759

I have a byte array filled with hex numbers and printing it the easy way is pretty pointless because there are many unprintable elements. What I need is the exact hexcode in the form of: 3a5f771c

5
  • 15
    Why not just give it a try first and show us what you've got. You've nothing to lose and all to gain. Integer has a toHexString(...) method that may help if this is what you're looking for. Also String.format(...) can do some neat formatting tricks using the %2x code string. Mar 11, 2012 at 13:09
  • 1
  • "What I need is the exact hexcode in the form of: 3a5f771c..." - you asked for an exact form, but you did not provide an exact example. Going on what you provided, convert the first four bytes to a string, then concatenate the ellipses to the string.
    – jww
    Feb 14, 2014 at 9:18
  • 1
    With the help of stream in Java 8, it can be simply implemented as: static String byteArrayToHex(byte[] a) { return IntStream.range(0, a.length) .mapToObj(i -> String.format("%02x", a[i])) .reduce((acc, v) -> acc + " " + v) .get(); }
    – tibetty
    Oct 10, 2019 at 1:59
  • Java 17 to the rescue: HexFormat.of().formatHex(bytes) May 27, 2021 at 21:16

33 Answers 33

1020

From the discussion here, and especially this answer, this is the function I currently use:

private static final char[] HEX_ARRAY = "0123456789ABCDEF".toCharArray();
public static String bytesToHex(byte[] bytes) {
    char[] hexChars = new char[bytes.length * 2];
    for (int j = 0; j < bytes.length; j++) {
        int v = bytes[j] & 0xFF;
        hexChars[j * 2] = HEX_ARRAY[v >>> 4];
        hexChars[j * 2 + 1] = HEX_ARRAY[v & 0x0F];
    }
    return new String(hexChars);
}

My own tiny benchmarks (a million bytes a thousand times, 256 bytes 10 million times) showed it to be much faster than any other alternative, about half the time on long arrays. Compared to the answer I took it from, switching to bitwise ops --- as suggested in the discussion --- cut about 20% off of the time for long arrays. (Edit: When I say it's faster than the alternatives, I mean the alternative code offered in the discussions. Performance is equivalent to Commons Codec, which uses very similar code.)

2k20 version, with respect to Java 9 compact strings:

private static final byte[] HEX_ARRAY = "0123456789ABCDEF".getBytes(StandardCharsets.US_ASCII);
public static String bytesToHex(byte[] bytes) {
    byte[] hexChars = new byte[bytes.length * 2];
    for (int j = 0; j < bytes.length; j++) {
        int v = bytes[j] & 0xFF;
        hexChars[j * 2] = HEX_ARRAY[v >>> 4];
        hexChars[j * 2 + 1] = HEX_ARRAY[v & 0x0F];
    }
    return new String(hexChars, StandardCharsets.UTF_8);
}
19
  • 291
    I just found javax.xml.bind.DataTypeConverter, part of the standard distribution. Why doesn't this come up when you Google this kind of problem? Lots helpful tools, including String printHexBinary(byte[]) and byte[] parseHexBinary(String). printHexBinary is, however, much (2x) slower than the function in this answer. (I checked the source; it uses a stringBuilder. parseHexBinary uses an array.) Really, though, for most purposes it's fast enough and you probably already have it. Mar 31, 2012 at 1:31
  • 83
    +1 for the answer since Android does not have DataTypeConverter
    – Vaiden
    May 29, 2013 at 10:49
  • 9
    @maybeWeCouldStealAVan: JDK 7 is now open source. We should submit a patch to improve performance for printHexBinary?
    – kevinarpe
    Jul 10, 2013 at 17:05
  • 42
    javax.xml.bind.DataTypeConverter is being removed from Java 11. Jul 18, 2018 at 19:07
  • 5
    Why is & 0xFF required in this line int v = bytes[j] & 0xFF;? Am I missing something or is it just unnecessary?
    – AlbAtNf
    Jul 24, 2018 at 15:45
504

The Apache Commons Codec library has a Hex class for doing just this type of work.

import org.apache.commons.codec.binary.Hex;

String foo = "I am a string";
byte[] bytes = foo.getBytes();
System.out.println( Hex.encodeHexString( bytes ) );
12
  • 13
    @cytinus - My downvote occurred 4 months ago so I'm not entirely certain what I was thinking, but I was probably objecting to the size of the library. This is a small function within the program; there's no need to add such a bulky library to the project to perform it. Mar 30, 2013 at 5:19
  • 7
    @ArtOfWarefare I agree, so instead of import org.apache.commons.codec.*; you could do import org.apache.commons.codec.binary.Hex;
    – cytinus
    Apr 12, 2013 at 23:49
  • 17
    @ArtOfWarfare I have to disagree. The only terrible thing is that the apache commons libraries aren't included by default with the JRE and JDK. There are some libraries that are so useful they really should be on your class path by default, and this is one of them.
    – corsiKa
    Aug 21, 2013 at 15:36
  • 44
    I highly recommend this answer is swapped as the top answer. Always vote to use a well tested, performant, open source library over custom code which doesn't improve on it. Feb 26, 2014 at 18:53
  • 7
    Or in case you use BouncyCastle (org.bouncycastle:bcprov-jdk15on), you can use this class : org.bouncycastle.util.encoders.Hex, with this method : String toHexString(byte[] data) Mar 30, 2017 at 9:18
342

The method javax.xml.bind.DatatypeConverter.printHexBinary(), part of the Java Architecture for XML Binding (JAXB), was a convenient way to convert a byte[] to a hex string. The DatatypeConverter class also included many other useful data-manipulation methods.

