Has anyone come across an authoritative specification of how arithmetic on int and uint works in Actionscript 3? (By "authoritative" I mean either "comes from Adobe" or "has been declared authoritative by Adobe"). In particular I'm looking for a supported way to do integer multiplication modulo 232. This is not covered in any Adobe documentation I have been able to find.

Actionscript claims to be based on ECMAScript, but ECMAScript does not do integer arithmetic at all. It does everything on IEEE-754 doubles, and reduces the result modulo 232 before bitwise operations, which in most cases simulates integer arithmetic. However, this does not work for multiplication: the true result of a multiplying, say, 0x10000001 * 0x0FFFFFFF will be too long for the mantissa of a double, so the low-order bits will be lost if the specification is followed to the letter.

Now enter Actionscript. I have found experimentally that multiplying two int or uint variables and immediately casting the product to int or uint always seems to give me the exact result. However, the generated AVM2 bytecode just contains a plain "mul" instruction with no direct indication that it is supposed to produce an integer result rather than a floating-point one; the virtual machine would have to look ahead to find this out. I'm worrying that I've just been lucky in my experiments and gotten extra precision as a bonus rather than something I can rely on.

(For one thing, my experiments were all performed using an x86 Flash player. Perhaps it represents intermediate results as Intel 80-bit doubles, or stores a 64-bit int on the evaluation stack until it's known what it will be used for. Neither would be easily possible on a non-x86 tablet with no native 32×32→64 multiplication instruction, so might the VM just decide to reduce the precision to what the ECMAScript standard specifies?)

24-hour status: Mike Welsh has done some able investigation and provided very useful links, but unfortunately not enough to close the question. Anyone else?

(tl;dr debate in comments: whitequark refutes, to some degree, one of my hypothetical reasons why the answer might be "no". His points have merit, but of course don't constitute a showing that the answer is "yes").

  • Most, if not all, non-x86 tablets are based on ARM, and there is such an instruction. – whitequark Aug 7 '11 at 16:17
  • I see. More power to them, then. Unfortunately it just increases the risk that my code will appear to work now but start to fail at some indeterminate point in the future when a different architecture becomes popular. – Henning Makholm Aug 7 '11 at 16:29
  • Actually not. Flash is heavy enough to run only on 32-bit or better architectures, and every sensible 32-bit arch now and in the future will have this multiplication. Even the cheapest Cortex-M do! Moreover, if somehow there'll be a CPU which does not support this feature, and Flash will run on it, a compiler will provide a supporting function as it does currently for division, and you won't notice anything. – whitequark Aug 7 '11 at 16:32
  • You're assuming that the answer to my question is, "yes, Flash guarantees that this will work". That guarantee is what I'm looking for a reference to. – Henning Makholm Aug 7 '11 at 16:50
  • Well, the first part of my comment still applies: you'll never manage to find such a platform. Regarding the second, yes, I don't used Flash in my entire life; that's why I am commenting and not answering. – whitequark Aug 7 '11 at 16:53

ActionScript 3 was based on ECMAScript 4, which includes true 32-bit int and uint operations. For example, the multipy_i instruction performs integer multiplication (source: AVM2 Overview).

Unfortunately, the Adobe AS compiler only seems to perform the float versions of these opcodes, e.g. multiply, which supposedly casts the operands as 64-bit floats. This is perhaps in accordance with the ECMAScript specs, which state that ints will be promoted to doubles during math operations in order handle overflow. If it does indeed do 64-bit float multiplication, and then converts back to an int, then there should be a loss of precision.

Despite this, the Flash Player seems to not lose precision when casting back to int immediately. For example:

var n:int = 0x7FFFFFFF;
var n2:int = n*n;

Even though this code emits a multiply instruction, it traces out a 1 in the Flash Player, which is the result if there is no loss of precision. It's unclear whether this behavior is consistent and cross-platform. However, I tested it in the Flash Player on several platforms, including a few mobile phones, and the result seemed to be 1 consistently. However, running this code through a Tamarin shell in interpreted mode outputted a 0! (JIT mode still outputted a 1, so this behavior must be a side effect of JIT). So it may be risky to rely on this.

Using a multiply_i opcode instead should behave appropriately. Haxe will use this opcode when working with ints. Apparat could also be used to apply this opcode.

  • Where can I read the ECMAScript 4 specification? Google turns up some overview articles, but no actual specification text. Also, why would an AVM2 disassembler show a multiply_i instruction as simply multiply? – Henning Makholm Aug 7 '11 at 17:31
  • I found a cached copy at ecmascript.zwetan.com/2007/05/ecmascript-4-specification.html However, that just specifies multiplication (in section 4.3.10, cf 14.16.4) by reference to ECMA-262, which defines multiplication as IEEE double exclusively (ECMA-262 v3 sec 11.5.1). Without a more concrete reference I find it difficult to believe your "ECMAScript 4, which includes true int and uint operations". – Henning Makholm Aug 7 '11 at 17:54
  • Also, the ECMAScript 4 overview at ecmascript.org/es4/spec/overview.pdf claims (on page 29): "If an operation on byte, int, or uint overflows then the result will be in a "better" representation; . . . int and uint operations overflow to double". – Henning Makholm Aug 7 '11 at 17:57
  • A proposed draft of ECMAScript 4 is here: link On page 29, you can see the description of int and uint. Interestingly, operations on ints will overflow into a double. You're right, the AS compiler will use multiply for this reason, and that's why trace(0xFFFFFFFF*0xFFFFFFFF); produces a result >2^32. The cast to uint that follows (callproperty uint 1) is what truncates the result into a 32-bit integer. I haven't found any documentation to guarantee that this is the functionality yet. – Mike Welsh Aug 7 '11 at 18:06
  • 1
    The ToInt32 cannot produce modulo 2³² behavior if the lower bits of its input have disappeared due to the intermediate result being represented as a double (with only 53 significant bits). The behavior I see in practice gives be better precision than a strict implementation of ECMAScript would, which is what makes me suspicious. – Henning Makholm Aug 7 '11 at 18:24

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.