Is there a way to declare an unsigned int in Java?

Or the question may be framed as this as well: What is the Java equivalent of unsigned?

Just to tell you the context I was looking at Java's implementation of String.hashcode(). I wanted to test the possibility of collision if the integer were 32 unsigned int.


11 Answers 11


Java does not have a datatype for unsigned integers.

You can define a long instead of an int if you need to store large values.

You can also use a signed integer as if it were unsigned. The benefit of two's complement representation is that most operations (such as addition, subtraction, multiplication, and left shift) are identical on a binary level for signed and unsigned integers. A few operations (division, right shift, comparison, and casting), however, are different. As of Java SE 8, new methods in the Integer class allow you to fully use the int data type to perform unsigned arithmetic:

In Java SE 8 and later, you can use the int data type to represent an unsigned 32-bit integer, which has a minimum value of 0 and a maximum value of 2^32-1. Use the Integer class to use int data type as an unsigned integer. Static methods like compareUnsigned, divideUnsigned etc have been added to the Integer class to support the arithmetic operations for unsigned integers.

Note that int variables are still signed when declared but unsigned arithmetic is now possible by using those methods in the Integer class.

  • 11
    To be fair, for many projects the technical requirements aren't that strict and you can indeed afford to "waste" memory like that. – Simeon Visser Jun 18 '13 at 7:37
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    I know, I also understand the original purpose of Java. But for example Smartphones do not dispose with extra memory. And they usually use Java, as far as I know. But well, I don't want to start a war between Java programers and the others. – Tomáš Zato - Reinstate Monica Jun 18 '13 at 8:24
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    To me this isn't just a case of wasting money. When you work on a bit level, unsigned is simply easier to work with – Cruncher Sep 19 '13 at 14:30
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    As of Java 8, this is no longer true. In Java SE 8 and later, you can use the int data type to represent an unsigned 32-bit integer, which has a minimum value of 0 and a maximum value of 2^32-1. - see docs.oracle.com/javase/tutorial/java/nutsandbolts/… and docs.oracle.com/javase/8/docs/api/java/lang/Integer.html – 8bitjunkie Jan 5 '15 at 11:26
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    @7SpecialGems: I have updated the answer to include that information. That being said, it's not possible to declare unsigned integers or exclude negative values, it's only possible to use an int as if it were unsigned by using various methods. – Simeon Visser Jan 12 '15 at 22:59

There is an API for unsigned Integer and Long in Java 8!

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    @stas I'm having difficulty in understanding the use and big deal over having the ability to use unsigned datatypes. From the various sources online I read from, it seems like it revolves around just widening the maximum value, and the implicit by nature guarantee that it's a positive number. Is my understanding correct, or are there other major reasons? Also, now that the Integer class in Java 8 allows one to use unsigned int, is the difference between just in space and speed (since in C/C++ they're primitive, while in Java, it's a whole object wrapper) – Abdul Aug 17 '16 at 23:42
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    @Abdul - when you work at bit level (usually because you are interfacing with hardware) you need to values to behave in a certain way. ie - roll over after 11111111 to 00000000 etc. Using signed in place of unsigned can break CRC calculations etc. It's not a show stopper, just wasted time. – Lorne K Aug 25 '16 at 15:21
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    @Lorne K: in Java, ints roll over, even if they are signed. It’s C/C++ where unsigned rolls over, but signed causes “Undefined Behavior” on overflow. If “rolling over” is your only concern, you don’t need unsigned. I guess, that’s why CRC routines, etc. work in Java without extra efforts. And that’s why the new API only adds parsing, formatting, comparisons, divide and remainder. All other operations, namely all bit manipulations, but also addition, subtraction, multiplication, etc. are doing the right thing anyway. – Holger Jan 9 '17 at 18:52
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    @Ciprian Tomoiaga: for adding with rollover, the bit patterns of the input and the result do not depend on whether you interpret it as signed number or unsigned number. If you have patience, you may try it with all 2⁶⁵ combinations… – Holger Mar 20 '17 at 9:58
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    @Holger thanks for the explanation ! Indeed, it turns out that's why we actually use 2's complement. I did try it with some 2^8 combinations ^^ – Ciprian Tomoiagă Mar 20 '17 at 10:20

Whether a value in an int is signed or unsigned depends on how the bits are interpreted - Java interprets bits as a signed value (it doesn't have unsigned primitives).

If you have an int that you want to interpret as an unsigned value (e.g. you read an int from a DataInputStream that you know should be interpreted as an unsigned value) then you can do the following trick.

int fourBytesIJustRead = someObject.getInt();
long unsignedValue = fourBytesIJustRead & 0xffffffffL;

Note, that it is important that the hex literal is a long literal, not an int literal - hence the 'L' at the end.

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    For me this is the best answer... My data comes from an NFC card UID, which can have 4 or 8 bytes... In the case of 4 bytes I needed to cast it to an unsigned int, and I couldn't use ByteBuffer.getLong because it was not 64-bit data. Thanks. – Loudenvier May 8 '14 at 1:40
  • Why does it need to be a long. Can't you just do 0xFFFFFF and keep the int? – Displee Feb 10 '20 at 14:09

We needed unsigned numbers to model MySQL's unsigned TINYINT, SMALLINT, INT, BIGINT in jOOQ, which is why we have created jOOU, a minimalistic library offering wrapper types for unsigned integer numbers in Java. Example:

import static org.joou.Unsigned.*;

// and then...
UByte    b = ubyte(1);
UShort   s = ushort(1);
UInteger i = uint(1);
ULong    l = ulong(1);

All of these types extend java.lang.Number and can be converted into higher-order primitive types and BigInteger. Hope this helps.