In Java 8 and earlier, JAXB was part of the Java standard library. It was deprecated with Java 9 and removed with Java 11, as part of an effort to move all Java EE packages into their own libraries. It's a long story. Now, javax.xml.bind doesn't exist, and if you want to use JAXB, which contains DatatypeConverter, you'll need to install the JAXB API and JAXB Runtime from Maven.

Example usage:

byte bytes[] = {(byte)0, (byte)0, (byte)134, (byte)0, (byte)61};
String hex = javax.xml.bind.DatatypeConverter.printHexBinary(bytes);

Will result in:

000086003D

This answer the same as this one.

8
  • 13
    A good solution, though sadly not one that is valid in Android.
    – Kazriko
    Jul 2, 2014 at 0:28
  • @Kazriko maybe you want to read code.google.com/p/dalvik/wiki/JavaxPackages. It is a way to get javax classes into Android. But if you only want convert to hex, it isn't worth the trouble.
    – PhoneixS
    Jul 2, 2014 at 7:24
  • 16
    DatatypeConverter is no longer accessible as of JDK 9
    – pmcollins
    Oct 8, 2017 at 21:24
  • 3
    @PhoneixS It is still there, but not part of the default runtime (due to Java 9 modules).
    – Spotlight
    Dec 16, 2017 at 6:02
  • 2
    don't rely on javax.xml.bind, it compiles fine but can be not be found at runtime. if you do, be prepared to handle java.lang.NoClassDefFoundError
    – Dmitry
    May 14, 2018 at 22:50
269

Simplest solution, no external libs, no digits constants:

public static String byteArrayToHex(byte[] a) {
   StringBuilder sb = new StringBuilder(a.length * 2);
   for(byte b: a)
      sb.append(String.format("%02x", b));
   return sb.toString();
}
8
  • 25
    This is very slow, on average 1000 times slower (for 162 bytes long) than the one in the top response. Avoid using String.Format if performance matters.
    – pt123
    Jun 9, 2013 at 2:51
  • 11
    Maybe slow. It's good for things happening occasionally, such as login or similar. Jun 13, 2013 at 20:00
  • 44
    If it's slow, so what? In my use case it's just for a debug statement, so thanks for this code fragment. Nov 18, 2013 at 19:08
  • 11
    Reusing a library by including an extra JAR files of several dozens kB would not exactly be efficient if all you need is this function (on some platforms like Android, the whole Jar gets included in the end application). And sometimes shorter and more clear code is better when performance is not needed. May 8, 2014 at 14:28
  • 3
    @personne3000 maybe, but in that case you need stream support, not a single call feature. this one is easy to understand and remember, and therefore to maintain. Jun 12, 2014 at 17:35
121

Here are some common options ordered from simple (one-liner) to complex (huge library). If you are interested in performance, see the micro benchmarks below.

Option 1: Code snippet - Simple (only using JDK/Android)

Option 1a: BigInteger

One very simple solution is to use the BigInteger's hex representation:

new BigInteger(1, someByteArray).toString(16);

Note that since this handles numbers not arbitrary byte-strings it will omit leading zeros - this may or may not be what you want (e.g. 000AE3 vs 0AE3 for a 3 byte input). This is also very slow, about 100x slower compared to option 2.

Option 1b: String.format()

Using the %X placeholder, String.format() is able to encode most primitive types (short, int, long) to hex:

String.format("%X", ByteBuffer.wrap(eightByteArray).getLong());

Option 1c: Integer/Long (only 4/8 Byte Arrays)

If you exclusively have 4 bytes arrays you can use the toHexString method of the Integer class:

Integer.toHexString(ByteBuffer.wrap(fourByteArray).getInt());

The same works with 8 byte arrays and Long

Long.toHexString(ByteBuffer.wrap(eightByteArray).getLong());

Option 2: Code snippet - Advanced

Here is a full featured, copy & pasteable code snippet supporting upper/lowercase and endianness. It is optimized to minimize memory complexity and maximize performance and should be compatible with all modern Java versions (5+).

private static final char[] LOOKUP_TABLE_LOWER = new char[]{0x30, 0x31, 0x32, 0x33, 0x34, 0x35, 0x36, 0x37, 0x38, 0x39, 0x61, 0x62, 0x63, 0x64, 0x65, 0x66};
private static final char[] LOOKUP_TABLE_UPPER = new char[]{0x30, 0x31, 0x32, 0x33, 0x34, 0x35, 0x36, 0x37, 0x38, 0x39, 0x41, 0x42, 0x43, 0x44, 0x45, 0x46};
        
public static String encode(byte[] byteArray, boolean upperCase, ByteOrder byteOrder) {

