Does anyone know if the standard Java library (any version) provides a means of calculating the length of the binary encoding of a string (specifically UTF-8 in this case) without actually generating the encoded output? In other words, I'm looking for an efficient equivalent of this:

"some really long string".getBytes("UTF-8").length

I need to calculate a length prefix for potentially long serialized messages.

  • 1
    If your problem is raw speed, and not memory, are you sure that an ad-hoc function would be faster than getBytes + length? The current JREs have quite fast conversion routines implemented in native code.
    – gioele
    Dec 19, 2011 at 14:04
  • 1
    I'm concerned about memory pressure too, but the main concern is that large allocations could cause more garbage collection overhead. Rather than introducing a potential performance issue (that needs to be verified by profiling, of course), I thought I'd ask if there was a more specific API available. BTW, Oracle's JRE does not use native code for this: they allocate a worst-case byte array (maxBytesPerChar) and use an array-based implementation of CharsetEncoder (see sun.nio.cs.UTF_8). Dec 19, 2011 at 23:29

4 Answers 4


Here's an implementation based on the UTF-8 specification:

public class Utf8LenCounter {
  public static int length(CharSequence sequence) {
    int count = 0;
    for (int i = 0, len = sequence.length(); i < len; i++) {
      char ch = sequence.charAt(i);
      if (ch <= 0x7F) {
      } else if (ch <= 0x7FF) {
        count += 2;
      } else if (Character.isHighSurrogate(ch)) {
        count += 4;
      } else {
        count += 3;
    return count;

This implementation is not tolerant of malformed strings.

Here's a JUnit 4 test for verification:

public class LenCounterTest {
  @Test public void testUtf8Len() {
    Charset utf8 = Charset.forName("UTF-8");
    AllCodepointsIterator iterator = new AllCodepointsIterator();
    while (iterator.hasNext()) {
      String test = new String(Character.toChars(iterator.next()));

  private static class AllCodepointsIterator {
    private static final int MAX = 0x10FFFF; //see http://unicode.org/glossary/
    private static final int SURROGATE_FIRST = 0xD800;
    private static final int SURROGATE_LAST = 0xDFFF;
    private int codepoint = 0;
    public boolean hasNext() { return codepoint < MAX; }
    public int next() {
      int ret = codepoint;
      codepoint = next(codepoint);
      return ret;
    private int next(int codepoint) {
      while (codepoint++ < MAX) {
        if (codepoint == SURROGATE_FIRST) { codepoint = SURROGATE_LAST + 1; }
        if (!Character.isDefined(codepoint)) { continue; }
        return codepoint;
      return MAX;

Please excuse the compact formatting.

  • 3
    That should work, but it's needlessly complicated: you don't need to support 5- and 6-byte characters (since Unicode doesn't allow, and UTF-16 can't represent, codepoints that high), and if Character.isHighSurrogate(ch), then you don't actually need to determine the codepoint: the set of codepoints that require surrogate pairs in UTF-16 is the same as the set of codepoints that require four bytes in UTF-8. Therefore, if it's O.K. not to support invalid surrogate pairs, then you can just write
    – ruakh
    Dec 15, 2011 at 3:12
  • 6
    if(ch <= '\x7F') ++count; else if(ch <= '\u07FF') count += 2; else if(Character.isHighSurrogate(ch)) { count += 4; ++i; } else count += 3;. But +1 for including a super-comprehensive unit-test. :-)
    – ruakh
    Dec 15, 2011 at 3:13
  • @ruakh - all good points; I've updated the answer with your implementation.
    – McDowell
    Dec 15, 2011 at 9:24
  • @McDowell, I think there's an error in your unit test code. The current code excludes MAX, but MAX is a valid codepoint, isn't it?
    – 0xbe5077ed
    Apr 6, 2016 at 4:38
  • 1
    The test case could be even more compact when using a simple for loop instead of that AllCodepointsIterator. Further, there are already convenient constants in java.lang.Character: for(int codepoint=Character.MIN_CODE_POINT; codepoint<=Character.MAX_CODE_POINT; codepoint++) { if(codepoint == Character.MIN_SURROGATE) codepoint=Character.MAX_SURROGATE+1; if(!Character.isDefined(codepoint)) continue; String test = new String(Character.toChars(codepoint)); Assert.assertEquals(test.getBytes(utf8).length, Utf8LenCounter.length(test)); }
    – Holger
    Apr 24, 2017 at 13:58

Using Guava's Utf8:

Utf8.encodedLength("some really long string")
  • 1
    Added in Guava 16.0, released in early 2014. Apr 4, 2017 at 1:44

The best method I could come up with is to use CharsetEncoder to write repeatedly into the same temporary buffer:

public int getEncodedLength(CharBuffer src, CharsetEncoder encoder)
    throws CharacterCodingException
    // CharsetEncoder.flush fails if encode is not called with >0 chars
    if (!src.hasRemaining())
        return 0;

    // encode into a byte buffer that is repeatedly overwritten
    final ByteBuffer outputBuffer = ByteBuffer.allocate(1024);

    // encoding loop
    int bytes = 0;
    CoderResult status;
        status = encoder.encode(src, outputBuffer, true);
        if (status.isError())
        bytes += outputBuffer.position();

    while (status.isOverflow());

    // flush any remaining buffered state
    status = encoder.flush(outputBuffer);
    if (status.isError() || status.isOverflow())
    bytes += outputBuffer.position();

    return bytes;

public int getUtf8Length(String str) throws CharacterCodingException
    return getEncodedLength(CharBuffer.wrap(str),

You can loop thru the String:

 * Deprecated: doesn't support surrogate characters.
public int countUTF8Length(String str)
    int count = 0;
    for (int i = 0; i < str.length(); ++i)
        char c = str.charAt(i);
        if (c < 0x80)
        } else if (c < 0x800)
            count +=2;
        } else
            throw new UnsupportedOperationException("not implemented yet");
    return count;
  • 3
    Close, but not quite: you're not handling surrogate characters properly. In particular, c < 0x10000 (which is what you meant when you wrote c < 0x1000) is guaranteed to be true, because code-points outside the BMP are expressed as two Java characters (using surrogate code-points).
    – ruakh
    Dec 14, 2011 at 21:07
  • @ruakh: Ah, yes I see. Indeed. That is correct. I thought to make a quick solution, but the surrogate characters are indeed a problem to be completely correct... But if it is outside the OP his needs, this will satisfy. Dec 14, 2011 at 21:10
  • This would return 8 for a surrogate pair, which wouldn't be correct. For such subtle reasons, I'm trying to avoid writing this code myself. Dec 14, 2011 at 21:11
  • Is there even a guarantee on back and forth between 8-16 on combining characters vs precomposed characters? (That the encoder implementation observes?) I would be dubious of trusting something not generated by the encoder that will crank out the final output.
    – Affe
    Dec 14, 2011 at 21:29
  • @Affe: I don't know of such a guarantee, but I find it really hard to believe that anyone would write an encoder that implicitly (and silently) modified the character sequence. I mean, that would mean that encoding and then decoding the sequence would result in a new string that isn't equals-equivalent to the old one!
    – ruakh
    Dec 14, 2011 at 21:40

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