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I make regular use of this idiom in C++:

/*return type*/ foo(/*parameters*/){
    static const char* bar = "Bar";
    /*some code here*/

Internally this gets added to a table of string literals. Does this Java code do a similar thing:

/*return type*/ foo(/*parameters*/){
    final String bar = "Bar";
    /*some code here*/

or am I unwittingly introducing inefficiencies here?

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function static variable might not be as efficient as you might think, it is possible that the generated code is checking whether it is initialized every time you call the function. Although in this case it will probably be optimized. –  yngum Oct 23 '13 at 15:33

4 Answers 4

up vote 5 down vote accepted

Strings are immutable in Java. This means you don't have to give hints to have the JVM know it won't change and optimize it.

String literals are interned to avoid redundancies, which means they already are "added to a table of string literals". Using final here isn't necessary.

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Not quite. final prevents the String reference from being modified to point to a different string, so if you want a truly constant string, it should be final. –  Platinum Azure Oct 23 '13 at 17:36

I think your solution is correct and they are as near to equivalent as Java can express.

As other answers have mentioned strings are immutable and the final does not add any performance enhancement, however I feel the final is semantically useful here. Much like 'const' in c++; 'final' ensures that the value cannot be changed and attempting to do so will result in a compiler error - it seems to me that this is a desirable behavior in your case.

Also (much as in the case with c++ const) it might lead to some possible optimizations that otherwise would not be considered.

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The final keyword in a Java method doesn't do what you think it does.

In this particular case, final makes the variable unmodifiable. That's it. The content itself does get added to a global table of String constants, but the pointer to it (pardon the terminology) is technically set every single time.

The final keyword is mainly useful from within a method to make the variable available to any anonymous classes you create after it. It's Java's piss-poor half-assed support for what they like to consider "closure". And it also happens to be the only way you can access an outer variable from within an inner anonymous class.

final String bar = "Bar";
final Set<String> allTheBars = new HashSet<>() {{
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It is better for you (and the JIT) if a closure cannot modify your state. Hence, I wouldn't call it "piss-poor". –  Ingo Oct 23 '13 at 15:17
@Ingo fair enough, perhaps "inconsistent" then. You can modify the outer-most class's variables with no problem (using ClassName.this.varName) and yet you can't do anything to the nearby ones. –  Chris Oct 23 '13 at 15:21
-1 final is a important part of the java language useful in many context for many different things (sealing classes, ensuring constants remain constant, allowing closure over local variables etc) your emotive criticism of the construct does little to help or inform the asker. –  Elemental Oct 23 '13 at 15:28
@Chris Even worse, you can modify state through a final reference, like in final int[] foo = new int[] {42}; new Runnable() { void run() { foo[0] = 43; }} –  Ingo Oct 23 '13 at 15:39
@Elemental did I say anything about it being unimportant? The first paragraph explains the usage, the second explains in the original context why the final keyword isn't terribly useful for the OP (again, IN THE ORIGINAL CONTEXT). I called it piss-poor because it's piss poor IN THIS CONTEXT. I wasn't being emotional, I was simply informing the OP that other languages have far better facilities than Java offers. In. This. Context. –  Chris Oct 23 '13 at 15:46

You can specify for a string to be added to the literal pool (referred to as interning in Java) by invoking String.intern() as follows:

final String bar = myString.intern();

It is basically the same concept as the literal pool, using the same object for the given string. Note that string literals are interned automatically. It also allows you to compare interned strings by reference, so it might be more efficient. However, you must always compare the strings returned via intern(). Thus


could be replaced with

a.intern() == b.intern();

Note that you don't actually want to the above exactly as depicted. Ideally you can keep the interned strings around and reuse them. However, there are some pitfalls to interned strings. They are not garbage collected, and the the method itself is a bit expensive.

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Using intern() on a string literal is just useless! –  Gyro Gearless Oct 23 '13 at 15:22
@GyroGearless Yes, I know. I need a better example. –  Zong Zheng Li Oct 23 '13 at 15:23
Please explain when downvoting, thanks. –  Zong Zheng Li Oct 23 '13 at 15:59

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