    // our output size will be exactly 2x byte-array length
    final char[] buffer = new char[byteArray.length * 2];

    // choose lower or uppercase lookup table
    final char[] lookup = upperCase ? LOOKUP_TABLE_UPPER : LOOKUP_TABLE_LOWER;

    int index;
    for (int i = 0; i < byteArray.length; i++) {
        // for little endian we count from last to first
        index = (byteOrder == ByteOrder.BIG_ENDIAN) ? i : byteArray.length - i - 1;
        
        // extract the upper 4 bit and look up char (0-A)
        buffer[i << 1] = lookup[(byteArray[index] >> 4) & 0xF];
        // extract the lower 4 bit and look up char (0-A)
        buffer[(i << 1) + 1] = lookup[(byteArray[index] & 0xF)];
    }
    return new String(buffer);
}

public static String encode(byte[] byteArray) {
    return encode(byteArray, false, ByteOrder.BIG_ENDIAN);
}

The full source code with Apache v2 license and decoder can be found here.

Option 3: Using a small optimized library: bytes-java

While working on my previous project, I created this little toolkit for working with bytes in Java. It has no external dependencies and is compatible with Java 7+. It includes, among others, a very fast and well tested HEX en/decoder:

import at.favre.lib.bytes.Bytes;
...
Bytes.wrap(someByteArray).encodeHex()

You can check it out on Github: bytes-java.

Option 4: Apache Commons Codec

Of course there is the good 'ol commons codecs. (warning opinion ahead) While working on the project outlined above I analyzed the code and was quite disappointed; a lot of duplicate unorganized code, obsolete and exotic codecs probably only useful for very few and quite over engineered and slow implementations of popular codecs (specifically Base64). I therefore would make an informed decision if you want to use it or an alternative. Anyways, if you still want to use it, here is a code snippet:

import org.apache.commons.codec.binary.Hex;
...
Hex.encodeHexString(someByteArray));

Option 5: Google Guava

More often than not you already have Guava as a dependency. If so just use:

import com.google.common.io.BaseEncoding;
...
BaseEncoding.base16().lowerCase().encode(someByteArray);

Option 6: Spring Security

If you use the Spring framework with Spring Security you can use the following:

import org.springframework.security.crypto.codec.Hex
...
new String(Hex.encode(someByteArray));

Option 7: Bouncy Castle

If you already use the security framework Bouncy Castle you can use its Hex util:

import org.bouncycastle.util.encoders.Hex;
...
Hex.toHexString(someByteArray);

Not Really Option 8: Java 9+ Compatibility or 'Do Not Use JAXBs javax/xml/bind/DatatypeConverter'

In previous Java (8 and below) versions the Java code for JAXB was included as runtime dependency. Since Java 9 and Jigsaw modularisation your code cannot access other code outside of it's module without explicit declaration. So be aware if you get an exception like:

java.lang.NoClassDefFoundError: javax/xml/bind/JAXBException

when running on a JVM with Java 9+. If so then switch implementations to any of the alternatives above. See also this question.


Micro Benchmarks

Here are results from a simple JMH micro benchmark encoding byte arrays of different sizes. The values are operations per second, so higher is better. Note that micro benchmarks very often do not represent real world behavior, so take these results with a grain of salt.

| Name (ops/s)         |    16 byte |    32 byte |  128 byte | 0.95 MB |
|----------------------|-----------:|-----------:|----------:|--------:|
| Opt1: BigInteger     |  2,088,514 |  1,008,357 |   133,665 |       4 |
| Opt2/3: Bytes Lib    | 20,423,170 | 16,049,841 | 6,685,522 |     825 |
| Opt4: Apache Commons | 17,503,857 | 12,382,018 | 4,319,898 |     529 |
| Opt5: Guava          | 10,177,925 |  6,937,833 | 2,094,658 |     257 |
| Opt6: Spring         | 18,704,986 | 13,643,374 | 4,904,805 |     601 |
| Opt7: BC             |  7,501,666 |  3,674,422 | 1,077,236 |     152 |
| Opt8: JAX-B          | 13,497,736 |  8,312,834 | 2,590,940 |     346 |

Specs: JDK 8u202, i7-7700K, Win10, 24GB Ram. See the full benchmark here.

66

A Guava solution, for completeness:

import com.google.common.io.BaseEncoding;
...
byte[] bytes = "Hello world".getBytes(StandardCharsets.UTF_8);
final String hex = BaseEncoding.base16().lowerCase().encode(bytes);

Now hex is "48656c6c6f20776f726c64".

