# How do I split an integer into 2 byte binary?

Given

``````private int width = 400;
private byte [] data = new byte ;
``````

I want to split the integer "width" into two bytes and load data with the high byte and data with the low byte.

That is binary value of 400 = 1 1001 0000 so data should contain 0000 0001 and data should contain 1001 0000

Using simple bitwise operations:

``````data = (byte) (width & 0xFF);
data = (byte) ((width >> 8) & 0xFF);
``````

How it works:

• `& 0xFF` masks all but the lowest eight bits.
• `>> 8` discards the lowest 8 bits by moving all bits 8 places to the right.
• The cast to byte is necessary because these bitwise operations work on an `int` and return an `int`, which is a bigger data type than `byte`. The case is safe, since all non-zero bits will fit in the `byte`. For more information, see Conversions and Promotions.

Edit: Taylor L correctly remarks that though `>>` works in this case, it may yield incorrect results if you generalize this code to four bytes (since in Java an `int` is 32 bits). In that case, it's better to use `>>>` instead of `>>`. For more information, see the Java tutorial on Bitwise and Bit Shift Operators.

• >> might not be what you want. >>> doesn't carry the sign bit when you shift so that is probably better to use in this case if you want to capture all 4 bytes. Nov 14, 2009 at 22:41
• if I do "new byte[]{width & 0xFF, (width >> 8) & 0xFF}" the compiler says "possible loss of precision required byte found int" Nov 14, 2009 at 22:54
• @Kevin: I see I forgot to cast to `byte`. Will update the answer. Nov 14, 2009 at 23:01
• @Taylor: Will check it out, but why is Stephan's code not working? Nov 14, 2009 at 23:02
• You don't need the mask, the cast will cut off the excess bits. It doesn't matter whether you use >> or >>>, the ones due to sign extension will be cut off. Though I'd consider >>> better style. Nov 15, 2009 at 10:17

For converting two bytes the cleanest solution is

``````data = (byte) width;
data = (byte) (width >>> 8);
``````

For converting an integer to four bytes the code would be

``````data = (byte) width;
data = (byte) (width >>> 8);
data = (byte) (width >>> 16);
data = (byte) (width >>> 24);
``````

It doesn't matter whether >> or >>> is used for shifting, any one bits created by sign extension will not end up in the resulting bytes.

This should do what you want for a 4 byte int. Note, it stores the low byte at offset 0. I'll leave it as an exercise to the reader to order them as needed.

``````public static byte[] intToBytes(int x) {
byte[] bytes = new byte;

for (int i = 0; x != 0; i++, x >>>= 8) {
bytes[i] = (byte) (x & 0xFF);
}

return bytes;
}
``````

Integer is 32 bits (=4 bytes) in java, you know?

width & 0xff will give you the first byte, width & 0xff00 >> 8 will give you the second, etc.

To get the high byte, shift right by 8 bits then mask off the top bytes. Similarly, to get the low byte just mask off the top bytes.

``````data = (width >> 8) & 0xff;
data = width & 0xff;
``````
• Apologies - was trying to illustrate the principle, but you're quite right! Nov 15, 2009 at 10:18
``````int width = 400;
byte [] data = new byte ;

data = (byte) ((width & 0xFF00) >> 8);
data = (byte) (width & 0xFF);

for(int b = 0; b < 2; b++) {
System.out.println("printing byte " + b);
for(int i = 7; i >= 0; i--) {
System.out.println(data[b] & 1);
data[b] = (byte) (data[b] >> 1);
}
}
``````

I suggest you have a look at the source for HeapByteBuffer. It has the conversion code for all primitive data types. (In fact you could just use a ByteBuffer ;)