In C++, do I have a guarantee that, for any given float a and float b, one and only one of a < b, a == b and a > b is true?

If this differs between compilers and platforms, I am interested in Visual C++ on x86.

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    Not if your float is a NaN. – n. 'pronouns' m. Feb 1 '17 at 20:56
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    You probably want to modify this to 'non-NaN float values' to exclude the corner-case? – smci Feb 2 '17 at 3:38
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    No, at most one of those is guaranteed to be true. – Dmitry Grigoryev Feb 2 '17 at 10:09


It's enough for either a or b to be NaN for each of a < b, a == b and a > b to be false.

If both a and b are non-NaN then exactly one of a < b, a == b or a > b has to be true.

In complement, this answer tells you how you can get a NaN value in C++ (there are several NaN values, that can be distinguished by inspecting their representations; they are all different from each other because NaN is never equal to anything,) and how you can test whether a value is a NaN (an idiomatic test to see if a variable x is a NaN is x != x, and indeed std::isnan() is often implemented this way, but some programmers who will have to read your code may be confused by it).

And then, if a and b are the results of previous computations, there is the problem of excess precision. See this article for a discussion in C. The C99 standard solved the problem by making rules explicit for where excess precision could and could not occur, but despite C++ more or less inheriting these rules by deferring to the C standard for the definition of FLT_EVAL_METHOD in cfloat, in practice C compilers take the rules more seriously than C++ compilers. For instance GCC implements the rules for C when compiling with -std=c99, and in this context you can rely on the property to hold, but as of this writing GCC does not implement these rules when used as a C++ compiler.

  • Will something like 0.0 / 0.0 not get a NaN as well? – Jeppe Stig Nielsen Feb 1 '17 at 23:39
  • @JeppeStigNielsen yes, that's a way to write it without relying on any header. – Pascal Cuoq Feb 1 '17 at 23:59
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    @JeppeStigNielsen: Depending on your FPU settings that might produce an FPU exception instead of a NaN. – Zan Lynx Feb 2 '17 at 1:42
  • Is the difference of behavior of GCC WRT C and C++ documented anywhere? Is it something related to this? – Ruslan Feb 2 '17 at 7:18
  • @Ruslan Yes, the last part of this answer describes exactly the same problem as the first part as the FAQ entry you linked to. Joseph Myers said when he implemented -fexcess-precision=standard for C that C++ didn't support it yet: gcc.gnu.org/ml/gcc-patches/2008-11/msg00105.html . The second part of the FAQ affects how floating-point expressions are computed, so it does not handicap the comparison of lvalues. In any case, with GCC, -ffp-contract=off prevents the issue from the second part of the FAQ. – Pascal Cuoq Feb 2 '17 at 9:17

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