2
  • In Guava you can also use new HashCode(bytes).toString().
    – mfulton26
    Jul 3, 2017 at 18:48
  • 2
    As of Guava 22.0 it is HashCode.fromBytes(checksum).toString()
    – Devstr
    Mar 2, 2018 at 15:55
47

This simple oneliner works for me
String result = new BigInteger(1, inputBytes).toString(16);
EDIT - Using this will remove the leading zeros, but hey worked for my use-case. Thanks @Voicu for pointing it out

2
  • 60
    This oneliner drops leading zero bytes.
    – Voicu
    Jan 17, 2013 at 0:21
  • @Voicu ... And it will add a leading zero 50% of the time. Feb 26, 2014 at 20:48
27

I would use something like this for fixed length, like hashes:

md5sum = String.format("%032x", new BigInteger(1, md.digest()));
1
  • 2
    Thank you, this is so pithy and appropriate. May 24, 2019 at 21:23
25

Use DataTypeConverter classjavax.xml.bind.DataTypeConverter

String hexString = DatatypeConverter.printHexBinary(bytes[] raw);

1
22

I found three different ways here: http://www.rgagnon.com/javadetails/java-0596.html

The most elegant one, as he also notes, I think is this one:

static final String HEXES = "0123456789ABCDEF";
public static String getHex( byte [] raw ) {
    if ( raw == null ) {
        return null;
    }
    final StringBuilder hex = new StringBuilder( 2 * raw.length );
    for ( final byte b : raw ) {
        hex.append(HEXES.charAt((b & 0xF0) >> 4))
            .append(HEXES.charAt((b & 0x0F)));
    }
    return hex.toString();
}
3
  • Other methods were running on my 64 byte sample in 5ms, this one runs in 0ms. Probably best for lack of any other String functions like format. May 10, 2013 at 2:58
  • 1
    if (raw == null) return null is not fail fast. Why would you ever use a null key? Feb 26, 2014 at 20:50
  • I suppose it's a habit to input validate. In this case, we prevent any Null reference exception, and leave it up to the caller to handle bad data. Feb 27, 2014 at 21:10
16

At the minor cost of storing the lookup table this implementation is simple and very fast.

 private static final char[] BYTE2HEX=(
    "000102030405060708090A0B0C0D0E0F"+
    "101112131415161718191A1B1C1D1E1F"+
    "202122232425262728292A2B2C2D2E2F"+
    "303132333435363738393A3B3C3D3E3F"+
    "404142434445464748494A4B4C4D4E4F"+
    "505152535455565758595A5B5C5D5E5F"+
    "606162636465666768696A6B6C6D6E6F"+
    "707172737475767778797A7B7C7D7E7F"+
    "808182838485868788898A8B8C8D8E8F"+
    "909192939495969798999A9B9C9D9E9F"+
    "A0A1A2A3A4A5A6A7A8A9AAABACADAEAF"+
    "B0B1B2B3B4B5B6B7B8B9BABBBCBDBEBF"+
    "C0C1C2C3C4C5C6C7C8C9CACBCCCDCECF"+
    "D0D1D2D3D4D5D6D7D8D9DADBDCDDDEDF"+
    "E0E1E2E3E4E5E6E7E8E9EAEBECEDEEEF"+
    "F0F1F2F3F4F5F6F7F8F9FAFBFCFDFEFF").toCharArray();
   ; 

  public static String getHexString(byte[] bytes) {
    final int len=bytes.length;
    final char[] chars=new char[len<<1];
    int hexIndex;
    int idx=0;
    int ofs=0;
    while (ofs<len) {
      hexIndex=(bytes[ofs++] & 0xFF)<<1;
      chars[idx++]=BYTE2HEX[hexIndex++];
      chars[idx++]=BYTE2HEX[hexIndex];
    }
    return new String(chars);
  }
4
  • 6
    Why not initialize the BYTE2HEX array with a simple for cycle?
    – icza
    Jul 18, 2014 at 10:07
  • @icza Is that even possible with a static final (aka constant) field?
    – nevelis
    Jul 6, 2018 at 20:44
  • 1
    @nevelis It can be assigned in a static { } block. Jul 13, 2018 at 6:26
  • 1
    @icza because its faster to hardcode a lookup table than to generate it. Here memory complexity is traded with time complexity, ie. needs more memory but faster (every so slightly on both ends) Oct 26, 2019 at 9:37
13

Java 17 finally contains HexFormat class so you can simply do:

HexFormat.of().formatHex(bytes);

It supports configuration as lowercase/uppercase, delimiters, prefix, suffix etc.

1
  • 1
    Finally, something that doesn't need an external library or is a broken solution
    – Diamond
    Feb 8 at 1:47
10

We don't need to use any external library or to write code based on loops and constants.
Is enough just this:

byte[] theValue = .....
String hexaString = new BigInteger(1, theValue).toString(16);
1
  • 2
    This is very similar to everconfusedGuy's Answer.
    – Scratte
    Apr 10, 2020 at 20:04
8

How about this?

