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In a simulation for a the OCJP certification I found this question:

1. StringBuffer s1 = new StringBuffer("abc");
2. StringBuffer s2 = s1;
3. StringBuffer s3 = new StringBuffer("abc");

How many objects are created ?

They state that the correct answer is 4 because they state:

s1 is one object, s2 is another object, 
s3 is another object and "abc" is another String Object .

But for me it's wrong and it should be 3, because s1 and s2 are the same object. What do you think?

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marked as duplicate by EJP, Ruchira Gayan Ranaweera, Roman C, Reimeus, Prince John Wesley Aug 18 '13 at 16:43

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.

6  
If that's really what it said, then you should stop using that website. –  Oliver Charlesworth Aug 18 '13 at 10:00
    
Yes, that should be 3. At least for my knowledge –  LuckyLuke Aug 18 '13 at 10:00
1  
A copy constructor is not called on the assignement like in C++. In Java I think you should do something like MyClass s2 = new MyClass(s1); –  user1883212 Aug 18 '13 at 10:18
3  
Please post the link to the offending website so we can avoid it. –  EJP Aug 18 '13 at 10:38
6  
To be pedantic, it's impossible to know. The StringBuffer constructor could create as many objects as it wants under the hood. –  Pace Aug 18 '13 at 13:17

5 Answers 5

You are right that the answer is not 4 objects.

However, the question "how many objects are created" is ambiguous. The issue is that one of the three objects is not created when you execute the code. Specifically, the String object that corresponds to the "abc" literal is actually created when the code is loaded. When that code is executed, two StringBuffer objects are created, and the pre-existing String object is used.

And in fact it is more complicated than that, since at class load time it is possible that another temporary String object is created and then discarded after it has been interned;

  • If an "abc" literal has already been loaded in a different class, then that one will be used.

  • It is not specified if the string pool implementation makes a fresh copy of the String if it needs to put it into the pool.

Unless the question is more precisely stated, there is no single correct answer. The best you can say is:

  • Two StringBuffer objects are created when the code is run.
  • One or two String objects are created when the code is loaded.

Then there is the issue of whether you should count the private char[] objects that form part of the StringBuffer and String objects. That could inflate the object count to as much as 8.

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Agreed. The question is ill-formed. Also pointless. If the OCJP really contains any questions about how many objects are created, they should be removed. I've never asked or been asked such a question in an interview, and I would form a pretty poor opinion of any interviewer who did so. Given the existence of garbage collection, and given the question's reliance on aspects of the JLS that most programmers won't have read, it is basically a complete irrelevance. +1 –  EJP Aug 19 '13 at 2:04
    
@EJP SCJP contained such questions, but never this kind of corner case (classes that may instantiate other things internally, String constant pool, etc.). –  jwenting Aug 19 '13 at 5:14

Yes definitely 3 Object.both s1 and s2 referring same location. so s1, s2 and "abc" are the objects here. May be it is better not to follow that reference.

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You were right the first time. Don't be bashful about it. –  EJP Aug 18 '13 at 10:37
    
he is in fact wrong, at least in potentio. An instance of Class<StringBuffer> is also created, and an instance of Class<String>. Internally StringBuffer no doubt creates instances of stuff as well, and instances of their Class<Xxx>. –  jwenting Aug 18 '13 at 14:22
    
@jwenting Both those class instances are created when the class containing this code is loaded, not when the code in the OP is executed. –  EJP Aug 19 '13 at 1:50
    
@EJP true, but he never mentioned the scope of the question :) –  jwenting Aug 19 '13 at 5:12

CORRECTION

There should be 3 objects:

1. StringBuffer s1 = new StringBuffer("abc");

Two objects will be created in memory s1 & "abc" . This is because, strings are interned and literals are added to a memory pool.

2. StringBuffer s2 = s1;

No object will be created here because s2 will point to "abc" created as part of s1

3. StringBuffer s3 = new StringBuffer("abc");

Only one object will be create for s3.

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3  
Umm, won't the string interning mean that there'll only be one "abc" in memory? –  Oliver Charlesworth Aug 18 '13 at 10:06
3  
But it's a string literal, not a new String. –  Oliver Charlesworth Aug 18 '13 at 10:07
2  
He's not 'creating a string object with the new operator'. He's creating a StringBuffer with an existing String as argument. The correct answer is 3. -1 –  EJP Aug 18 '13 at 10:36
    
Apologies guys for spreading the wrong information. I have tried to correct my answer. Feel free to provide more comments. –  Juned Ahsan Aug 18 '13 at 10:47
    
@OliCharlesworth is right, both "abc" are literal Strings at compile time, they will be the same object at run time. –  morgano Aug 18 '13 at 10:49

How about:

1. StringBuffer s1 = new StringBuffer("abc");

1 builder object + 1 char[] object + (1 String literal, if created)

2. StringBuffer s2 = s1;

No new objects.

3. StringBuffer s3 = new StringBuffer("abc");

1 builder object + 1 char[] object

A StringBuilder encapsulates the backing char[] inside, which is an object.

As @StephenC says the question is ambiguous.

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3 or 4, depending on implementation. Some compilers would create only one String object for the constant "abc" and reference it as many times as necessary, and other compilers would create one object per constant. AFAIK, this has not been mandated by all the languages specification versions, and it could change again in the future.

Or more, depending on StringBuffer's implementation (which could actively create a char[] and copy the initialization String, as opposed to a lazy implementation that postpones this until the StringBuffer's contents are really changed). Again, this should not be mandated by the language. And, BTW, do arrays count as Objects for the purpose of the question? And what if a StringBuffer implementation stored information in a JNI structure? What that count as objects? I'm just trying to re-inforce my point about non-language-mandated implementation details.

A test should not ask this kind of questions unless it is about a specific implementation and/or JLS version.

What is absolutely clear is that the reason they give for their answer of 4 is completely incorrect. The assignment to s2 does not cause any new object to be created.

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Not correct. Java compilers are required by the JLS and the JVM Specification to pool string literals. –  EJP Aug 19 '13 at 1:47
    
@EJP The JLS has changed in time, even in this particular respect. When I say "The Language" I don't mean the last version of the JLS, nor the next. I'll try to be clearer in my answer, though. Thanks a lot. –  Mario Rossi Aug 19 '13 at 2:02
    
I'm not aware of any such change. Please provide a citation. As far as I know the basic answer to questions of this form but involving only Strings and literals hasn't changed at all since 1997. –  EJP Aug 19 '13 at 2:05
    
I know this pretty well, because long ago (very early days of Java), I developed a Java course. The first edition of this course covered Java 1.0.1. To demonstrate how Strings were created, I used a small sample program. Well, I have had to change my sample program (and the surrounding explanation) 1 or 2 times, usually while giving the course. Of course I remember it! :-) –  Mario Rossi Aug 19 '13 at 2:49

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