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I have been experimenting with using UUIDs as database keys. I want to take up the least amount of bytes as possible, while still keeping the UUID representation human readable.

I think that I have gotten it down to 22 bytes using base64 and removing some trailing "==" that seem to be unnecessary to store for my purposes. Are there any flaws with this approach?

Basically my test code does a bunch of conversions to get the UUID down to a 22 byte String, then converts it back into a UUID.

import java.io.IOException;
import java.util.UUID;

public class UUIDTest {

    public static void main(String[] args){
    	UUID uuid = UUID.randomUUID();
    	System.out.println("UUID String: " + uuid.toString());
    	System.out.println("Number of Bytes: " + uuid.toString().getBytes().length);

    	byte[] uuidArr = asByteArray(uuid);
    	System.out.print("UUID Byte Array: ");
    	for(byte b: uuidArr){
    		System.out.print(b +" ");
    	System.out.println("Number of Bytes: " + uuidArr.length);

        try {
            // Convert a byte array to base64 string
            String s = new sun.misc.BASE64Encoder().encode(uuidArr);
            System.out.println("UUID Base64 String: " +s);
            System.out.println("Number of Bytes: " + s.getBytes().length);

            String trimmed = s.split("=")[0];
            System.out.println("UUID Base64 String Trimmed: " +trimmed);
            System.out.println("Number of Bytes: " + trimmed.getBytes().length);

            // Convert base64 string to a byte array
            byte[] backArr = new sun.misc.BASE64Decoder().decodeBuffer(trimmed);
    		System.out.print("Back to UUID Byte Array: ");
    		for(byte b: backArr){
    			System.out.print(b +" ");
    		System.out.println("Number of Bytes: " + backArr.length);

    		byte[] fixedArr = new byte[16];
    		for(int i= 0; i<16; i++){
    			fixedArr[i] = backArr[i];
    		System.out.print("Fixed UUID Byte Array: ");
    		for(byte b: fixedArr){
    			System.out.print(b +" ");
    		System.out.println("Number of Bytes: " + fixedArr.length);

    		UUID newUUID = toUUID(fixedArr);
    		System.out.println("UUID String: " + newUUID.toString());
    		System.out.println("Number of Bytes: " + newUUID.toString().getBytes().length);

    		System.out.println("Equal to Start UUID? "+newUUID.equals(uuid));

        } catch (IOException e) {


    public static byte[] asByteArray(UUID uuid) {

    	long msb = uuid.getMostSignificantBits();
    	long lsb = uuid.getLeastSignificantBits();
    	byte[] buffer = new byte[16];

    	for (int i = 0; i < 8; i++) {
    		buffer[i] = (byte) (msb >>> 8 * (7 - i));
    	for (int i = 8; i < 16; i++) {
    		buffer[i] = (byte) (lsb >>> 8 * (7 - i));

    	return buffer;


    public static UUID toUUID(byte[] byteArray) {

    	long msb = 0;
    	long lsb = 0;
    	for (int i = 0; i < 8; i++)
    		msb = (msb << 8) | (byteArray[i] & 0xff);
    	for (int i = 8; i < 16; i++)
    		lsb = (lsb << 8) | (byteArray[i] & 0xff);
    	UUID result = new UUID(msb, lsb);

    	return result;



UUID String: cdaed56d-8712-414d-b346-01905d0026fe
Number of Bytes: 36

UUID Byte Array: -51 -82 -43 109 -121 18 65 77 -77 70 1 -112 93 0 38 -2 
Number of Bytes: 16

UUID Base64 String: za7VbYcSQU2zRgGQXQAm/g==
Number of Bytes: 24

UUID Base64 String Trimmed: za7VbYcSQU2zRgGQXQAm/g
Number of Bytes: 22

Back to UUID Byte Array: -51 -82 -43 109 -121 18 65 77 -77 70 1 -112 93 0 38 -2 0 38 
Number of Bytes: 18

Fixed UUID Byte Array: -51 -82 -43 109 -121 18 65 77 -77 70 1 -112 93 0 38 -2 
Number of Bytes: 16