    String byteToHex(final byte[] hash)
    {
        Formatter formatter = new Formatter();
        for (byte b : hash)
        {
            formatter.format("%02x", b);
        }
        String result = formatter.toString();
        formatter.close();
        return result;
    }
8

HexFormat was added in Java 17:

String hex = HexFormat.of().formatHex(array);
5

Here's yet another method using Streams:

private static String toHexString(byte[] bytes) {
    return IntStream.range(0, bytes.length)
    .mapToObj(i -> String.format("%02X", bytes[i]))
    .collect(Collectors.joining());
}
5
public static String toHexString(byte[] bytes) {

    StringBuilder sb = new StringBuilder();

    if (bytes != null) 
        for (byte b:bytes) {

            final String hexString = Integer.toHexString(b & 0xff);

            if(hexString.length()==1)
                sb.append('0');

            sb.append(hexString);//.append(' ');
        }

      return sb.toString();//.toUpperCase();
}

To use DatatypeConverter:

public String toHexString(byte... bytes) {

    return Optional.ofNullable(bytes)
            .filter(bs->bs.length>0)
            .map(DatatypeConverter::printHexBinary)
            .map(str->IntStream.range(0, str.length())
                    .filter(i->(i%2)==0)        // take every second index
                    .mapToObj(i->"0x" + str.substring(i, i+2))
                    .collect(Collectors.joining(" ")))
            .orElse("");
}
4

Adding a utility jar for simple function is not good option. Instead assemble your own utility classes. following is possible faster implementation.

public class ByteHex {

    public static int hexToByte(char ch) {
        if ('0' <= ch && ch <= '9') return ch - '0';
        if ('A' <= ch && ch <= 'F') return ch - 'A' + 10;
        if ('a' <= ch && ch <= 'f') return ch - 'a' + 10;
        return -1;
    }

    private static final String[] byteToHexTable = new String[]
    {
        "00", "01", "02", "03", "04", "05", "06", "07", "08", "09", "0A", "0B", "0C", "0D", "0E", "0F",
        "10", "11", "12", "13", "14", "15", "16", "17", "18", "19", "1A", "1B", "1C", "1D", "1E", "1F",
        "20", "21", "22", "23", "24", "25", "26", "27", "28", "29", "2A", "2B", "2C", "2D", "2E", "2F",
        "30", "31", "32", "33", "34", "35", "36", "37", "38", "39", "3A", "3B", "3C", "3D", "3E", "3F",
        "40", "41", "42", "43", "44", "45", "46", "47", "48", "49", "4A", "4B", "4C", "4D", "4E", "4F",
        "50", "51", "52", "53", "54", "55", "56", "57", "58", "59", "5A", "5B", "5C", "5D", "5E", "5F",
        "60", "61", "62", "63", "64", "65", "66", "67", "68", "69", "6A", "6B", "6C", "6D", "6E", "6F",
        "70", "71", "72", "73", "74", "75", "76", "77", "78", "79", "7A", "7B", "7C", "7D", "7E", "7F",
        "80", "81", "82", "83", "84", "85", "86", "87", "88", "89", "8A", "8B", "8C", "8D", "8E", "8F",
        "90", "91", "92", "93", "94", "95", "96", "97", "98", "99", "9A", "9B", "9C", "9D", "9E", "9F",
        "A0", "A1", "A2", "A3", "A4", "A5", "A6", "A7", "A8", "A9", "AA", "AB", "AC", "AD", "AE", "AF",
        "B0", "B1", "B2", "B3", "B4", "B5", "B6", "B7", "B8", "B9", "BA", "BB", "BC", "BD", "BE", "BF",
        "C0", "C1", "C2", "C3", "C4", "C5", "C6", "C7", "C8", "C9", "CA", "CB", "CC", "CD", "CE", "CF",
        "D0", "D1", "D2", "D3", "D4", "D5", "D6", "D7", "D8", "D9", "DA", "DB", "DC", "DD", "DE", "DF",
        "E0", "E1", "E2", "E3", "E4", "E5", "E6", "E7", "E8", "E9", "EA", "EB", "EC", "ED", "EE", "EF",
        "F0", "F1", "F2", "F3", "F4", "F5", "F6", "F7", "F8", "F9", "FA", "FB", "FC", "FD", "FE", "FF"
    };

    private static final String[] byteToHexTableLowerCase = new String[]
    {
        "00", "01", "02", "03", "04", "05", "06", "07", "08", "09", "0a", "0b", "0c", "0d", "0e", "0f",
        "10", "11", "12", "13", "14", "15", "16", "17", "18", "19", "1a", "1b", "1c", "1d", "1e", "1f",
        "20", "21", "22", "23", "24", "25", "26", "27", "28", "29", "2a", "2b", "2c", "2d", "2e", "2f",
        "30", "31", "32", "33", "34", "35", "36", "37", "38", "39", "3a", "3b", "3c", "3d", "3e", "3f",
        "40", "41", "42", "43", "44", "45", "46", "47", "48", "49", "4a", "4b", "4c", "4d", "4e", "4f",
        "50", "51", "52", "53", "54", "55", "56", "57", "58", "59", "5a", "5b", "5c", "5d", "5e", "5f",
        "60", "61", "62", "63", "64", "65", "66", "67", "68", "69", "6a", "6b", "6c", "6d", "6e", "6f",
        "70", "71", "72", "73", "74", "75", "76", "77", "78", "79", "7a", "7b", "7c", "7d", "7e", "7f",
        "80", "81", "82", "83", "84", "85", "86", "87", "88", "89", "8a", "8b", "8c", "8d", "8e", "8f",
        "90", "91", "92", "93", "94", "95", "96", "97", "98", "99", "9a", "9b", "9c", "9d", "9e", "9f",
        "a0", "a1", "a2", "a3", "a4", "a5", "a6", "a7", "a8", "a9", "aa", "ab", "ac", "ad", "ae", "af",
        "b0", "b1", "b2", "b3", "b4", "b5", "b6", "b7", "b8", "b9", "ba", "bb", "bc", "bd", "be", "bf",
        "c0", "c1", "c2", "c3", "c4", "c5", "c6", "c7", "c8", "c9", "ca", "cb", "cc", "cd", "ce", "cf",
        "d0", "d1", "d2", "d3", "d4", "d5", "d6", "d7", "d8", "d9", "da", "db", "dc", "dd", "de", "df",
        "e0", "e1", "e2", "e3", "e4", "e5", "e6", "e7", "e8", "e9", "ea", "eb", "ec", "ed", "ee", "ef",
        "f0", "f1", "f2", "f3", "f4", "f5", "f6", "f7", "f8", "f9", "fa", "fb", "fc", "fd", "fe", "ff"
    };

