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I am trying to write a decoder for a very simple type of encryption. Numbers from 0-255 are entered via Scanner, the bits are inverted, and then converted to a character and printed.

For example, the number 178 should convert to the letter "M".

178 is 10110010.

Inverting all of the bits should give 01001101, which is 77 or "M" as a character.

The main problem I have is that, as far as I can tell, Java does not support unsigned bytes. I could read values as an int or a short, but then the values will be off during the conversion due to the extra bits. Ideally I could just use the bitwise complement operator, but I think I will end up getting negative values if I do this with signed numbers. Any ideas on how I should approach this?

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You picked a really bad example, because it allows two readings. –  starblue Jul 24 '10 at 10:44
The bitmask was exactly what I needed - I had no idea you could do that. Very useful. Thank you all for the replies. –  DavidKelly999 Jul 24 '10 at 22:58

7 Answers 7

I would simply use the ones complement and get rid of the other bits by using binary and.

public class Conv {
    public static void main(String[] args) {
        int val = 178;
        val = ~val & 0xff;
        System.out.println((char) val);
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~n & 0xff

~ does the complement and implicitly converts to an integer like all numeric operations do, then & 0xff masks out everything except the lower 8 bits to get the unsigned value, again as an integer.

I first read your question differently, to invert the order instead of the values of the bits, and this was the answer.

You can use Integer.reverse() (untested):

Integer.reverse(n << 24) & 0xff
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If anybody is using this, the Integer.reverse method works perfectly (tested)! Thanks btw! –  Squeazer Nov 8 '14 at 21:13

Bitwise operations in Java are defined for int so it makes sense to work with int rather than byte. You can use Scanner.nextInt, rather than Scanner.nextByte. You should validate the user's input to ensure that all integers entered are in the range 0 to 255 and display an appropriate error message if an out-of-range number is encountered.

Once you have the number stored in an integer then to flip the least significant 8 bits you can XOR with 0xff. This should work as you expect for all inputs between 0 and 255:

x ^= 0xff;


String input = "178 0 255";
Scanner s = new Scanner(input);
while (s.hasNextInt()) {
    int x = s.nextInt();
    if (x < 0 || x > 255) {
        System.err.println("Not in range 0-255: " + x);
    } else {
        x ^= 0xff;


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This will not work if the value originally is stored in a byte, because then it will be sign-extended to a negative integer. –  starblue Jul 24 '10 at 10:53
@starblue: It appears that he is using a Scanner. I've updated my answer to mention this. –  Mark Byers Jul 24 '10 at 11:02

If Java supports this, you could read it into a larger type, bitwise-compliment, then bit-mask out the unwanted bits.

int x = [your byte];
x = ~x & 0xFF;
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The easiest way to do this is three stages:

  1. Read the value as an int (32 bits in java). It may read as negative but we only care about the bottom 8 bits anyway. int i = scanner.nextByte();
  2. Do the inversion as an int using bitwise operators (as you say will give you 1s as high order bits: i = ~i;
  3. Lose the high order bits with a logical AND: i = i & 0xFF;

Then just use the result as a character (which is actually 16 bits in java, but we will only use 8 of them):

char c=(char)a;

All together:

int i = scanner.nextByte(); // change this to nextInt() depending on file format
i = ~i;
i = i & 0xFF;
char c=(char)a;
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In the question it says "Numbers from 0-255". scanner.nextByte will fail for numbers greater than 127. –  Mark Byers Jul 24 '10 at 20:00

Here are Java bytes, sorted by binary representation (from 00000000 to 11111111):

0, 1, 2, .., 126, 127, -128, -127, .., -2, -1

00000000 is 0, 11111111 is -1

Inverted 0 is -1, inverted 1 is -2, ..., inverted 127 is -128. Thus if you want to invert bits of Java byte you should get your byte with opposite sign and subtract one:

byte myByte = 123;
byte myInvertedByte = -myByte-1;
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private byte reverseBitsByte(byte x)
    int intSize = 8;

    byte y = 0;
    for (int position = intSize - 1; position >= 0; position--)
        y += ((x & 1) << position);
        x >>= 1;
    return y;
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Some explanation would be really nice. –  awksp Jul 8 '14 at 18:26

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