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Why doesn't Java include support for unsigned integers?

It seems to me to be an odd omission, given that they allow one to write code that is less likely to produce overflows on unexpectedly large input.

Furthermore, using unsigned integers can be a form of self-documentation, since they indicate that the value which the unsigned int was intended to hold is never supposed to be negative.

Lastly, in some cases, unsigned integers can be more efficient for certain operations, such as division.

What's the downside to including these?

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I don't know but it annoys the hell out of me; for example it is much harder to write network code this way. – Tamas Czinege Jan 10 '09 at 5:35
I wish there were only two types in the language/database/... world: number and string :) – Liao Jan 27 '10 at 4:51
Writing network code isn't much harder at all. BTW InputStream.read(), returns an unsigned byte, not a signed one for example so the network example is a confusion IMHO. Its only confusing is you asume that writing a signed value is any different to writing an unsigned one. i.e. if you don't actually know what is happening at the byte level. – Peter Lawrey Aug 27 '10 at 21:59
@ZachSaw - I also did a double-take when I saw a language designer make that quote. There is nothing simpler than an unsigned integer. Signed integers are complicated. Particularly when you consider the bit twiddling at the transistor level. And how does a signed integer shift? I had to conclude that the designer of Java has a serious issue understanding boolean logic. – PP. Feb 12 '12 at 21:58
To me it becomes harder to do any image processing with images byte not being able to give a straight 140 gray level but a -116 that you need to & 0xff to get the correct value. – Matthieu Mar 12 '14 at 11:52

13 Answers 13

up vote 146 down vote accepted

This is from an interview with Gosling and others, about simplicity:

Gosling: For me as a language designer, which I don't really count myself as these days, what "simple" really ended up meaning was could I expect J. Random Developer to hold the spec in his head. That definition says that, for instance, Java isn't -- and in fact a lot of these languages end up with a lot of corner cases, things that nobody really understands. Quiz any C developer about unsigned, and pretty soon you discover that almost no C developers actually understand what goes on with unsigned, what unsigned arithmetic is. Things like that made C complex. The language part of Java is, I think, pretty simple. The libraries you have to look up.

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I'm going to have to disagree with Gosling here with a specific example (from CLR no less). What's more confusing giving an Array a signed integer length value or an unsigned length? It's impossible for an Array to have negative length yet our API indicates that's possible. – JaredPar Jan 10 '09 at 2:29
The argument of making Java simple is part of what got us into the whole mess with a lack of templates which they eventually brought into the language because the alternatives were so cumbersome. I do think that one could support unsigned ints with an appropriate class though, it doesn't need prims – Uri Jan 10 '09 at 5:12
If Java needs unsigned integers because Array indices can't be negative, then it also needs subranges (a la Pascal) because an array index can't be greater than the array size. – Wayne Conrad Jan 27 '10 at 5:05
Okay, he just told the advantages of not having unsigned types. Now let's count the disadvantages... – Moshe Revah Dec 7 '10 at 14:28
I prefer code simplicity over language simplicity. That's why I hate Java. – Pijusn Sep 16 '12 at 11:43

Reading between the lines, I think the logic was something like this:

  • generally, the Java designers wanted to simplify the repertoire of data types available
  • for everyday purposes, they felt that the most common need was for signed data types
  • for implementing certain algorithms, unsigned arithmetic is sometimes needed, but the kind of programmers that would be implementing such algorithms would also have the knowledge to "work round" doing unsigned arithmetic with signed data types

Mostly, I'd say it was a reasonable decision. Possibly, I would have:

  • made byte unsigned, or at least have provided a signed/unsigned alternatives, possibly with different names, for this one data type (making it signed is good for consistency, but when do you ever need a signed byte?)
  • done away with 'short' (when did you last use 16-bit signed arithmetic?)

Still, with a bit of kludging, operations on unsigned values up to 32 bits aren't tooo bad, and most people don't need unsigned 64-bit division or comparison.