    public static String byteToHex(byte b){
        return byteToHexTable[b & 0xFF];
    }

    public static String byteToHex(byte[] bytes){
        if(bytes == null) return null;
        StringBuilder sb = new StringBuilder(bytes.length*2);
        for(byte b : bytes) sb.append(byteToHexTable[b & 0xFF]);
        return sb.toString();
    }

    public static String byteToHex(short[] bytes){
        StringBuilder sb = new StringBuilder(bytes.length*2);
        for(short b : bytes) sb.append(byteToHexTable[((byte)b) & 0xFF]);
        return sb.toString();
    }

    public static String byteToHexLowerCase(byte[] bytes){
        StringBuilder sb = new StringBuilder(bytes.length*2);
        for(byte b : bytes) sb.append(byteToHexTableLowerCase[b & 0xFF]);
        return sb.toString();
    }

    public static byte[] hexToByte(String hexString) {
        if(hexString == null) return null;
        byte[] byteArray = new byte[hexString.length() / 2];
        for (int i = 0; i < hexString.length(); i += 2) {
            byteArray[i / 2] = (byte) (hexToByte(hexString.charAt(i)) * 16 + hexToByte(hexString.charAt(i+1)));
        }
        return byteArray;
    }

    public static byte hexPairToByte(char ch1, char ch2) {
        return (byte) (hexToByte(ch1) * 16 + hexToByte(ch2));
    }


}
0
3

If you're using the Spring Security framework, you can use:

import org.springframework.security.crypto.codec.Hex

final String testString = "Test String";
final byte[] byteArray = testString.getBytes();
System.out.println(Hex.encode(byteArray));
2

I prefer to use this:

final protected static char[] hexArray = "0123456789ABCDEF".toCharArray();
public static String bytesToHex(byte[] bytes, int offset, int count) {
    char[] hexChars = new char[count * 2];
    for ( int j = 0; j < count; j++ ) {
        int v = bytes[j+offset] & 0xFF;
        hexChars[j * 2] = hexArray[v >>> 4];
        hexChars[j * 2 + 1] = hexArray[v & 0x0F];
    }
    return new String(hexChars);
}

It is slightly more flexible adaptation of the accepted answer. Personally, I keep both the accepted answer and this overload along with it, usable in more contexts.

1
  • The original question was for byte[] to String. Look hex to bytes[] or ask a different question, @NonExistent.
    – Bamaco
    Aug 25, 2014 at 13:46
2

I usually use the following method for debuf statement, but i don't know if it is the best way of doing it or not

private static String digits = "0123456789abcdef";

public static String toHex(byte[] data){
    StringBuffer buf = new StringBuffer();
    for (int i = 0; i != data.length; i++)
    {
        int v = data[i] & 0xff;
        buf.append(digits.charAt(v >> 4));
        buf.append(digits.charAt(v & 0xf));
    }
    return buf.toString();
}
1
  • 2
    If your debuffer has a bad day, try cluing in StringBuilder instantiation with a number of chars to support: StringBuilder buf = new StringBuilder(data.length * 2);.
    – greybeard
    Feb 13, 2016 at 18:27
2

Ok so there are a bunch of ways to do this, but if you decide to use a library I would suggest poking about in your project to see if something has been implemented in a library that is already part of your project before adding a new library just to do this. For example if you don't already have

org.apache.commons.codec.binary.Hex

maybe you do have...

org.apache.xerces.impl.dv.util.HexBin

2

Recently I had to implement a Hex converter to dump the byte stream into the log in Hex format. Initially I did it using Hex.encodeHex which has been already discussed in here.

But If you want to represent the byte array in a very presentable/readable way io.netty.buffer library could be a great use as it prints out the Hex as well the strings in it eliminating the non-printable characters.

Requirement was something like,

0010   56 56 09 35 32 f0 b2 00 50 4c 45 41 53 45 20 52   VV.52...PLEASE R
0020   45 2d 45 4e 54 45 52 20 4c 41 53 54 20 54 52 41   E-ENTER LAST TRA
0030   4e 53 41 43 54 49 4f 4e 00 04                     NSACTION..

