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It's common knowledge that Java Strings are immutable. Immutable Strings are great addition to java since its inception. Immutability allows fast access and a lot of optimizations, significantly less error-prone compared to C-style strings, and helps enforce the security model.

It's possible to create a mutable one without using hacks, namely

  • java.lang.refect
  • sun.misc.Unsafe
  • Classes in bootstrap classloader
  • JNI (or JNA as it requires JNI)

But is it possible in just plain Java, so that the string can be modified at any time? The question is How?

share|improve this question
java has no resizable arrays. all arrays length is final and immutable once instantiated. (length is not a field, though) – bestsss Jun 21 '12 at 20:33
You mean something different from StringBuilder, which is the recommended way of simulating mutability? – Gene Jun 21 '12 at 20:36
You have asserted that there exists a method to do this. Do you know that for a fact? Is this some kind of puzzle? – Greg Hewgill Jun 21 '12 at 20:36
This might have been a fit for but I feel it's off topic here. Too bad one cannot close while the bounty is active. – Arjan Jun 24 '12 at 11:41
@Arjan, you can always flag the question or edit. Close is rarely a good option – bestsss Jun 25 '12 at 7:09
up vote 72 down vote accepted

Creating a java.lang.String with the Charset constructor, one can inject your own Charset, which brings your own CharsetDecoder. The CharsetDecoder gets a reference to a CharBuffer object in the decodeLoop method. The CharBuffer wraps the char[] of the original String object. Since the CharsetDecoder has a reference to it, you can change the underlying char[] using the CharBuffer, thus you have a mutable String.

public class MutableStringTest {

    public void testMutableString() throws Exception {
        final String s = createModifiableString();

    private final AtomicReference<CharBuffer> cbRef = new AtomicReference<CharBuffer>();
    private String createModifiableString() {
        Charset charset = new Charset("foo", null) {
            public boolean contains(Charset cs) {
                return false;

            public CharsetDecoder newDecoder() {
                CharsetDecoder cd = new CharsetDecoder(this, 1.0f, 1.0f) {
                    protected CoderResult decodeLoop(ByteBuffer in, CharBuffer out) {
                        while(in.remaining()>0) {
                        return CoderResult.UNDERFLOW;
                return cd;

            public CharsetEncoder newEncoder() {
                return null;
        return new String("abc".getBytes(), charset);
    private void modify(String s) {
        CharBuffer charBuffer = cbRef.get();


Running the code prints


I don't know how to correctly implement decodeLoop(), but i don't care right now :)

share|improve this answer
Nice one, confirmed to work with Java 6u31. – Emmanuel Bourg Jun 21 '12 at 22:02
lovely, this is the correct answer! Due to this 'feature' using new String(byte[], offset, len, Charset) totally blows also b/c the byte[] is copied entirely - i.e. using 1MB buffer and creating small string kills any performance. – bestsss Jun 21 '12 at 22:18
The good news it's not security vulnerability if System.getSecurityManager() is present as the returned char[] is copied. – bestsss Jun 21 '12 at 22:20
Nice to know that there is a workaround. – keiki Jun 22 '12 at 8:07
@Spaeth, it is very very mutable, the object itself DOES change its state – bestsss Jun 26 '12 at 8:26

The question received a good answer by @mhaller. I'd say the so-called-puzzle was pretty easy and by just looking at the available c-tors of String one should be able to find out the how part, a


C-tor of interest is below, if you are to break-in/crack/look for security vulnerability always look for non-final arbitrary classes. The case here is java.nio.charset.Charset

public String(byte bytes[], int offset, int length, Charset charset) {
    if (charset == null)
        throw new NullPointerException("charset");
    checkBounds(bytes, offset, length);
    char[] v = StringCoding.decode(charset, bytes, offset, length);
    this.offset = 0;
    this.count = v.length;
    this.value = v;
The c-tor offers supposedly-fast way to convert byte[] to String by passing the Charset not the chartset name to avoid the lookup chartsetName->charset. It also allows passing an arbitrary Charset object to create String. Charset main routing converts the content of java.nio.ByteBuffer to CharBuffer. The CharBuffer may hold a reference to char[] and it's available via array(), also the CharBuffer is fully modifiable.

