If I use String.intern() to improve performance as I can use "==" to compare interned string, will I run into garbage collection issues? How does the garbage collection mechanism of interned strings differ from normal strings ?


String.intern() manages an internal, native-implemented pool, which has some special GC-related features. This is old code, but if it were implemented anew, it would use a java.util.WeakHashMap. Weak references are a way to keep a pointer to an object without preventing it from being collected. Just the right thing for a unifying pool such as interned strings.

That interned strings are garbage collected can be demonstrated with the following Java code:

public class InternedStringsAreCollected {

    public static void main(String[] args)
        for (int i = 0; i < 30; i ++) {

    private static void foo()
        char[] tc = new char[10];
        for (int i = 0; i < tc.length; i ++)
            tc[i] = (char)(i * 136757);
        String s = new String(tc).intern();

This code creates 30 times the same string, interning it each time. Also, it uses System.identityHashCode() to show what hash code Object.hashCode() would have returned on that interned string. When run, this code prints out distinct integer values, which means that you do not get the same instance each time.

Anyway, usage of String.intern() is somewhat discouraged. It is a shared static pool, which means that it easily turns into a bottleneck on multi-core systems. Use String.equals() to compare strings, and you will live longer and happier.

  • 1
    could you please develop more on why this turns into a bottleneck on multi-core systems or mention a pointer?
    – Sergio
    Dec 28 '13 at 22:24
  • 2
    If two threads call String.intern() on two strings which happen to have the same contents, then they must both obtain the same reference. This necessarily implies some sort of communication between the two cores. In practice, String.intern() is implemented with a sort-of hashtable protected by a mutex, and each access (read or write) locks the mutex. There can be contention on that mutex, but most of the slowdown will be due to the necessity for the cores to synchronize their L1 caches (such synchronization is implied by the mutex locking, and is the expensive part). Dec 29 '13 at 14:00
  • Why can't the interning table just be a ConcurrentHashMap?
    – Pr0methean
    Mar 29 '17 at 19:54
  • @ThomasPornin, how can you explain the following code snippet then? public static void main(String[] args) { for (int i = 0; i < 30; i ++) { foo(); System.gc(); } } private static void foo() { String str = new String("a").intern(); System.out.println(System.identityHashCode(str)); } Jul 16 '18 at 15:12
  • @EugeneMaysyuk two steps: 1.new String("a") create a new instance each time. 2. .intern() do a search in the string pool and found an instance with identical value(which is put into the string pool when you call .intern() first time), and return the reference to the old instance.
    – djzhu
    Aug 1 '19 at 3:35

In fact, this not a garbage collection optimisation, but rather a string pool optimization. When you call String.intern(), you replace reference to your initial String with its base reference (the reference of the first time this string was encountered, or this reference if it is not yet known).

However, it will become a garbage collector issue once your string is of no more use in application, since the interned string pool is a static member of the String class and will never be garbage collected.

As a rule of thumb, i consider preferrable to never use this intern method and let the compiler use it only for constants Strings, those declared like this :

String myString = "a constant that will be interned";

This is better, in the sense it won't let you do the false assumption == could work when it won't.

Besides, the fact is String.equals underlyingly calls == as an optimisation, making it sure interned strings optimization are used under the hood. This is one more evidence == should never be used on Strings.

  • 5
    @Ravi: the JavaDoc of intern (java.sun.com/javase/6/docs/api) says this: "All literal strings [...] are interned." Mar 12 '10 at 9:40
  • 31
    '... the interned string pool is a static member of the String class' No it isn't. String.intern() is a native method. All this is very out of date. Intern'd strings have been GC-able for quite some years now.
    – user207421
    Mar 12 '10 at 11:31
  • 3
    Wow, thanks for the rectification. When I began programming in 1999, Java 1.2 was quite new, and documentation relative to intern was really sparse. Ten years latter, a mental error is fixed !
    – Riduidel
    Mar 12 '10 at 14:03
  • 2
    The answer is incorrect since the interned strings are garbage collected
    – Alexander
    Aug 12 '16 at 12:46
  • 1
    @EugeneMaysyuk that’s implementation specific, but in case of the commonly used JVMs, the code containing a literal gets permanently linked with the string instance after the first execution, so it will prevent the string from being garbage collected at least until the class gets unloaded, which may only happen when the entire class loader gets unloaded, so in case of classes loaded by the bootstrap loader or application class loader, literals will never get collected.
    – Holger
    Jul 19 '19 at 12:27

This article provides the full answer.

In java 6 the string pool resides in the PermGen, since java 7 the string pool resides in the heap memory.

Manually interned strings will be garbage-collected.
String literals will be only garbage collected if the class that defines them is unloaded.

The string pool is a HashMap with fixed size which was small in java 6 and early versions of java 7, but increased to 60013 since java 7u40.
It can be changed with -XX:StringTableSize=<new size> and viewed with -XX:+PrintFlagsFinal java options.


Please read: http://satukubik.com/2009/01/06/java-tips-memory-optimization-for-string/

The conclusion I can get from your information is: You interned too many String. If you really need to intern so many String for performance optimization, increase the perm gen memory, but if I were you, I will check first if I really need so many interned String.


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