The shortest way to do the same in a more presentable way using io.netty.buffer is

import io.netty.buffer.ByteBuf;
import io.netty.buffer.ByteBufUtil;
import io.netty.buffer.Unpooled;

void hexDump(byte[] buf) {
    ByteBuf byteBuf = Unpooled.wrappedBuffer(buf);
    log.trace("Bytes received (Hex)\n" + ByteBufUtil.prettyHexDump(byteBuf.slice()));
}

if you are using maven, include the below dependency in the pom.xml (check for the latest version in the netty page)

<dependency>
    <groupId>io.netty</groupId>
    <artifactId>netty-buffer</artifactId>
    <version>4.1.68.Final</version>
</dependency>

output was:

         +-------------------------------------------------+
         |  0  1  2  3  4  5  6  7  8  9  a  b  c  d  e  f |
+--------+-------------------------------------------------+----------------+
|00000010| 40 40 b3 f3 80 f3 80 f3 80 f1 48 f1 41 f1 4e f1 |@@........H.A.N.|
|00000020| 47 f1 49 f1 4e f1 47 b5 f1 52 f1 4f f1 43 f1 4b |G.I.N.G..R.O.C.K|
|00000030| f3 80 f3 80 41 b4 40 40 f3 80 f3 80 40 f3 80 04 |....A.@@....@...|
+--------+-------------------------------------------------+----------------+

For your reference, the long way (may not be the most efficient) using the discussed methods in the answers is,

public static String hexDump(byte[] buf) throws DecoderException
{
    ByteBuffer byteBuf = ByteBuffer.wrap(buf);
    char[] result = Hex.encodeHex(byteBuf);

    String bin = new String(result).toUpperCase();
    String str = new String(Hex.decodeHex(bin), StandardCharsets.UTF_8);

    str = str.replaceAll("[^!-~]", ".");
    StringBuilder out = new StringBuilder();
    int bytes_per_line = 16;

    for (int pos = 0; pos < str.length(); pos += bytes_per_line) {
        out.append(String.format("%04X   ", pos));
        if (2 * (pos + bytes_per_line) >= bin.length()) {
            out.append(String.format("%-" + 2 * bytes_per_line + "s", bin.substring(2 * pos)).replaceAll("..", "$0 "));
        } else {
            out.append(bin.substring(2 * pos, 2 * (pos + bytes_per_line)).replaceAll("..", "$0 "));
        }
        out.append("   ");
        if (pos + bytes_per_line > str.length()) {
            out.append(str.substring(pos));

        } else {
            out.append(str.substring(pos, pos + bytes_per_line));
        }
        out.append("\n");
    }

    return out.toString();
}
1

A small variant of the solution proposed by @maybewecouldstealavan, which lets you visually bundle N bytes together in the output hex string:

 final static char[] HEX_ARRAY = "0123456789ABCDEF".toCharArray();
 final static char BUNDLE_SEP = ' ';

public static String bytesToHexString(byte[] bytes, int bundleSize /*[bytes]*/]) {
        char[] hexChars = new char[(bytes.length * 2) + (bytes.length / bundleSize)];
        for (int j = 0, k = 1; j < bytes.length; j++, k++) {
                int v = bytes[j] & 0xFF;
                int start = (j * 2) + j/bundleSize;

                hexChars[start] = HEX_ARRAY[v >>> 4];
                hexChars[start + 1] = HEX_ARRAY[v & 0x0F];

                if ((k % bundleSize) == 0) {
                        hexChars[start + 2] = BUNDLE_SEP;
                }   
        }   
        return new String(hexChars).trim();    
}

That is:

bytesToHexString("..DOOM..".toCharArray().getBytes(), 2);
2E2E 444F 4F4D 2E2E

bytesToHexString("..DOOM..".toCharArray().getBytes(), 4);
2E2E444F 4F4D2E2E
1

Can't find any solution on this page that doesn't

  1. Use a loop
  2. Use javax.xml.bind.DatatypeConverter which compiles fine but often throws java.lang.NoClassDefFoundError at runtime.

Here's a solution which doesn't have the flaws above(no promises mine doesn't have other flaws though)

import java.math.BigInteger;

import static java.lang.System.out;
public final class App2 {
    // | proposed solution.
    public static String encode(byte[] bytes) {          
        final int length = bytes.length;

        // | BigInteger constructor throws if it is given an empty array.
        if (length == 0) {
            return "00";
        }

        final int evenLength = (int)(2 * Math.ceil(length / 2.0));
        final String format = "%0" + evenLength + "x";         
        final String result = String.format (format, new BigInteger(bytes));

        return result;
    }

    public static void main(String[] args) throws Exception {
        // 00
        out.println(encode(new byte[] {})); 

        // 01
        out.println(encode(new byte[] {1})); 

        //203040
        out.println(encode(new byte[] {0x20, 0x30, 0x40})); 

        // 416c6c20796f75722062617365206172652062656c6f6e6720746f2075732e
        out.println(encode("All your base are belong to us.".getBytes()));
    }
}   

I couldn't get this under 62 opcodes, but if you can live without 0 padding in case the first byte is less than 0x10, then the following solution only uses 23 opcodes. Really shows how "easy to implement yourself" solutions like "pad with a zero if string length is odd" can get pretty expensive if a native implementation is not already available(or in this case, if BigInteger had an option to prefix with zeros in toString).