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I would love to have unsigned bytes, too, but I suspect the advantage of complete consistency among the integer types outweighs the convenience that unsigned bytes would bring. – Alan Moore Jan 10 '09 at 5:47
"For everyday purposes, they felt that the most common need was for signed data types". In my C++ code, I more than often find myself thinking "Why on earth am I using a signed integer here instead of an unsigned one?!". I have the feeling that "signed" is the exception rather than the rule (of course, it depends on the domain, but there is a reason why positive integers are called natural numbers ;-) ). – Luc Touraille Jun 27 '11 at 8:27
thumb up for the call for unsigned bytes, when doing image processing, assuming bytes to be unsigned(as it should be), made me spent hours debugging. – Helin Wang Apr 30 '12 at 0:55
you'd surprised how often short is used - defltate/gzip/inflate algorithms are 16bit and they rely heavily on shorts... or at least short[] [admittedly they are native - yet java impl of the algorithm carry terrabytes of data]. The latter (short[]) has significant advantage to int[] since it takes twice less memory and less memory = better caching properties, much better performance. – bestsss May 9 '12 at 10:43
Though in a particular application, you should measure whether using shorts gives you better performance rather than assuming it to be true. It is possible that the extra jiggery-pokery required to manipulate shorts rather than ints (which is usually the type that the processor 'likes to use') could actually be detrimental to performance in a particular application. Not always, but you should test, not assume. – Neil Coffey May 9 '12 at 16:47

As soon as signed and unsigned ints are mixed in an expression things start to get messy and you probably will lose information. Restricting Java to signed ints only really clears things up. I’m glad I don’t have to worry about the whole signed/unsigned business, though I sometimes do miss the 8th bit in a byte.

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As to mixing signed/unsigned: You could have unsigned types, but disallow the mixing (or require explicit casts). Still, not clear whether it's necessary. – sleske Oct 12 '09 at 8:27
In C++ you have to sprinkle static_casts around much to mix them. It is indeed messy. – Raedwald Aug 2 '11 at 12:40
The 8th bit is there, it just tries to hide itself as the sign. – starblue Nov 28 '12 at 14:01
Things only get messy with types 32 bits or bigger. I see no reason Java shouldn't have had byte be signed as it was in Pascal. – supercat Apr 25 '14 at 22:06
Come see me when you're having issues with image processing in Java, where you expect bytes to be unsigned. Then you'll know that & 0xFF'ing every byte-to-int promotion makes the code even messier. – bit2shift Nov 3 '15 at 21:16


This guy says because the C standard defines operations involving unsigned and signed ints to be treated as unsigned. This could cause negative signed integers to roll around into a large unsigned int, potentially causing bugs.

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Java signed integers roll around, too. I don't see your point. – foo Aug 18 '11 at 18:21
@foo: Signed integers have to get big before they cause problems. By contrast, in C, one can have problems comparing any negative integer--even -1--to any unsigned quanity--even zero. – supercat Jul 16 '12 at 16:27
It's too bad Java couldn't have included unsigned types, but with a limited set of conversions and mixed operators (somewhat analogous to the way that in C one can add 5 to a pointer, but one can't compare a pointer to 5). The idea that using an operator on mixed types when an implicit cast exist, should force the implicit use of that cast (and use the consequent type as the result type) lies at the heart of a lot of dubious design decisions in both .NET and Java. – supercat Sep 3 '13 at 4:38
Not to rant on your answer, but having -1 as "unknown" age (as the article suggests) is one of the classic examples of "code smell". For instance, if you want to compute "how much Alice is older than Bob?", and A=25 and B=-1, you will get an answer of ±26 which is simply wrong. The proper handling of unknown values is some kind of Option<TArg> when Some(25) - None would return None. – bytebuster Dec 4 '14 at 16:05

This is an older question and pat did briefly mention char, I just thought I should expand upon this for others who will look at this down the road. Let's take a closer look at the Java primitive types:

byte - 8-bit signed integer

short - 16-bit signed integer

int - 32-bit signed integer

long - 64-bit signed integer

char - 16-bit character (unsigned integer)

Although char does not support unsigned arithmetic, it essentially can be treated as an unsigned integer. You would have to explicitly cast arithmetic operations back into char, but it does provide you with a way to specify unsigned numbers.

