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Consider this code:

String first = "abc"; 
String second = new String ("abc");

When using the new keyword, Java will create the abc String again right? Will this be stored on the regular heap or the String pool? How many Strings will end in the String pool?

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@dmindreader: I'm not sure what you want to use this for... but it reminds me of something I read before and posted as an answer to another SO question. Please read my answer to the other question as it emphasizes that relying on these implementation details can be fragile:… – Tom Dec 12 '09 at 22:39
Yes, the heap and 1. – Stephen C Dec 14 '09 at 10:27
up vote 83 down vote accepted

If you use the new keyword, a new String object will be created. Note that objects are always on the heap - the string pool is not a separate memory area that is separate from the heap.

The string pool is like a cache. If you do this:

String s = "abc";
String p = "abc";

then the Java compiler is smart enough to make just one String object, and s and p will both be referring to that same String object. If you do this:

String s = new String("abc");

then there will be one String object in the pool, the one that represents the literal "abc", and there will be a separate String object, not in the pool, that contains a copy of the content of the pooled object. Since String is immutable in Java, you're not gaining anything by doing this; calling new String("literal") never makes sense in Java and is unnecessarily inefficient.

Note that you can call intern() on a String object. This will put the String object in the pool if it is not already there, and return the reference to the pooled string. (If it was already in the pool, it just returns a reference to the object that was already there). See the API documentation for that method for more info.

See also String interning (Wikipedia).

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Presumably this is based on the Fly-weight design pattern. – Wim Hollebrandse Dec 10 '09 at 15:58
@Wim: Yes, this is essentially the flyweight pattern. – Jesper Dec 10 '09 at 15:59
the intern() pool is always on heap; I suppose that the question is asking about the class constants pool – dfa Dec 10 '09 at 16:08
@Jesper: I want something to be clear. new String("literal") doesn't make sense as you say, but I hope you are not suggesting that calling "new String(someString)" doesn't make sense and is unnecessarily inefficient. Imagine you have String s = "someExtremelyExtremelyLongStringLiteral";. Then you will want to use String sub = new String(s.substring(0,1)); instead of String sub = s.substring(0,1); as the latter version can waste memory. The reason is that when the reference s goes away, there will still be a reference sub pointing to the huge underlying char[] so it can't be GC'ed – Tom Dec 12 '09 at 22:31
@Tom That implementation detail was changed in Java 7 update 6. Now, when you invoke "someExtremelyExtremelyLongStringLiteral".substring(0, 1), a new, 1-character char[] is allocated, and the substring is completely independent of the original literal. There is no longer any char[] sharing between String, StringBuilder, etc. So, moving forward, there really is never a good reason to use new String(String) – erickson Aug 9 '13 at 18:05

In bytecode, the first assignment is:

   0:   ldc     #2; //String abc
   2:   astore_1

whereas the second is:

   3:   new     #3; //class java/lang/String
   6:   dup
   7:   ldc     #2; //String abc
   9:   invokespecial   #4; //Method java/lang/String."":(Ljava/lang/String;)V

So the first is in the pool (at position #2) whereas the second will be stored in the heap.


Since the CONSTANT_String_info store the index as U2 (16 bits, unsigned) the pool can contain at max 2**16 = 65535 references. In the case you care here more limits of the JVM.

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Looking at the bytecode is a good (and overlooked) way to find out what exactly a program is doing. – Jesper Dec 10 '09 at 16:07
How do you look at the bytecode? What did you use to access it? – andandandand Dec 10 '09 at 16:42
javap, an utility distributed in the jdk of sun – dfa Dec 10 '09 at 16:54

Each time your code create a string literal

for example:

String str="Hello"; (string literal) 

the JVM checks the string literal pool first. If the string already exists in the pool, a reference to the pooled instance returns. If the string does not exist in the pool, a new String object instantiates, then is placed in the pool. Java can make this optimization since strings are immutable and can be shared without fear of data corruption

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Isn't this check performed by the java compiler, rather than the JVM? – rds Nov 1 '13 at 10:11
This answer to the same question states that's correct. – MC Emperor Apr 8 at 14:49

The only time you should use new String(foo) is when you want to break ==, which is an odd case, or when foo is a substring of a much larger string that has a limited lifetime, such as

String mystring;
   String source = getSomeHeinouslyLargeString();
   mystring = new String(source.substring(1,3));
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String strObject = new String("Java");


String strLiteral = "Java";

Both expression gives you String object, but there is subtle difference between them. When you create String object using new() operator, it always create a new object in heap memory. On the other hand, if you create object using String literal syntax e.g. "Java", it may return an existing object from String pool (a cache of String object in Perm gen space, which is now moved to heap space in recent Java release), if it's already exists.

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you have taken avoe text from (Difference between String literal and New String object in Java)[… ] its good to mention reference url from which you have taken details – Dev Dec 1 '15 at 15:10

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