(Disclaimer: I work for the company behind these libraries)

  • This sounds very convenient! Thanks for mentioning. :) – Lucas Sousa Nov 3 '19 at 4:53

For unsigned numbers you can use these classes from Guava library:

They support various operations:

  • plus
  • minus
  • times
  • mod
  • dividedBy

The thing that seems missing at the moment are byte shift operators. If you need those you can use BigInteger from Java.


Use char for 16 bit unsigned integers.


There are good answers here, but I don’t see any demonstrations of bitwise operations. Like Visser (the currently accepted answer) says, Java signs integers by default (Java 8 has unsigned integers, but I have never used them). Without further ado, let‘s do it...

RFC 868 Example

What happens if you need to write an unsigned integer to IO? Practical example is when you want to output the time according to RFC 868. This requires a 32-bit, big-endian, unsigned integer that encodes the number of seconds since 12:00 A.M. January 1, 1900. How would you encode this?

Make your own unsigned 32-bit integer like this:

Declare a byte array of 4 bytes (32 bits)

Byte my32BitUnsignedInteger[] = new Byte[4] // represents the time (s)

This initializes the array, see Are byte arrays initialised to zero in Java?. Now you have to fill each byte in the array with information in the big-endian order (or little-endian if you want to wreck havoc). Assuming you have a long containing the time (long integers are 64 bits long in Java) called secondsSince1900 (Which only utilizes the first 32 bits worth, and you‘ve handled the fact that Date references 12:00 A.M. January 1, 1970), then you can use the logical AND to extract bits from it and shift those bits into positions (digits) that will not be ignored when coersed into a Byte, and in big-endian order.

my32BitUnsignedInteger[0] = (byte) ((secondsSince1900 & 0x00000000FF000000L) >> 24); // first byte of array contains highest significant bits, then shift these extracted FF bits to first two positions in preparation for coersion to Byte (which only adopts the first 8 bits)
my32BitUnsignedInteger[1] = (byte) ((secondsSince1900 & 0x0000000000FF0000L) >> 16);
my32BitUnsignedInteger[2] = (byte) ((secondsSince1900 & 0x000000000000FF00L) >> 8);
my32BitUnsignedInteger[3] = (byte) ((secondsSince1900 & 0x00000000000000FFL); // no shift needed

Our my32BitUnsignedInteger is now equivalent to an unsigned 32-bit, big-endian integer that adheres to the RCF 868 standard. Yes, the long datatype is signed, but we ignored that fact, because we assumed that the secondsSince1900 only used the lower 32 bits). Because of coersing the long into a byte, all bits higher than 2^7 (first two digits in hex) will be ignored.

Source referenced: Java Network Programming, 4th Edition.

  • Is this the java implementation of a new array? Byte my32BitUnsignedInteger[] = new Byte[4] // represents the time (s) This is just a little 'huh' for me. I remember you were supposed to do this Byte[] my32BitUnsignedInteger = new Byte[4] Correct me if I am wrong. – Yolomep Aug 2 '20 at 1:47
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    @Yolomep Yes, it is Java syntax. Appending brackets to the type or name is fine. – Jonathan Komar Aug 2 '20 at 5:20
  • Wow. I didn't know that. I thought that kind of array declaration was only for c++. – Yolomep Aug 2 '20 at 21:55
  • Your Bytes are the boxed classes. You want to use byte[] array = new byte[4] – Antti Haapala Sep 24 '20 at 10:29

Perhaps this is what you meant?

long getUnsigned(int signed) {
    return signed >= 0 ? signed : 2 * (long) Integer.MAX_VALUE + 2 + signed;
  • getUnsigned(0) → 0
  • getUnsigned(1) → 1
  • getUnsigned(Integer.MAX_VALUE) → 2147483647
  • getUnsigned(Integer.MIN_VALUE) → 2147483648
  • getUnsigned(Integer.MIN_VALUE + 1) → 2147483649
  • You're sacrificing a zillionth of a second of performance time for lazy typing with ternary operators instead of if statements. Not good. (kidding) – ytpillai Apr 5 '16 at 2:37
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    Do you really think, 2 * (long) Integer.MAX_VALUE + 2 is easier to understand than 0x1_0000_0000L? In that regard, why not simply return signed & 0xFFFF_FFFFL;? – Holger Jan 9 '17 at 18:58

It seems that you can handle the signing problem by doing a "logical AND" on the values before you use them:

Example (Value of byte[] header[0] is 0x86 ):

System.out.println("Integer "+(int)header[0]+" = "+((int)header[0]&0xff));


Integer -122 = 134

Just made this piece of code, wich converts "this.altura" from negative to positive number. Hope this helps someone in need

       if(this.altura < 0){    

                        String aux = Integer.toString(this.altura);
                        char aux2[] = aux.toCharArray();
                        aux = "";
                        for(int con = 1; con < aux2.length; con++){
                            aux += aux2[con];
                        this.altura = Integer.parseInt(aux);
                        System.out.println("New Value: " + this.altura);

You can use the Math.abs(number) function. It returns a positive number.

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    nitpick: not if you pass in MIN_VALUE – Dennis Meng Sep 11 '13 at 15:45
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    @kyo722 I can't imagine that this will return a positive value in the range of unsigned primitives. – Florian R. Klein Jan 21 '14 at 16:04
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    nitpick #2: not if you pass in 0 – genisage Jan 22 '15 at 21:07

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