mid flight, then here are some counter questions.

  • What is the use of doing this? What problems would this (hypothetical) linguistic feature help you solve ... that can't be solved in a more easy-to-understand way?

  • How would you deal with mutexes? For instance, what would happen if you assign to this in the middle of a synchronized method ... and does the proposed semantic make sense? (The problem is that you either end up executing in synchronized method on an object that you don't have a lock on ... or you have to unlock the old this and lock the new this with the complications that that entails. And besides, how does this make sense in terms of what mutexes are designed to achieve?)

  • How would you make sense of something like this:

    class Animal {
        foo(Animal other) {
           this = other;
           // At this point we could be executing the overridden
           // Animal version of the foo method ... on a Llama.  
    class Llama {
        foo(Animal other) {

    Sure you can ascribe a semantic to this but:

    • you've broken encapsulation of the subclass in a way that is hard to understand, and
    • you've not actually achieved anything particularly useful.

If you try seriously to answer these questions, I expect you'll come to the conclusion that it would have been a bad idea to implement this. (But if you do have satisfactory answers, I'd encourage you to write them up and post them as your own Answer to your Question!)

But in reality, I doubt that the Java designers even gave this idea more than a moment's consideration. (And rightly so, IMO)

Finally, the *this = ... form of C++ is really just a shorthand for a sequence of assignments of the the attributes of the current object. We can already do that in Java ... with a sequence of normal assignments. There is certainly no need for new syntax to support this. (How often does a class reinitialize itself from the state of another class?)

share|improve this answer
Thanks, Stephen. After the edit, you answer makes great sense to me. The assignment to *this in C++ is different semantically, but I can't even figure out an answer to the second and third of your questions for the C++ variant. For the first one - "deep copying an object in the copy constructor, using a utility that returns a copy", but of course there are many other ways to accomplish that. –  kostja Nov 2 '11 at 12:43
For the second question; The proposed semantics would (I'm assuming) be that this had the behavior of a local variable, and the language already allows you to synchronize on non-final variables, so I see no surprises there. For the third question: Again, assume you take that exact code, replace this with this2, and in the top you do Animal this2 = this;, and there you have the proposed semantics. (Yes, it would be hard to read.) –  aioobe Nov 2 '11 at 12:51

because this is final,

this is keyword, not a variable. and you can't assign something to keyword. now for a min consider if it were a reference variable in design spec..and see the example below

and it holds implicit reference to the object calling method. and it is used for reference purpose only, now consider you assign something to this so won't it break everything ?


consider the following code from String class (Note: below code contains compilation error it is just to demonstrate OP the situation)

   public CharSequence subSequence(int beginIndex, int endIndex) {
      //if you assign something here
       this = "XYZ"  ;
       // you can imagine the zoombie situation here
      return this.substring(beginIndex, endIndex);
share|improve this answer
like in C++, maybe? i'm not aware of how it is done, but it is apparently possible. I can easily imagine situation where it would not break anything. Maybe you could elaborate on the technical side? –  kostja Nov 2 '11 at 11:39
@JigarJoshi, from where did you get that this is final? I've never heard this before. –  aioobe Nov 2 '11 at 11:41
this isn't even a variable. It's a keyword. –  Xavi López Nov 2 '11 at 11:42
Check update <!---> –  Jigar Joshi Nov 2 '11 at 11:44
@Jigar IMO the example does not hold - it is perfectly legal (even if wrong) to reassign a variable in it's getter and get unexpected results. I'm not arguing in favor of reassigning this, just being curious. –  kostja Nov 2 '11 at 12:07

this isn't even a variable. It's a keyword, as defined in the Java Language Specification:

When used as a primary expression, the keyword this denotes a value that is a reference to the object for which the instance method was invoked (§15.12), or to the object being constructed

So, it's not possible as it's not possible to assign a value to while.

share|improve this answer

The this in Java is a part of the language, a key word, not a simple variable. It was made for accessing an object from one of its methods, not another object. Assigning another object to it would cause a mess. If you want to save another objects reference in your object, just create a new variable.

The reason is just conceptual. this was made for accessing an Object itself, for example to return it in a method. Like I said, it would cause a mess if you would assign another reference to it. Tell me a reason why altering this would make sense.

share|improve this answer
The question is rather about the rationale, not about the specs –  kostja Nov 2 '11 at 11:41
I can only provide a use case, not a reason - deep copying an object in the copy constructor, using a utility that returns a copy. Sure you could clone outside the ctor, so no valid reason there. I was just curious –  kostja Nov 2 '11 at 11:58

Assigning to *this in C++ isn't equivalent to assigning this in Java. Assigning this is, and it isn't legal in either language.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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