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i am running a program in c++ on windows and on linux. the output is meant to be identical. i am trying to make sure that the only differences are real differences oppose to working inviorment differences. so far i have taken care of all the differences that can be caused by \r\n differences but there is one thing that i can't seem to figure out.

in the windows out put there is a 0.000 and in linux it is -0.000

does any one know what can it be that is making the difference?


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Hard to say as you're not showing a piece of relevant code that outputs that :) – favoretti Dec 4 '11 at 12:51
It doesn't make a difference, regardless or how you see it. What will you do with signed/unsigned zero? Add it? Mutliply it? Divide by it? – FailedDev Dec 4 '11 at 12:52
@FailedDev: it does make a difference. Think of a function that tends to 0, it can come either from the negative part of the y-axis, or from the positive part of the y-axis. – ninjalj Dec 4 '11 at 13:03
up vote 1 down vote accepted

Since in the IEEE floating point format the sign bit is separate from the value, you have two different values of 0, a positive and a negative one. In most cases it doesn't make a difference; both zeros will compare equal, and they indeed describe the same mathematical value (mathematically, 0 and -0 are the same). Where the difference can be significant is when you have underflow and need to know whether the underflow occurred from a positive or from a negative value. Also if you divide by 0, the sign of the infinity you get depends on the sign of the 0 (i.e. 1/+0.0 give +Inf, but 1/-0.0 gives -Inf). In other words, most probably it won't make a difference for you.

Note however that the different output does not necessarily mean that the number itself is different. It could well be that the value in Windows is also -0.0, but the output routine on Windows doesn't distinguish between +0.0 and -0.0 (they compare equal, after all).

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Probably it comes from differences in how the optimizer optimizes some FP calculations (that can be configurable - see e.g. here); in one case you get a value slightly less than 0, in the other slightly more. Both in output are rounded to a 0.000, but they keep their "real" sign.

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Unless using (unsafe) flags like -ffast-math, the compiler is limited in the assumptions it can make when 'optimizing' IEEE-754 arithmetic. First check that both platforms are using the same rounding.

Also, if possible, check they are using the same floating-point unit. i.e., SSE vs FPU on x86. The latter might be an issue with math library function implementations - especially trigonometric / transcendental functions.

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how do i check what floating-point unit they are using? – user690936 Dec 8 '11 at 15:09

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