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I'd like to enable -Wfloat-equal in my build options (which is a GCC flag that issues a warning when two floating pointer numbers are compared via the == or != operators). However, in several header files of libraries I use, and a good portion of my own code, I often want to branch for non-zero values of a float or double, using if (x) or if (x != 0) or variations of that.

Since in these cases I am absolutely sure the value is exactly zero - the values checked are the result of an explicit zero-initialization, calloc, etc. - I cannot see a downside to using this comparison, rather than the considerably more expensive and less readable call to my near(x, 0) function.

Is there some way to get the effect of -Wfloat-equal for all other kinds of floating point equality comparisons, but allow these to pass unflagged? There are enough instances of them in library header files that they can significantly pollute my warning output.

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3 Answers 3

This discussion seems like it applies...

Selectively disable GCC warnings for only part of a translation unit?

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Unfortunately the scope of all of these instances is exactly one line - potentially even less than one line for something like x && x != y - so the GCC warning filtering mechanisms I am aware of are all inappropriately noisy. –  user79758 Feb 25 '11 at 23:56
    
Perhaps it would help to write an inline function IsFloatingPointValueZero(float f), and then always call that function instead of explicitly comparing the float to zero. Then you'd only have one warning instead of many (and possibly no warnings if you can #pragma that one warning away) That would also allow you to make the intent of the code more clear, so that any future programmer seeing it would know that you were doing the "questionable" comparison deliberately. –  Jeremy Friesner Feb 26 '11 at 2:47
    
X & x!=y is clearly incorrect though, isn't it? Unless you're checking if x was previously assigned the value in y you really can't count on that. Or can you? This is laughably far from my area of expertise... –  Walt Feb 26 '11 at 14:36
    
x && x != y is an example of an incorrect line I would like flagged, yes. It is also an example of why per-line filtering is inappropriately intrusive in the code; I would have to disable -Wfloat-equal for the first condition but re-enable it for the second. –  user79758 Feb 28 '11 at 12:38

From the question you ask, it seems like the warning is entirely appropriate. If you're comparing against exact zero to test if data still has its initial zero value from calloc (which is actually incorrect from a standpoint of pure C, but works on any IEEE 754 conformant implementation), you could get false positives from non-zero values having been rounded to zero. In other words it sounds like your code is incorrect.

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I said exactly that in the question. There are a lot of things in C/C++ guaranteed to give a zero value in any implementation, and even more in any IEEE 754 implementation, which is practically everywhere. –  user79758 Feb 25 '11 at 23:52
    
@Joe: @R has a point: if you're testing against zero to see whether the value has ever been written since initialization, and any of your calculations could evaluate to zero, you'll incorrectly think a variable is newly initialized when it isn't. If you are looking for newly initialized union calculation resulted in zero, you need to use an inexact test because the calculation could be imprecise. –  Ben Voigt Feb 26 '11 at 0:41
    
@Joe: Remind me why I should bother trying to help after the -1... but anyway, regarding calloc, C does not guarantee that floating point zero is all-zero-bits. Of course as I acknowledged it's a non-issue in the real world, especially if you're happy assuming IEEE 754. Aside from that, I don't see how you're confused by my answer. –  R.. Feb 26 '11 at 0:50
    
Thanks guys, I know C. I'm interested in answers to the question, not another summary of how obscure x87 rounding rules are going to bite me (they're not going to). –  user79758 Feb 26 '11 at 0:55

It's pretty horrible, but this avoids the warning:

#include <functional>

template <class T>
inline bool is_zero(T v)
{
    return std::equal_to<T>()(v, 0);
}

GCC doesn't report warnings for system headers, and that causes the equality test to happen inside a system header.

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