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The IEEE 754 standard defines the square root of negative zero as negative zero. This choice is easy enough to rationalize, but other choices, such as defining sqrt(-0.0) as NaN, can be rationalized too and are easier to implement in hardware. If the fear was that programmers would write if (x >= 0.0) then sqrt(x) else 0.0 and be bitten by this expression evaluating to NaN when x is -0.0, then sqrt(-0.0) could have been defined as +0.0 (actually, for this particular expression, the results would be even more consistent).

Is there a numerical algorithm in particular where having sqrt(-0.0) defined as -0.0 simplifies the logic of the algorithm itself?

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The wikipedia article is decent. You probably ought to ask this at math.se –  Hans Passant Oct 8 '13 at 1:36

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The only mathematically reasonable result is 0. There is a reasonable question of whether it should be +0 or -0. For most computations it makes no difference at all, but there are some specific complex expressions for which the result makes more sense under the -0 convention. The exact details are outside the scope of this site, but that's the gist of it.

I may explain some more when I'm not on vacation, if someone else doesn't beat me to it.

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This is really a non-answer. What are some expressions where the -0 convention makes more sense? –  pburka Oct 8 '13 at 1:45
@pburka Examples are in the article “Elementary Functions or Much Ado About Nothing's Sign Bit”, the authoritative reference which Stephen pointed out before this question was a StackOverflow Question: people.freebsd.org/~das/kahan86branch.pdf . As he says, the exact details are outside the scope of “programming”. The programmer should, at least in the case of sqrt(-0.0), “Rather than think of +0 and -0 as distinct numerical values, think of their sign bit as an auxiliary variable that conveys one bit of information (or misinformation)”, and trust the mathematician that it makes sense –  Pascal Cuoq Oct 8 '13 at 6:44
@PascalCuoq: Oddly enough, Kahan's sign bit article is the one that convinced me that sqrt(-0.0) being 0.0 would have made more sense, for consistency with the way that Kahan defines the complex square root. If I'm reading it right, the result of a CSQRT call (on a finite input) always has a real part whose sign bit is unset. (And I believe that's the behaviour that C99 Annex G recommends, too.) IOW, CSQRT always maps quadrants 1 and 2 to quadrant 1 and quadrants 3 and 4 to quadrant 4. (Using the sign of the zero to determine quadrant membership in the obvious way.) –  Mark Dickinson Oct 8 '13 at 13:04

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