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

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

  • 2
    Does it matter what format the resulting byte array is? What will you do with it?
    – skaffman
    Dec 20, 2009 at 20:27

11 Answers 11


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); }
  • 3
    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, 2009 at 20:24
  • The ByteBuffer instance can be cached; and internally it's surely implemented with shifting and masking anyway. Dec 20, 2009 at 20:30
  • 4
    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. Dec 22, 2009 at 1:06
  • 1
    If you plan on using that ByteBuffer in subsequent NIO writing operations, you will need to rewind it. Otherwise, you won't write anything! (Been there, done that!)
    – David J.
    Dec 20, 2013 at 3:11
  • 3
    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, 2015 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();
  • 5
    pay attention to the byte order though Dec 20, 2009 at 20:32
  • 1
    Does ByteBuffer gives out an unsigned int? Jan 22, 2015 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? Apr 23, 2015 at 11:42
  • @SanjayJain You get a buffer overflow exception because ints in Java are 32-bits or 4 bytes in size, and therefore require you to allocate at least 4 bytes of memory in your ByteBuffer.
    – shocking
    Feb 8, 2017 at 23:58
  • @GregoryPakosz is right about byte order. His answer using ByteBuffer is more intuitive if you are dealing with an int greater than 2^31 - 1. Jun 27, 2017 at 14:35

use this function it works for me

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

it translates the int into a byte value

  • 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 '>>'. Jul 23, 2012 at 15:20
  • 1
    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. Feb 9, 2016 at 16:28
  • And this converts between languages well so is good for multi language software development. Nov 22, 2019 at 22:35

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.


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.

  • 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, 2009 at 20:22
  • 1
    This is certainly not fast to execute. ;) Dec 20, 2009 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, 2009 at 20:26

Can also shift -

byte[] ba = new byte[4];
int val = Integer.MAX_VALUE;

for(byte i=0;i<4;i++)
    ba[i] = (byte)(val >> i*8);
    //ba[3-i] = (byte)(val >> i*8); //Big-endian

Here's a method that should do the job just right.

public byte[] toByteArray(int value)
    final byte[] destination = new byte[Integer.BYTES];
    for(int index = Integer.BYTES - 1; index >= 0; index--)
        destination[i] = (byte) value;
        value = value >> 8;
    return destination;

Simple solution which properly handles ByteOrder:



very easy with android

int i=10000;
byte b1=(byte)Color.alpha(i);
byte b2=(byte)Color.red(i);
byte b3=(byte)Color.green(i);
byte b4=(byte)Color.blue(i);

This will help you.

import java.nio.ByteBuffer;
import java.util.Arrays;

public class MyClass
    public static void main(String args[]) {
        byte [] hbhbytes = ByteBuffer.allocate(4).putInt(16666666).array();


It's my solution:

public void getBytes(int val) {
    byte[] bytes = new byte[Integer.BYTES];
    for (int i = 0;i < bytes.length; i ++) {
        int j = val % Byte.MAX_VALUE;
        bytes[i] = (j == 0 ? Byte.MAX_VALUE : j);

Also Stringy method:

public void getBytes(int val) {
    String hex = Integer.toHexString(val);
    byte[] val = new byte[hex.length()/2]; // because byte is 2 hex chars
    for (int i = 0; i < hex.length(); i+=2)
        val[i] = Byte.parseByte("0x" + hex.substring(i, i+2), 16);
    return val;

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.