    static char[] decode(Charset cs, byte[] ba, int off, int len) {
        StringDecoder sd = new StringDecoder(cs,;
        byte[] b = Arrays.copyOf(ba, ba.length);
        return sd.decode(b, off, len);

    char[] decode(byte[] ba, int off, int len) {
        int en = scale(len, cd.maxCharsPerByte());
        char[] ca = new char[en];
        if (len == 0)
            return ca;
        ByteBuffer bb = ByteBuffer.wrap(ba, off, len);
        CharBuffer cb = CharBuffer.wrap(ca);
        try {
            CoderResult cr = cd.decode(bb, cb, true);
            if (!cr.isUnderflow())
            cr = cd.flush(cb);
            if (!cr.isUnderflow())
        } catch (CharacterCodingException x) {
            // Substitution is always enabled,
            // so this shouldn't happen
            throw new Error(x);
        return safeTrim(ca, cb.position(), cs);

In order to prevent altering the char[] the java developers copy the array much like any other String construction (for instance public String(char value[])). However there is an exception - if no SecurityManager is installed, the char[] is not copied.

    //Trim the given char array to the given length
    private static char[] safeTrim(char[] ca, int len, Charset cs) {
        if (len == ca.length 
                && (System.getSecurityManager() == null
                || cs.getClass().getClassLoader0() == null))
            return ca;
            return Arrays.copyOf(ca, len);

So if there is no SecurityManager it's absolutely possible to have a modifiable CharBuffer/char[] that's being referenced by a String.

Everything looks fine by now - except the byte[] is also copied (the bold above). This is where java developers went lazy and massively wrong.

The copy is necessary to prevent the rogue Charset (example above) to be able alter the source byte[]. However, imagine the case of having around 512KB byte[] buffer that contains few String. Attempting to create a single small, few charts - new String(buf, position, position+32,charset) resulting in massive 512KB byte[] copy. If the buffer were 1KB or so, the impact will never be truly noticed. With large buffers, the performance hit is really huge, though. The simple fix would be to copy the relevant part.

...or well the designers of java.nio thought about by introducing read-only Buffers. Simply calling ByteBuffer.asReadOnlyBuffer() would have been enough (if the Charset.getClassLoader()!=null)* Sometimes even the guys working on java.lang can get it totally wrong.

*Class.getClassLoader() returns null for bootstrap classes, i.e. the ones coming with the JVM itself.

share|improve this answer
This text was added by Bestsss by editing the question. Moved since it's really an answer. – Mechanical snail Sep 22 '12 at 8:38

I would say StringBuilder (or StringBuffer for multithreaded use). Yes at the end you get a immutable String. But that's the way to go.

For example the best way to append Strings in a loop is to use StringBuilder. Java itself uses StringBuilder when you use "fu " + variable + " ba".


share|improve this answer
that's not String at any rate, CharSequence at best. – bestsss Jun 21 '12 at 20:36
a String is a CharSequence (thats why String implements Charsequence^^). – keiki Jun 21 '12 at 20:44
No string is a final class. CharSequence is an interface. On simalar grounds both extend (indirectly for StringBiuilder/Buffer) java.lang.Object. The question is about java.lang.String precisely. – bestsss Jun 21 '12 at 20:46
// How to achieve String Mutability

import java.lang.reflect.Field; 

public class MutableString {

    public static void main(String[] args) { 
        String s = "Hello"; 



    public static void mutate(String s) {
        try {

            String t = "Hello world";
            Field val = String.class.getDeclaredField("value"); 
            Field count = String.class.getDeclaredField("count"); 

            count.setInt (s, t.length ());
            val.set (s, val.get(t));
        catch (Exception e) { e.printStackTrace(); }

share|improve this answer
I guess the part about java.lang.reflect in the question has escaped you. The code will fail on JDK 7+ also – bestsss Mar 19 '15 at 20:24

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