Short version: If you call string.substring(n,m).intern(), does the string table retain the substring or the original string?

...But I'm not sure that's the right question to ask, so here's the long version:

I'm working with legacy Java code (PCGen) that parses files by slurping each in as one big string and then using String.split, .trim, .substring, and StringTokenizer to decompose them into tokens. This is very efficient for parsing, because none of those methods copy the original string, but all point at parts of a shared char[].

After parsing is over, I want to reclaim some memory. Only a few small substrings of the original big string are needed, but the strong reference keeps the big string from being collected. And later I'm suffering OOM, I believe due in part to that huge heap impact of lots of parsed files.

I know I can trim the big string down via new String(String)(copy-on-write). And I know I can reduce string duplication via String.intern (which is important because there's a lot of redundancy in the parsed files). Do I need to use both to reclaim the greatest quantity of heap, or does .intern() do both? Reading the OpenJDK7 hotspot source code (hotspot/src/share/vm/classfile/symbolTable.cpp) it looks like the string table keeps the whole string and does not trim it for offset/length at all. So I think I need to make a new String and then intern that result. Right?

All that said, switching to a streaming parser would be a big win in terms of memory, but that's too big a change for the short term.


You can use new String(String) and the intern() method and this will take a copy as required for up to Java 7 update 4. From Java 7 update 5 substring will take a deeper copy, but you may still want to use intern(). Note: Java 7 uses the heap, not the perm gen to store String literals.

public static void main(String[] args) {
    char[] chars = new char[128];
    Arrays.fill(chars, 'A');
    String a128 = new String(chars);
    printValueFor("a128", a128);
    String a16 = a128.substring(0, 16);
    printValueFor("a16", a16);

public static void printValueFor(String desc, String s) {
    try {
        Field value = String.class.getDeclaredField("value");
        char[] valueArr = (char[]) value.get(s);
        System.out.println(desc + ": " + Integer.toHexString(System.identityHashCode(valueArr)) + ", len=" + valueArr.length);
    } catch (Exception e) {
        throw new AssertionError(e);

on Java 7 update 4 prints

a128: 513e86ec, len=128
a16: 53281264, len=16

I would expect that Java 6 does not do this.

  • 1
    @JonSkeet - the javadoc is a simplified version of what's actually happening. In reality (at least in the open source jdk7) it always returns a string from the string table and never just this Jan 25 '13 at 6:54
  • 2
    @ChrisDolan: That sounds like it's not just simplified, but verifiably incorrect.
    – Jon Skeet
    Jan 25 '13 at 7:01
  • 1
    @ChrisDolan: Well I can't test it as I don't have an older version of the JDK to hand - but if you've got a version prior to jdk1.7u5 you should be able to validate it pretty simply.
    – Jon Skeet
    Jan 25 '13 at 7:03
  • 1
    @JonSkeet I suspect it is very version specific if you have Java 7. What makes it extra confusing is that String is heavily optimised by the JVM. e.g. in Java 6 you can enable -XX:+UseCompressedStrings which is the default on some versions. This uses a byte[] when it can. i.e. it doesn't have to follow the code provided. Jan 25 '13 at 7:14
  • 2
    @ChrisDolan: Fundamentally I'd really like to see code running on different versions - but I'm not going to start creating VMs just to install old versions of Java ;)
    – Jon Skeet
    Jan 26 '13 at 8:16

We can test it. String holds its character array in a field

   private final char value[];

let's see what happens after substring(); intern();

    Field f = String.class.getDeclaredField("value");
    String s1 = "12345";
    String s2 = s1.substring(1, 2);
    String s3 = s2.intern();
    System.out.println(f.get(s2) == f.get(s1));
    System.out.println(f.get(s3) == f.get(s2));



that is, all 3 strings share the same character array

  • Very cool, I should have thought of a test like that. What JVM is that? Other answers have suggested that this behavior might have changed in 1.7u5 Jan 25 '13 at 7:01
  • 1
    Yes, I know about 1.7u5, mine is HotSpot 1.7.0_03 Jan 25 '13 at 7:03

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