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I want to do something like a regular expression in Java, but on a byte array instead of a String

For example, let's say I want to delete from the array all continuous segments of 0's longer than 3 bytes

byte a[] = {1,2,3,0,1,2,3,0,0,0,0,4};
byte r[] = magic(a);



Is there something that can help me built-in (or is there a good third party tool), or do I need to work from scratch?

  • Strings are UTF-16, so converting back and forth isn't a good idea? At least it's a lot of wasted overhead ... right?
share|improve this question
How critical is performance and memory usage for your use case? In general, RAM is cheap and CPUs are fast. Have you actually found a bottleneck or is it a case of worrying about efficiency? You can easily try it out by converting byte [] to String using an 8-bit encoding, do your regexing and check the performance. After all, we don't worry about how inefficient Java strings with their 16-bit chars are for normal usage in ANSI environments, right? – Vinay Sajip Sep 7 '09 at 0:00
It's for a high performance application, I'm more worried about cycles than ram use. – Mike Sep 7 '09 at 0:02
It's still worth benchmarking; a Hotspot VM will convert code in hotspots to machine code, which will handle 16-bit data at the same speed as 8-bit data since it all fits into a 32-bit machine word. Even if you find its too slow, you won't have spent much time finding it out. – Vinay Sajip Sep 7 '09 at 0:08
true, i think i'm gonna try anyway, thanks – Mike Sep 7 '09 at 0:12
up vote 2 down vote accepted

regex is not the tool for the job, you will instead need to implement that from scratch

share|improve this answer
byte[] a = {1,2,3,0,1,2,3,0,0,0,0,4};
String s0 = new String(a, "ISO-8859-1");
String s1 = s0.replaceAll("\\x00{4,}", "");
byte[] r = s1.getBytes("ISO-8859-1");

System.out.println(Arrays.toString(r)); // [1, 2, 3, 0, 1, 2, 3, 4]

I used ISO-8859-1 (latin1) because, unlike any other encoding,

  • every byte in the range 0x00..0xFF maps to a valid character, and

  • each of those characters has the same numeric value as its latin1 encoding.

That means the string is the same length as the original byte array, you can match any byte by its numeric value with the \xFF construct, and you can convert the resulting string back to a byte array without losing information.

I wouldn't try to display the data while it's in string form--although all the characters are valid, many of them are not printable. Also, avoid manipulating the data while it's in string form; you might accidentally do some escape-sequence substitutions or another encoding conversion without realizing it. In fact, I wouldn't recommend doing this kind of thing at all, but that isn't what you asked. :)

Also, be aware that this technique won't necessarily work in other programming languages or regex flavors. You would have to test each one individually.

share|improve this answer
That's really clever. – Laurent Caillette Aug 28 '14 at 7:42
Hacky. I love it :) – Wojtek Erbetowski Feb 12 '15 at 15:03

Though I question whether reg-ex is the right tool for the job, if you do want to use one I'd suggest you just implement a CharSequence wrapper on a byte array. Something like this (I just wrote this directly in, not compiled... but you get the idea).

public class ByteChars 
implements CharSequence


ByteChars(byte[] arr) {

ByteChars(byte[] arr, int str, int end) {
    //check str and end are within range here

public char charAt(int idx) { 
    //check idx is within range here
    return (char)(bytes[strOfs+idx]&0xFF); 

public int length() { 
    return (endOfs-strOfs); 

public CharSequence subSequence(int str, int end) { 
    //check str and end are within range here
    return new ByteChars(arr,(strOfs+str,strOfs+end); 

public String toString() { 
    return new String(bytes,strOfs,(endOfs-strOfs),"ISO8859_1");
share|improve this answer
I implemented this approach and it worked a treat! Obviously you have to be careful since you're not performing any charset decoding, but for things like doctype detection it's perfect. – sigpwned Mar 8 '15 at 15:35

I don't see how regex would be useful to do what you want. One thing you can do is use Run Length Encoding to encode that byte array, replace every ocurrence of "30" (read three 0's) with the empty string, and decode the final string. Wikipedia has a simple Java implementation of it.

share|improve this answer
I thought the 3 0s was just an example. – Vinay Sajip Sep 6 '09 at 23:57

Although there's a reasonable ByteString library floating around, nobody that I've seen has implemented a general regexp library on them.

I recommend solving your problem directly rather than implementing a regexp library :)

If you do convert to string and back, you probably won't find any existing encoding that gives you a round trip for your 0 bytes. If that's the case, you'd have to write your own byte array <-> string converters; not worth the trouble.

share|improve this answer

Regexp is proper tool if use it propely: StringUtils.contains of Apache and Boyer–Moore string search algorithm

The last time I looked into the Java regex matching code while debugging, the Java 7 regex engine used the Boyer-Moore algorithm for sequences of literal text matches. So the easiest way to find a String using Boyer-Moore is to prepare using p=Pattern.compile(searchString, Pattern.LITERAL) and search using p.matcher(toSearchOn).find(). No third party libraries and no handcrafted work needed. And I believe the JRE classes are tested well… – GKislin 1 min ago edit

Have a look also here (A Java library implementing various methods of matching and searching for bytes):

share|improve this answer

Java Regex operates on CharSequences - you could CharBuffer to wrap your existing byte array (you might need to cast it to char[] ?) and interpret it as such, and then perform regex on that?

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I'd suggest converting the byte array into a String, performing the regex, and then converting it back. Here's a working example:

public void testRegex() throws Exception {
	byte a[] = { 1, 2, 3, 0, 1, 2, 3, 0, 0, 0, 0, 4 };
	String s = btoa(a);
	String t = s.replaceAll("\u0000{4,}", "");
	byte b[] = atob(t);

private byte[] atob(String t) {
	char[] array = t.toCharArray();
	byte[] b = new byte[array.length];
	for (int i = 0; i < array.length; i++) {
		b[i] = (byte) Character.toCodePoint('\u0000', array[i]);
	return b;

private String btoa(byte[] a) {
	StringBuilder sb = new StringBuilder();
	for (byte b : a) {
	return sb.toString();

For more complicated transformations, I'd suggest using a Lexer. Both JavaCC and ANTLR have support for parsing/transforming binary files.

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