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What is meant by String Pool? And what is the difference between the following declarations:

String s = "hello";
String s = new String("hello");

Is there any difference between the storing of these two strings by the JVM?

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up vote 85 down vote accepted

The string pool is the JVM's particular implementation of the concept of string interning:

In computer science, string interning is a method of storing only one copy of each distinct string value, which must be immutable. Interning strings makes some string processing tasks more time- or space-efficient at the cost of requiring more time when the string is created or interned. The distinct values are stored in a string intern pool.

Basically, a string intern pool allows a runtime to save memory by preserving immutable strings in a pool so that areas of the application can reuse instances of common strings instead of creating multiple instances of it.

As an interesting side note, string interning is an example of the flyweight design pattern:

Flyweight is a software design pattern. A flyweight is an object that minimizes memory use by sharing as much data as possible with other similar objects; it is a way to use objects in large numbers when a simple repeated representation would use an unacceptable amount of memory.

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Great answer, but it doesn't directly answer the question. From your description, it sounds like the code example would have both reference the same memory, correct? Perhaps you can add a simple summary statement to your answer. – VenomFangs Sep 15 '14 at 15:17

The string pool allows string constants to be reused, which is possible because strings in Java are immutable. If you repeat the same string constant all over the place in your Java code, you can actually have only one copy of that string in your system, which is one of the advantages of this mechanism.

When you use String s = "string constant"; you get the copy that is in the string pool. However, when you do String s = new String("string constant"); you force a copy to be allocated.

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String pool is exactly that: a pool of strings. If you use "hello" again, it will check the string pool and grab it there if it exists. Otherwise, it will create a new one. the String constructor always creates a new one. You can check this for yourself by creating lots of "blah" strings in a for loop and using the == operator to check reference equality.

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As mentioned by Andrew, the concept is called "interning" by the JLS.

Relevant passage from JLS 7 3.10.5:

Moreover, a string literal always refers to the same instance of class String. This is because string literals - or, more generally, strings that are the values of constant expressions (§15.28) - are "interned" so as to share unique instances, using the method String.intern.

Example 3.10.5-1. String Literals

The program consisting of the compilation unit (§7.3):

package testPackage;
class Test {
    public static void main(String[] args) {
        String hello = "Hello", lo = "lo";
        System.out.print((hello == "Hello") + " ");
        System.out.print((Other.hello == hello) + " ");
        System.out.print((other.Other.hello == hello) + " ");
        System.out.print((hello == ("Hel"+"lo")) + " ");
        System.out.print((hello == ("Hel"+lo)) + " ");
        System.out.println(hello == ("Hel"+lo).intern());
class Other { static String hello = "Hello"; }

and the compilation unit:

package other;
public class Other { public static String hello = "Hello"; }

produces the output:

true true true true false true


JVMS 7 5.1 says:

A string literal is a reference to an instance of class String, and is derived from a CONSTANT_String_info structure (§4.4.3) in the binary representation of a class or interface. The CONSTANT_String_info structure gives the sequence of Unicode code points constituting the string literal.

The Java programming language requires that identical string literals (that is, literals that contain the same sequence of code points) must refer to the same instance of class String (JLS §3.10.5). In addition, if the method String.intern is called on any string, the result is a reference to the same class instance that would be returned if that string appeared as a literal. Thus, the following expression must have the value true:

("a" + "b" + "c").intern() == "abc"

To derive a string literal, the Java Virtual Machine examines the sequence of code points given by the CONSTANT_String_info structure.

  • If the method String.intern has previously been called on an instance of class String containing a sequence of Unicode code points identical to that given by the CONSTANT_String_info structure, then the result of string literal derivation is a reference to that same instance of class String.

  • Otherwise, a new instance of class String is created containing the sequence of Unicode code points given by the CONSTANT_String_info structure; a reference to that class instance is the result of string literal derivation. Finally, the intern method of the new String instance is invoked.


It is also instructive to look at the bytecode implementation on OpenJDK 7.

If we decompile:

public class StringPool {
    public static void main(String[] args) {
        String a = "abc";
        String b = "abc";
        String c = new String("abc");
        System.out.println(a == c);

we have on the constant pool:

#2 = String             #32   // abc
#32 = Utf8               abc

and main:

 0: ldc           #2          // String abc
 2: astore_1
 3: ldc           #2          // String abc
 5: astore_2
 6: new           #3          // class java/lang/String
 9: dup
10: ldc           #2          // String abc
12: invokespecial #4          // Method java/lang/String."<init>":(Ljava/lang/String;)V
15: astore_3
16: getstatic     #5          // Field java/lang/System.out:Ljava/io/PrintStream;
19: aload_1
20: invokevirtual #6          // Method java/io/PrintStream.println:(Ljava/lang/String;)V
23: getstatic     #5          // Field java/lang/System.out:Ljava/io/PrintStream;
26: aload_2
27: invokevirtual #6          // Method java/io/PrintStream.println:(Ljava/lang/String;)V
30: getstatic     #5          // Field java/lang/System.out:Ljava/io/PrintStream;
33: aload_1
34: aload_3
35: if_acmpne     42
38: iconst_1
39: goto          43
42: iconst_0
43: invokevirtual #7          // Method java/io/PrintStream.println:(Z)V

Note how:

  • 0 and 3: the same ldc #2 constant is loaded (the literals)
  • 12: a new string instance is created (with #2 as argument)
  • 35: a and c are compared as regular objects with if_acmpne

The representation of constant strings is quite magic on the bytecode:

and the JVMS quote above seems to say that whenever the Utf8 pointed to is the same, then identical instances are loaded by ldc.

I have done similar tests for fields, and:

  • static final String s = "abc" points to the constant table through the ConstantValue Attribute
  • non-final fields don't have that attribute, but can still be initialized with ldc

Conclusion: there is direct bytecode support for the string pool, and the memory representation is efficient.

Bonus: compare that to the Integer pool, which does not have direct bytecode support (i.e. no CONSTANT_String_info analogue).

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The JVM performs some trickery while instantiating string literals to increase performance and decrease memory overhead. To cut down the number of String objects created in the JVM, the String class keeps a pool of strings. Each time your code create a 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.

   public class Program
       public static void main(String[] args)
          String str1 = "Hello";  
          String str2 = "Hello"; 
          System.out.print(str1 == str2);

Output : true

Unfortunately, when you use

String a=new String("Hello");

String object is created out of the String literal pool, even if an equal string already exists in the pool.

public class Program
    public static void main(String[] args)
       String str1 = "Hello";  
       String str2 = new String("Hello");
       System.out.print(str1 == str2 );


Output : false

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Your code never 'creates a string literal'. The compiler does that. All the literals in the source text are pooled by the compiler and loaded uniquely into the runtime string pool by the class loader. – EJP Aug 27 '15 at 6:27

Its puzzling that no one directly answered the question but most answers have a lot of upvotes.

In a nutshell, the first creates an entry in the String Pool, which can be re-used (more efficient due to above links on immutability), and the second creates a new String object (more costly).

Both objects live in the Heap. The references to both will be in the thread's stack. gives a clear insight into how this is achieved

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