Can the same mathematical operation return different results in different architectures or browsers ?

4Floats move in mysterious ways. – TJHeuvel Apr 26 '12 at 13:47

@TJHeuvel what do you mean ? – João Pinto Jerónimo Apr 26 '12 at 13:49

Post your code and find out ;) – delicateLatticeworkFever Apr 26 '12 at 13:55

I have no code... Was just wondering... – João Pinto Jerónimo Apr 26 '12 at 13:57
Although the ECMAScript language specification 5.1 edition states that numbers are primitive values corresponding to IEEE 754 floats, which implies calculations should be consistent:
http://www.ecmainternational.org/publications/files/ecmast/ECMA262.pdf
4.3.19 Number value
primitive value corresponding to a doubleprecision 64bit binary format IEEE 754 value
NOTE A Number value is a member of the Number type and is a direct representation of a number.
As BlueRaja points out, there is a sort of caveat in section 15.8.2:
The behaviour of the functions acos, asin, atan, atan2, cos, exp, log, pow, sin, sqrt, and tan is not precisely specified here...
Meaning, these are at least some cases where the outcome of operations on numbers is implementation dependent and may therefore be inconsistent.


2

1This answer is incorrect. The same machine can return different results for an operation like x + y even if x and y are the same. BlueRaja's answer is correct. – lacker May 4 '12 at 19:00

Okay I agree with @BlueRajaDannyPflughoeft  however, I can't delete this answer since it has been accepted, so I've edited. – delicateLatticeworkFever Jun 26 '14 at 16:49
The other answers are incorrect. According to the ECMAScript 5.1 specs (section 15.8.2)
NOTE The behaviour of the functions acos, asin, atan, atan2, cos, exp, log, pow, sin, sqrt, and tan is not precisely specified here except to require specific results for certain argument values that represent boundary cases of interest.
...
Although the choice of algorithms is left to the implementation, it is recommended (but not specified by this standard) that implementations use the approximation algorithms for IEEE 754 arithmetic contained in fdlibm, the freely distributable mathematical library from Sun Microsystems
However, even if the implementations were specified, the exact results of all floatingpoint operations would still be dependent on browser/architecture. That includes simple operations like multiplication and division!!
The reason is that IEEE754 allows systems to do 64bit floatingpoint calculations at a higherprecision than the result, leading to different rounding results than systems which use the same precision as the result. This is exactly what the x86 (Intel) architecture does, which is why in C (and javascript) we can sometimes have cos(x) != cos(y)
even though x == y
, even on the same machine!
This is a big issue for networked peertopeer games, since this means, if the higherprecision calculations can't be disabled (as is the case for C#), those games pretty much can't use floatingpoint calculations at all. However, this is typically not an issue for Javascript games, since they are usually clientserver.

Great post  but: in general (because of imprecision) using == or != with floats is not a good idea. However, it doesn't mean you can't use floats, it just means, don't use == or !=, use comparative <= >= ranges tailored to whatever degree of precision. – delicateLatticeworkFever Apr 26 '12 at 21:58

@goldilocks is right, infact (Math.tan(1) == Math.sin(1)/Math.cos(1)) yields false... – João Pinto Jerónimo Apr 27 '12 at 11:58

1@João: Yes, but that is orthogonal to your question. Everyone knows we might have
tan(1) != sin(1)/cos(1)
, due to floatingpoint inaccuracies. The question was not whether they would be equal, but rather iftan(x)
will always be exactly the same thing in all browsers/machines for somex
. The answer to that is still NO, but has nothing to do with floatingpoint inaccuracy  it's becausetan(x)
is not precisely defined in javascript, and because IEEE754 allows extendedprecision calculations. If those two things weren't true, the answer would be yes, it's always the same. – BlueRaja  Danny Pflughoeft Apr 27 '12 at 14:49
If we assume that every browser vendor follows the IEEE standards + ECMA specs and there is no human error while implementing, no there can't be any difference.

Yeah, if they comply with the standards, they all behave in standard ways. Browsers that don't comply with IEEE/ECMA are probably not worth using anyway. – Romain Apr 26 '12 at 13:50

Ah, now that you have added "ECMA" I can delete my answer and upvote yours. =) Further information for readers: ecmainternational.org/publications/files/ECMAST/Ecma262.pdf specifies how all ECMAscript numbers must behave, usually in terms of various IEEE specifications. – ninjagecko Apr 26 '12 at 13:52


@BlueRajaDannyPflughoeft: You're incorrect aswell. At the end its the same problem that
0.1 + 0.2 !== 0.3
. But that seems to be a problem of a higher order which happens to any system that follows IEEE there. So technically, there should be NO difference in those results (even if they are wrong). – jAndy Apr 26 '12 at 22:20 
The result of a floatingpoint multiplication (and possibly addition) could be different on different systems that follow IEEE754 (see my answer for the reason why), so you are wrong on that point. Moreover, the result of, say,
cos(1)
is not specified by the ECMA specs, so that can differ in implementation between different browsers as well. So the answer to OP's question is a resounding YES. – BlueRaja  Danny Pflughoeft Apr 26 '12 at 22:45
My two cents  @goldilocks notes and others allude to that you shouldn't use == or != on floating point numbers. So what do you mean by "deterministic"? That the behavior is always the same on different machines? Obviously this depends on what you mean by "the same behavior."
Well, at one silly literal level of "the same," of course not, physical bits will be different on e.g. 32 bit versus 64 bit machines. So that interpretation is out.
Ok, so will any program run with the same output on two different machines? In general languages no, because a C program can do something with undefined memory, like read from an uninitialized bit.
Ok, so will any valid program do the same thing on different machines? Well, I would say a program that uses == and != on floating point numbers is as invalid as a program that reads uninitialized memory. I personally don't know if the Javascript standard hammers out the behavior of == and != on floats to the point that it's welldefined if not kooky, so if that is your precise question you'll have to see the other answers. Can you write javascript code that has undefined output with respect to the standard? Never read the standard (other answers cover this somewhat), but for my interest this is moot because the programs that would produce what you call undeterministic behavior are invalid to begin with.