# An example of a bit-shift operation in Java

I have this statement:

Assume the bit value of byte `x` is 00101011. what is the result of `x>>2`?

How can I program it and can someone explain me what is doing?

-

Firstly, you can not shift a `byte` in java, you can only shift an `int` or a `long`. So the `byte` will undergo promotion first, e.g.

`00101011` -> `00000000000000000000000000101011`

or

`11010100` -> `11111111111111111111111111010100`

Now, `x >> N` means (if you view it as a string of binary digits):

• The rightmost N bits are discarded
• The leftmost bit is replicated as many times as necessary to pad the result to the original size (32 or 64 bits), e.g.

`00000000000000000000000000101011 >> 2` -> `00000000000000000000000000001010`

`11111111111111111111111111010100 >> 2` -> `11111111111111111111111111110101`

-

When you shift right 2 bits you drop the 2 least significant bits. So:

``````x = 00101011

x >> 2

// now (notice the 2 new 0's on the left of the byte)
x = 00001010
``````

This is essentially the same thing as dividing an int by 2, 2 times.

In Java

``````byte b = (byte) 16;
b = b >> 2;
// prints 4
System.out.println(b);
``````
-
Each right shift is divide by 2, so two right shifts is divide by 4. –  Steve Kuo Jul 22 '10 at 20:00
@Steve, thanks, my mistake. –  jjnguy Jul 22 '10 at 20:01
Exactly. Or, in math speek: n >> m -> n / (2^m) –  delnan Jul 22 '10 at 20:02
@delnan, yup, but that looks scary. –  jjnguy Jul 22 '10 at 20:03
Might be a little clearer if you show the padding 0s to the left after the bitshift. –  Jonathon Faust Jul 22 '10 at 20:08

`>>` is the Arithmetic Right Shift operator. All of the bits in the first operand are shifted the number of places indicated by the second operand. The leftmost bits in the result are set to the same value as the leftmost bit in the original number. (This is so that negative numbers remain negative.)

``````00101011
001010 <-- Shifted twice to the right (rightmost bits dropped)
00001010 <-- Leftmost bits filled with 0s (to match leftmost bit in original number)
``````
-

The binary 32 bits for `00101011` is

`00000000 00000000 00000000 00101011`, and the result is:

``````  00000000 00000000 00000000 00101011   >> 2(times)
\\                                 \\
00000000 00000000 00000000 00001010
``````

Shifts the bits of 43 to left by distance 2; fills with highest(sign) bit on the left side.

Result is 00001010 with decimal value 10.

``````00001010
8+2 = 10
``````
-
``````byte x = 51; //00101011
byte y = (byte) (x >> 2); //00001010 aka Base(10) 10
``````
-

You can't write binary literals like `00101011` in Java so you can write it in hexadecimal instead:

``````byte x = 0x2b;
``````

To calculate the result of `x >> 2` you can then just write exactly that and print the result.

``````System.out.println(x >> 2);
``````
-
whats about Byte.parseByte("00101011",2); ? –  stacker Jul 22 '10 at 20:33
Is this calculated at compile time or does it result in a method call at runtime? –  Mark Byers Jul 22 '10 at 20:40
Java 7 should be adding binary literals, e.g.: `0b00101011` –  Alan Krueger Jul 22 '10 at 21:19
@Alan Kreuger: That's excellent news. :) Thanks for the info. –  Mark Byers Jul 22 '10 at 21:27
``````public class Shift {
public static void main(String[] args) {
Byte b = Byte.parseByte("00101011",2);
System.out.println(b);
byte val = b.byteValue();
Byte shifted = new Byte((byte) (val >> 2));
System.out.println(shifted);

// often overloked  are the methods of Integer

int i = Integer.parseInt("00101011",2);
System.out.println( Integer.toBinaryString(i));
i >>= 2;
System.out.println( Integer.toBinaryString(i));
}
}
``````

Output:

``````43
10
101011
1010
``````
-

You can use e.g. this API if you would like to see bitString presentation of your numbers. Uncommons Math

Example (in jruby)

``````bitString = org.uncommons.maths.binary.BitString.new(java.math.BigInteger.new("12").toString(2))
bitString.setBit(1, true)
bitString.toNumber => 14
``````