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In the following snippet consider replacing line 8 with commented equivalent

1. private static String ipToText(byte[] ip) {
2.  StringBuffer result = new StringBuffer();
4.  for (int i = 0; i < ip.length; i++) {
5.      if (i > 0)
6.          result.append(".");
8.      result.append(ip[i]); // compare with result.append(0xff & ip[i]);
9.  }
11.     return result.toString();
12. }

.equals() test confirms that adding 0xff does not change anything. Is there a reason for this mask to be applied?

share|improve this question
I'm not sure, but looks like converting to unsigned byte. – Osw Mar 30 '12 at 20:23
up vote 15 down vote accepted

byte in Java is a number between −128 and 127 (unsigned, like every integer in Java (except for char if you want to count it)). By anding with 0xff you're forcing it to be a positive int between 0 and 255.

It works because Java will perform a widening conversion to int, using sign extension, so instead of a negative byte you will have a negative int. Masking with 0xff will leave only the lower 8 bits, thus making the number positive again (and what you initially intended).

You probably didn't notice the difference because you tested with a byte[] with only values smaller than 128.

Small example:

public class A {
    public static void main(String[] args) {
        int[] ip = new int[] {192, 168, 101, 23};
        byte[] ipb = new byte[4];
        for (int i =0; i < 4; i++) {
            ipb[i] = (byte)ip[i];

        for (int i =0; i < 4; i++) {
            System.out.println("Byte: " + ipb[i] + ", And: " + (0xff & ipb[i]));

This prints

Byte: -64, And: 192
Byte: -88, And: 168
Byte: 101, And: 101
Byte: 23, And: 23

showing the difference between what's in the byte, what went into the byte when it still was an int and what the result of the & operation is.

share|improve this answer
Re: "This is because 0xff is of type int, therefore the byte gets promoted to int as well": The type-promotion to int would actually happen even if both arguments had type byte; Java doesn't have a distinct & operator for byte. (And in the version with no &, the type-promotion to int would happen during overload resolution, since StringBuffer doesn't have an append(byte) method.) – ruakh Mar 30 '12 at 20:24
Indeed, you are right. The relevant part is obviously that we get a sign-extended widening to int in any case and by masking the lower 8 bits we can force it to be an unsigned byte again :) – Joey Mar 30 '12 at 20:26

As you're already working with an array of bytes here, and you're doing a bitwise operation, you can ignore how Java treats all bytes as signed. After all, you're working on the bit level now, and there is no such thing as "signed" or "unsigned" values on the level of bits.

Masking an 8-bit value (a byte) with all 1's is just a waste of cycles, as nothing will ever be masked off. A bitewise AND will return a bit true if both bits being compared are true, thus if the mask contains all 1's, then you're guaranteed that all bits of the masked value will remain unchanged after the AND operation.

Consider the following examples:

Mask off the upper nibble:
    0110 1010
AND 0000 1111 (0x0F)
  = 0000 1010
Mask off the lower nibble:
    0110 1010
AND 1111 0000 (0xF0)
  = 0110 0000
Mask off... Eh, nothing:
    0110 1010
AND 1111 1111 (0xFF)
  = 0110 1010

Of course, if you were working with a full blown int here, you'd get the result at the others have said: You'd "force" the int to be the equivalent of an unsigned byte.

share|improve this answer

In this example, I don't see how it would make any difference. You are anding the 0xff with a byte. A byte by definition has 8 bits, and the add masks off the last 8 bits. So you're taking the last 8 of 8, that's not going to do anything.

Anding with 0xff would make sense if the thing you were anding with it was bigger than a byte, a short or an int or whatever.

share|improve this answer
Or just larger than 127 ;) – Joey Mar 30 '12 at 20:24
Whoops, I confess, I misread the question. I was thinking it was putting it back into an array of bytes, I didn't catch that it was converting it to text. – Jay Apr 26 '12 at 18:56

This should only make a difference if there are negative bytes. & 0xff is typically used to interpret a byte as unsigned.

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