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since Java doesn't provide a default way to do this,

what's a fast way to convert an Integer into a Byte Array?

e.g. 0xAABBCCDD => {AA, BB, CC, DD}

share|improve this question
Does it matter what format the resulting byte array is? What will you do with it? – skaffman Dec 20 '09 at 20:27
up vote 136 down vote accepted

Have a look at the ByteBuffer class.

ByteBuffer b = ByteBuffer.allocate(4);
//b.order(ByteOrder.BIG_ENDIAN); // optional, the initial order of a byte buffer is always BIG_ENDIAN.

byte[] result = b.array();

Setting the byte order ensures that result[0] == 0xAA, result[1] == 0xBB, result[2] == 0xCC and result[3] == 0xDD.

Or alternatively, you could do it manually:

byte[] toBytes(int i)
  byte[] result = new byte[4];

  result[0] = (byte) (i >> 24);
  result[1] = (byte) (i >> 16);
  result[2] = (byte) (i >> 8);
  result[3] = (byte) (i /*>> 0*/);

  return result;

The ByteBuffer class was designed for such dirty hands tasks though. In fact the private java.nio.Bits defines these helper methods that are used by ByteBuffer.putInt():

private static byte int3(int x) { return (byte)(x >> 24); }
private static byte int2(int x) { return (byte)(x >> 16); }
private static byte int1(int x) { return (byte)(x >>  8); }
private static byte int0(int x) { return (byte)(x >>  0); }
share|improve this answer
this would work well if the bytebuffer is already there... otherwise it seems like it would take longer to do the allocation, than to just allocate a byte array of length 4 and do the shifting manually... but we're probably talking about small differences. – Jason S Dec 20 '09 at 20:24
get it right first, then profile, then optimize ;) – Gregory Pakosz Dec 20 '09 at 20:27
This is a perfectly fine answer. Note that big-endian is the specified default, and the methods are "chainable", and the position argument is optional, so it all reduces to: byte[] result = ByteBuffer.allocate(4).putInt(0xAABBCCDD).array(); Of course, if you're doing this repeatedly and concatenating all the results together (which is common when you're doing this kind of thing), allocate a single buffer and repeatedly putFoo() all the things into it that you need -- it will keep track of the offset as you go. It's really a tremendously useful class. – Kevin Bourrillion Dec 22 '09 at 1:06
In your manual answer, you probably want to use the unsigned shift (>>>). – Daniel Lemire Jun 6 '12 at 17:21
For who doesn't know. The putInt will always write 4 bytes, no matter what size the input integer is. If you only want 2 bytes, use putShort, etc ... – bvdb Jan 26 '15 at 9:07

Using BigInteger:

private byte[] bigIntToByteArray( final int i ) {
    BigInteger bigInt = BigInteger.valueOf(i);      
    return bigInt.toByteArray();

Using DataOutputStream:

private byte[] intToByteArray ( final int i ) throws IOException {  	
    ByteArrayOutputStream bos = new ByteArrayOutputStream();
    DataOutputStream dos = new DataOutputStream(bos);
    return bos.toByteArray();

Using ByteBuffer:

public byte[] intToBytes( final int i ) {
    ByteBuffer bb = ByteBuffer.allocate(4); 
    return bb.array();
share|improve this answer
pay attention to the byte order though – Gregory Pakosz Dec 20 '09 at 20:32
Does ByteBuffer gives out an unsigned int? – Arun George Jan 22 '15 at 16:53
@Pascal Using ByteBuffer I tried with ByteBuffer bb = ByteBuffer.allocate(3); For this it is giving java.nio.BufferOverflowException, I am not getting why it is not working for value less than 4? Can you please explain? – Sanjay Jain Apr 23 '15 at 11:42

use this function it works for me

public byte[] intToByteArray(int value) {
    return new byte[] {
            (byte)(value >>> 24),
            (byte)(value >>> 16),
            (byte)(value >>> 8),

it translates the int into a byte value

share|improve this answer
It's also worth nothing that this will work regardless of the most significant bit and more efficient compared to the other answers. Also could use '>>'. – algolicious Jul 23 '12 at 15:20
A direct solution like this is certainly faster than calling any library method. Sometimes you just have to fiddle with the the bits directly with a few lines of code rather than incurring all the extra overhead of library method calls. – David R Tribble Feb 9 at 16:28

If you like Guava, you may use its Ints class:

For intbyte[], use toByteArray():

byte[] byteArray = Ints.toByteArray(0xAABBCCDD);

Result is {0xAA, 0xBB, 0xCC, 0xDD}.

Its reverse is fromByteArray() or fromBytes():

int intValue = Ints.fromByteArray(new byte[]{(byte) 0xAA, (byte) 0xBB, (byte) 0xCC, (byte) 0xDD});
int intValue = Ints.fromBytes((byte) 0xAA, (byte) 0xBB, (byte) 0xCC, (byte) 0xDD);

Result is 0xAABBCCDD.

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You can use BigInteger:

From Integers:

byte[] array = BigInteger.valueOf(0xAABBCCDD).toByteArray();
// --> {-86, -69, -52, -35 }

The returned array is of the size that is needed to represent the number, so it could be of size 1, to represent 1 for example. However, the size cannot be more than four bytes if an int is passed.

From Strings:

BigInteger v = new BigInteger("AABBCCDD", 16);
byte[] array = v.toByteArray();

However, you will need to watch out, if the first byte is higher 0x7F (as is in this case), where BigInteger would insert a 0x00 byte to the beginning of the array. This is needed to distinguish between positive and negative values.

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thanks! But since this is BigInteger, will ints wrap around correctly? That is integers that are outside Integer.MAX_VALUE but can still be represented with only 4 bytes? – Buttercup Dec 20 '09 at 20:22
This is certainly not fast to execute. ;) – Peter Lawrey Dec 20 '09 at 20:24
This is not a good option. Not only it may add 0x00 byte, it may also strip leading zeros. – ZZ Coder Dec 20 '09 at 20:26

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