char a = 0;
char b = 6;
a += 1;
a = (char) (a * b);
a = (char) (a + b);
a = (char) (a - 16);
b = (char) (b % 3);
b = (char) (b / a);
//a = -1; // Generates complier error, must be cast to char
System.out.println(a); // Prints ? 
System.out.println((int) a); // Prints 65532
System.out.println((short) a); // Prints -4
short c = -4;
System.out.println((int) c); // Prints -4, notice the difference with char
a *= 2;
a -= 6;
a /= 3;
a %= 7;

Yes, there isn't direct support for unsigned integers (obviously, I wouldn't have to cast most of my operations back into char if there was direct support). However, there certainly exists an unsigned primitive data type. I would liked to have seen an unsigned byte as well, but I guess doubling the memory cost and instead use char is a viable option.


With JDK8 there are new APIs for Long and Integer which provide helper methods when treating long and int values as unsigned values.

  • compareUnsigned
  • divideUnsigned
  • parseUnsignedInt
  • parseUnsignedLong
  • remainderUnsigned
  • toUnsignedLong
  • toUnsignedString

Additionally, Guava provides a number of helper methods to do similar things for at the integer types which helps close the gap left by the lack of native support for unsigned integers.

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But however, char is too small to support long arithmetic, for example. – Desolator Feb 26 '13 at 13:03
Well clearly, it is only a 16-bit value. :) – Jyro117 Feb 27 '13 at 8:06
This could be a disadvantage of Java – Desolator Feb 27 '13 at 14:43

Java does have unsigned types, or at least one: char is an unsigned short. So whatever excuse Gosling throws up it's really just his ignorance why there are no other unsigned types.

Also Short types: shorts are used all the time for multimedia. The reason is you can fit 2 samples in a single 32-bit unsigned long and vectorize many operations. Same thing with 8-bit data and unsigned byte. You can fit 4 or 8 samples in a register for vectorizing.

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Yeah, I'm sure Gosling is very ignorant about Java in comparison to you. – jakeboxer Dec 12 '09 at 16:55
To judge from what he was saying about ints in public... – foo Jan 9 '12 at 10:52
Does Java allow arithmetic to be performed directly on unsigned-byte quantities, or do values always get promoted? Having an unsigned type for storage, but always performing arithmetic on a signed type which is large enough to accommodate it works out well semantically, but would cause operations on unsigned types that were the same size as "normal" integers to be more expensive. – supercat Jul 16 '12 at 16:23
It's bad style to use char for anything but characters. – starblue Dec 24 '12 at 8:34
@starblue Of course it is, but it's a hack to get around a limitation of the language – Basic Mar 31 '14 at 20:53

I think Java is fine as it is, adding unsigned would complicate it without much gain. Even with the simplified model most Java programmers don't know how the basic numeric types behave, just read the book "Java Puzzlers" and you will know what I mean.

As for practical advice:

If your values are somewhat arbitrary size and don't fit into int, use long. If they don't fit into long use BigInteger.

Use the smaller types only for arrays when you need to save space.

If you need exactly 64/32/16/8 bits, use long/int/short/byte and stop worrying about the sign, except for division and comparison.

See also this answer.

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...and shifting. – aib Oct 20 '11 at 3:37
Yes, for shifting right you have to choose between >> and >>> for signed and unsigned, respectively. Shifting left is no problem. – starblue Oct 20 '11 at 6:48
@starblue Actually >>> doesn't work for short and byte. For example, (byte)0xff>>>1 yields 0x7fffffff rather than 0x7f. Another example: byte b=(byte)0xff; b>>>=1; will result in b==(byte)0xff. Of course you can do b=(byte)(b & 0xff >> 1); but this adds one more operation (bitwise &). – CITBL Nov 5 '13 at 21:07
"...Even with the simplified model most Java programmers don't know how the basic numeric types behave..." Something in me just resents a language aimed at the lowest common denominator. – Basic Mar 31 '14 at 16:58
The opening line in your answer, about more complication and little gain, is precisely what I elaborated on in my article 6 years later: nayuki.io/page/unsigned-int-considered-harmful-for-java – Nayuki Apr 22 at 23:44

With JDK8 it does have some support for them.