public static String encode(byte[] bytes) {          
    final int length = bytes.length;

    // | BigInteger constructor throws if it is given an empty array.
    if (length == 0) {
        return "00";
    }

    return new BigInteger(bytes).toString(16);
}
1

My solution is based on maybeWeCouldStealAVan's solution, but does not rely on any additionaly allocated lookup tables. It does not uses any 'int-to-char' casts hacks (actually, Character.forDigit() does it, performing some comparison to check what the digit truly is) and thus might be a bit slower. Please feel free to use it wherever you want. Cheers.

public static String bytesToHex(final byte[] bytes)
{
    final int numBytes = bytes.length;
    final char[] container = new char[numBytes * 2];

    for (int i = 0; i < numBytes; i++)
    {
        final int b = bytes[i] & 0xFF;

        container[i * 2] = Character.forDigit(b >>> 4, 0x10);
        container[i * 2 + 1] = Character.forDigit(b & 0xF, 0x10);
    }

    return new String(container);
}
1

Here is a java.util.Base64-like implementation, isn't it pretty?

import java.util.Arrays;

public class Base16/* a.k.a. Hex */ {
    public static class Encoder{
        private static char[] toLowerHex={'0','1','2','3','4','5','6','7','8','9','a','b','c','d','e','f'};
        private static char[] toUpperHex={'0','1','2','3','4','5','6','7','8','9','A','B','C','D','E','F'};
        private boolean upper;
        public Encoder(boolean upper) {
            this.upper=upper;
        }
        public String encode(byte[] data){
            char[] value=new char[data.length*2];
            char[] toHex=upper?toUpperHex:toLowerHex;
            for(int i=0,j=0; i<data.length; i++){
                int octet=data[i]&0xFF;
                value[j++]=toHex[octet>>4];
                value[j++]=toHex[octet&0xF];
            }
            return new String(value);
        }
        static final Encoder LOWER_CASE=new Encoder(false);
        static final Encoder UPPER_CASE=new Encoder(true);
    }
    public static Encoder getEncoder(){
        return Encoder.LOWER_CASE;
    }
    public static Encoder getUpperEncoder(){
        return Encoder.UPPER_CASE;
    }

    public static class Decoder{
      private static int maxIndex=102;
      private static int[] toIndex;
      static {
        toIndex=new int[maxIndex+1];
        Arrays.fill(toIndex, -1);
        char[] chars={'0','1','2','3','4','5','6','7','8','9','A','B','C','D','E','F','a','b','c','d','e','f'};
        for(int i=0; i<chars.length; i++) {
          toIndex[(int)chars[i]]=i;
        }
      }
      public Decoder() {
      }
      public byte[] decode(String str) {
          char[] value=str.toCharArray();
          int start=0;
          if(value.length>2 && value[0]=='0' && (value[1]=='x' || value[1]=='X')) {
            start=2;
          }
          int byteLength=(value.length-start)/2; // ignore trailing odd char if exists
          byte[] data=new byte[byteLength];
          for(int i=start,j=0;i<value.length;i+=2,j++){
              int i1;
              int i2;
              char c1=value[i];
              char c2=value[i+1];
              if(c1>maxIndex || (i1=toIndex[(int)c1])<0 || c2>maxIndex || (i2=toIndex[(int)c2])<0) {
                throw new IllegalArgumentException("Invalid character at "+i);
              }
              data[j]=(byte)((i1<<4)+i2);
          }
          return data;
      }
      static final Decoder IGNORE_CASE=new Decoder();
  }
  public static Decoder getDecoder(){
      return Decoder.IGNORE_CASE;
  }
}
0

If you're looking for a byte array exactly like this for python, I have converted this Java implementation into python.

class ByteArray:

@classmethod
def char(cls, args=[]):
    cls.hexArray = "0123456789ABCDEF".encode('utf-16')
    j = 0
    length = (cls.hexArray)

    if j < length:
        v = j & 0xFF
        hexChars = [None, None]
        hexChars[j * 2] = str( cls.hexArray) + str(v)
        hexChars[j * 2 + 1] = str(cls.hexArray) + str(v) + str(0x0F)
        # Use if you want...
        #hexChars.pop()

    return str(hexChars)

array = ByteArray()
print array.char(args=[])
0
0
  public static byte[] hexStringToByteArray(String s) {
    int len = s.length();
    byte[] data = new byte[len / 2];
    for (int i = 0; i < len; i += 2) {
      data[i / 2] = (byte) ((Character.digit(s.charAt(i), 16) << 4)
        + Character.digit(s.charAt(i+1), 16));
    }
  return data;
  } 
0
private static String bytesToHexString(byte[] bytes, int length) {
        if (bytes == null || length == 0) return null;

        StringBuilder ret = new StringBuilder(2*length);

        for (int i = 0 ; i < length ; i++) {
            int b;

            b = 0x0f & (bytes[i] >> 4);
            ret.append("0123456789abcdef".charAt(b));

            b = 0x0f & bytes[i];
            ret.append("0123456789abcdef".charAt(b));
        }

        return ret.toString();
    }

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