UUID String: cdaed56d-8712-414d-b346-01905d0026fe
Number of Bytes: 36

Equal to Start UUID? true
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One way to look at it is that a UUID is 128 random bits, so 6 bits per base64-item, is 128/6=21.3, so you're right that you need 22 base64 positions to store the same data. –  Stijn Sanders Apr 21 '09 at 14:22
You previous question seems essentially the same: stackoverflow.com/questions/772325/… –  erickson Apr 21 '09 at 14:54
I'm not sure your code is correct in the second for loop of asByteBuffer you subtract i from 7 but i iterates from 8 to 16 which means it will shift by a negative number. IIRC <<< wraps around but it still doesn't seem correct. –  Jon Tirsen Jan 31 '12 at 12:15
I think it's easier to just use ByteBuffer to convert the two longs to a byte array like in this question: stackoverflow.com/questions/6881659/… –  Jon Tirsen Jan 31 '12 at 12:16
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7 Answers

up vote 15 down vote accepted

You can safely drop the padding "==" in this application. If you were to decode the base-64 text back to bytes, most libraries would expect it to be there, but since you are just using the resulting string as a key, it's not a problem.

I like Base-64 because its limited character set looks less like gibberish, but there's also Base-85. It uses more characters and codes 4 bytes as 5 characters, so you could get your text down to 20 characters.

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BAse85 only saves 2 characters. Plus, Base85 is not safe to use in URLs, and one major use of UUIDs is entity identifiers in databases, which then end up in URLS. –  Dennis Jan 2 '13 at 1:41
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I have an application where I'm doing almost exactly this. 22 char encoded UUID. It works fine. However, the main reason I'm doing it this way is that the IDs are exposed in the web app's URIs, and 36 characters is really quite big for something that appears in a URI. 22 characters is still kinda long, but we make do.

Here's the Ruby code for this:

  # Make an array of 64 URL-safe characters
  CHARS64 = ("a".."z").to_a + ("A".."Z").to_a + ("0".."9").to_a + ["-", "_"]
  # Return a 22 byte URL-safe string, encoded six bits at a time using 64 characters
  def to_s22
    integer = self.to_i # UUID as a raw integer
    rval = ""
    22.times do
      c = (integer & 0x3F)
      rval += CHARS64[c]
      integer = integer >> 6
    return rval.reverse

It's not exactly the same as base64 encoding because base64 uses characters that would have to be escaped if they appeared in a URI path component. The Java implementation is likely to be quite different since you're more likely to have an array of raw bytes instead of a really big integer.

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I was also trying to do something similar. I am working with a Java application which uses UUIDs of the form 6fcb514b-b878-4c9d-95b7-8dc3a7ce6fd8 (which are generated with the standard UUID lib in Java). In my case I needed to be able to get this UUID down to 30 characters or less. I used Base64 and these are my convenience functions. Hopefully they will be helpful for someone as the solution was not obvious to me right away.


String uuid_str = "6fcb514b-b878-4c9d-95b7-8dc3a7ce6fd8";
String uuid_as_64 = uuidToBase64(uuid_str);
System.out.println("as base64: "+uuid_as_64);
System.out.println("as uuid: "+uuidFromBase64(uuid_as_64));


as base64: b8tRS7h4TJ2Vt43Dp85v2A
as uuid: 6fcb514b-b878-4c9d-95b7-8dc3a7ce6fd8


private static String uuidToBase64(String str) {
    Base64 base64 = new Base64();
    UUID uuid = UUID.fromString(str);
    ByteBuffer bb = ByteBuffer.wrap(new byte[16]);
    return base64.encodeBase64URLSafeString(bb.array());
private static String uuidFromBase64(String str) {
    Base64 base64 = new Base64(); 
    byte[] bytes = base64.decodeBase64(str);
    ByteBuffer bb = ByteBuffer.wrap(bytes);
    UUID uuid = new UUID(bb.getLong(), bb.getLong());
    return uuid.toString();
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You seem to be using Apache commons-codec, do you? –  Andreas Sep 2 '13 at 11:19
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You don't say what DBMS you're using, but it seems that RAW would be the best approach if you're concerned about saving space. You just need to remember to convert for all queries, or you'll risk a huge performance drop.

But I have to ask: are bytes really that expensive where you live?