We may yet see full support of unsigned types in Java despite Gosling's concerns.

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aka "So people really do use it and we were wrong not to include it to start with" - but we still don't quite trust Java devs to know whether a variable is signed or not - so we're not going to implement them in the VM or as types equivalent to their signed cousins. – Basic Nov 11 '13 at 17:49

I know this post is too old; however for your interest, in Java 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 232-1. Use the Integer class to use int data type as an unsigned integer and Static methods like compareUnsigned, divideUnsigned etc have been added to the Integer class to support the arithmetic operations for unsigned integers.

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I've heard stories that they were to be included close to the orignal Java release. Oak was the precursor to Java, and in some spec documents there was mention of usigned values. Unfortunately these never made it into the Java language. As far as anyone has been able to figure out they just didn't get implemented, likely due to a time constraint.

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This would be fine ... except the evidence from the Gosling interview implies that unsigned integers (apart from char) were left out because the designers thought they were a bad idea ... given the goals of the language. – Stephen C Jun 30 '12 at 10:12

Because unsigned type is pure evil.

The fact that in C unsigned - int produces unsigned is even more evil.

Here is a snapshot of the problem that burned me more than once:

// We have odd positive number of rays, 
// consecutive ones at angle delta from each other.
assert( rays.size() > 0 && rays.size() % 2 == 1 );

// Get a set of ray at delta angle between them.
for( size_t n = 0; n < rays.size(); ++n )
    // Compute the angle between nth ray and the middle one.
    // The index of the middle one is (rays.size() - 1) / 2,
    // the rays are evenly spaced at angle delta, therefore
    // the magnitude of the angle between nth ray and the 
    // middle one is: 
    double angle = delta * fabs( n - (rays.size() - 1) / 2 ); 

    // Do something else ...

Have you noticed the bug yet? I confess I only saw it after stepping in with the debugger.

Because n is of unsigned type size_t the entire expression n - (rays.size() - 1) / 2 evaluates as unsigned. That expression is intended to be a signed position of the nth ray from the middle one: the 1st ray from the middle one on the left side would have position -1, the 1st one on the right would have position +1, etc. After taking abs value and multiplying by the delta angle I would get the angle between nth ray and the middle one.

Unfortunately for me the above expression contained the evil unsigned and instead of evaluating to, say, -1, it evaluated to 2^32-1. The subsequent conversion to double sealed the bug.

After a bug or two caused by misuse of unsigned arithmetic one has to start wondering whether the extra bit one gets is worth the extra trouble. I am trying, as much as feasible, to avoid any use of unsigned types in arithmetic, although still use it for non-arithmetic operations such as binary masks.

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I can think of one unfortunate side-effect. In java embedded databases, the number of ids you can have with a 32bit id field is 2^31, not 2^32 (~2billion, not ~4billion).

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Is there some reason negative ids wouldn't work? – Jason Orendorff Dec 12 '09 at 16:45
He's probably thinking of arrays and not being able to use negative integers as indices. Probably. – SK9 Jan 19 '11 at 7:36
When auto-increment fields in databases overflow they often go wacko. – Joshua Aug 1 '11 at 4:10

The reason IMHO is because they are/were too lazy to implement/correct that mistake. Suggesting that C/C++ programmers does not understand unsigned, structure, union, bit flag... Is just preposterous.

Ether you were talking with a basic/bash/java programmer on the verge of beginning programming a la C, without any real knowledge this language or you are just talking out of your own mind. ;)

when you deal every day on format either from file or hardware you begin to question, what in the hell they were thinking.

A good example here would be trying to use an unsigned byte as a self rotating loop. For those of you who do not understand the last sentence, how on earth you call yourself a programmer.


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Just for kicks, Google the phrase "self rotating loop". Clearly, Denis Co is the only person in the world worthy of calling himself / herself a programmer :-) – Stephen C Jun 30 '12 at 10:16
This answer is so bad that it's funny – Nayuki Apr 22 at 23:46

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