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There are questions about why Java doesn't support unsigned types and a few questions about dealing with unsigned types. I did some searching, and it appears that Scala also doesn't support unsigned data types. Is the limition in the language design of Java and Scala, in the generated bytecode, or is it in the JVM itself? Could there be some language that runs on the JVM and is otherwise identical to Java (or Scala), yet supports unsigned primitive data types?

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up vote 7 down vote accepted

Java Bytecode Specification only defines signed types:

The integral types are byte, short, int, and long, whose values are 8-bit, 16-bit, 32-bit, and 64-bit signed two's-complement integers

But a language implemented on top of the JVM can probably add an unsigned type at the syntactic level and just handle the conversion at the compilation stage.

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I never even thought to look in the bytecode spec. I should have. I only looked at the Java Language Specification and various Scala documentation. – Thomas Owens Dec 1 '11 at 17:39
"The built-in integer operators do not indicate (positive or negative) overflow in any way; they wrap around on overflow." That would also indicate that if you handle the cases properly, you can indeed implement unsigned data types using the standard arithmatic operators. – Thomas Owens Dec 1 '11 at 17:41
Back in the day I used to work with the QuckTime Java api that's just a wrapper around the native QuickTime library that, if my memory serves me right, was full of unsinged integer types. It was somewhat awkward api-wise, but the signed-unsigned conversion worked ok. – Dmitry B. Dec 1 '11 at 17:57
Java's non-extending shift operator >>> corresponds to C's >> on unsigned types. It is implemented via the bytecode instruction iushr for 32b wide values and lushr for 64b wide values. The 'u' in those instruction names stands for "unsigned". – Mike Samuel Jan 12 '12 at 19:53

Although unsigned type might be emulated at the bytecode level there are some drawbacks with that:

  • Performance: You would need several bytecode operations for each simple arithmetic operation. The performance of code using the emulated unsigned types would be two or three times worse than code using signed types.

  • Compatibility: Most languages running on a JVM try very hard to be compatible with the huge amount of Java code out there. This of course would be spoiled immediately when additional types are introduced or when some variables with "known" types have to handled differently.

In the light of this the benefits for unsigned types are IMHO negligible.

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Additions and subtractions of like-sized numbers would not be affected. Comparisons would probably be the biggest nuisance. – supercat Apr 25 '14 at 22:09
@supercat: why do you think so? – A.H. Apr 26 '14 at 7:26
The only operations I can think of that would be affected would be division, comparisons, and conversions to long or floating-point types. Of those, comparisons would be used more frequently than the others, and would normally take the least amount of time. – supercat Apr 26 '14 at 17:58

Handling unsigned arithmetic is a language/implementation issue, not platform--it could be simulated on any platform even if there was no native support.

The JVM doesn't have it as a type, so Java/Scala/etc. don't support it "out of the box".

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