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Yes, I think so... I want to save as much space as possible while still having it be human readable. –  dubdubdubdot Apr 21 '09 at 14:40
OK, why do you think so? Are you storing a billion rows? You'll save 8 billion bytes, which isn't much. Actually, you'll save less, because your DBMS might reserve additional space for encoding. And if you go with VARCHAR instead of fixed-size CHAR, you're going to lose the space needed to save the actual length. –  kdgregory Apr 21 '09 at 14:52
... and that "savings" is only if you use a CHAR(32). If you use RAW, you'll actually be saving space. –  kdgregory Apr 21 '09 at 14:52
Any reasonable DBMS allows you to store UUIDs in native format, which requires 16 bytes. Any reasonable db tools will convert these to standard format (e.g. "cdaed56d-8712-414d-b346-01905d0026fe") in query results. People have been doing this for a long time. There's no need to re-invent the wheel. –  Robert Lewis Apr 22 '09 at 20:54
He could be trying to include a UUID in a QR code, which would mean that the compression is useful in order to create a more easily scannable QR code. –  nym Feb 26 '13 at 22:53
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Here's my code, it uses org.apache.commons.codec.binary.Base64 to produce url-safe unique strings that are 22 characters in length (and that have the same uniqueness as UUID).

private static Base64 BASE64 = new Base64(true);
public static String generateKey(){
    UUID uuid = UUID.randomUUID();
    byte[] uuidArray = KeyGenerator.toByteArray(uuid);
    byte[] encodedArray = BASE64.encode(uuidArray);
    String returnValue = new String(encodedArray);
    returnValue = StringUtils.removeEnd(returnValue, "\r\n");
    return returnValue;
public static UUID convertKey(String key){
    UUID returnValue = null;
        // Convert base64 string to a byte array
        byte[] decodedArray = BASE64.decode(key);
        returnValue = KeyGenerator.fromByteArray(decodedArray);
    return returnValue;
private static byte[] toByteArray(UUID uuid) {
    byte[] byteArray = new byte[(Long.SIZE / Byte.SIZE) * 2];
    ByteBuffer buffer = ByteBuffer.wrap(byteArray);
    LongBuffer longBuffer = buffer.asLongBuffer();
    longBuffer.put(new long[] { uuid.getMostSignificantBits(), uuid.getLeastSignificantBits() });
    return byteArray;
private static UUID fromByteArray(byte[] bytes) {
    ByteBuffer buffer = ByteBuffer.wrap(bytes);
    LongBuffer longBuffer = buffer.asLongBuffer();
    return new UUID(longBuffer.get(0), longBuffer.get(1));
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This little snippet of code does exactly what you are talking about, we've been using it for quite some time:

import base64
import uuid

# get a UUID - URL safe, Base64
def get_a_Uuid():
    r_uuid = base64.urlsafe_b64encode(uuid.uuid4().bytes)
    return r_uuid.replace('=', '')
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Below is what I use for a UUID (Comb style). It includes code for converting a uuid string or uuid type to base64. I do it per 64 bits, so I don't deal with any equal signs:


import java.util.Calendar;
import java.util.UUID;
import org.apache.commons.codec.binary.Base64;

public class UUIDUtil{
    public static UUID combUUID(){
        private UUID srcUUID = UUID.randomUUID();
        private java.sql.Timestamp ts = new java.sql.Timestamp(Calendar.getInstance().getTime().getTime());

        long upper16OfLowerUUID = this.zeroLower48BitsOfLong( srcUUID.getLeastSignificantBits() );
        long lower48Time = UUIDUtil.zeroUpper16BitsOfLong( ts );
        long lowerLongForNewUUID = upper16OfLowerUUID | lower48Time;
        return new UUID( srcUUID.getMostSignificantBits(), lowerLongForNewUUID );
    public static base64URLSafeOfUUIDObject( UUID uuid ){
        byte[] bytes = ByteBuffer.allocate(16).putLong(0, uuid.getLeastSignificantBits()).putLong(8, uuid.getMostSignificantBits()).array();
        return Base64.encodeBase64URLSafeString( bytes );
    public static base64URLSafeOfUUIDString( String uuidString ){
    UUID uuid = UUID.fromString( uuidString );
        return UUIDUtil.base64URLSafeOfUUIDObject( uuid );
    private static long zeroLower48BitsOfLong( long longVar ){
        long upper16BitMask =  -281474976710656L;
        return longVar & upper16BitMask;
    private static void zeroUpper16BitsOfLong( long longVar ){
        long lower48BitMask =  281474976710656L-1L;
        return longVar & lower48BitMask;
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